phd in biotechnology us

PhD in Biology and Biotechnology

As a student in WPI’s PhD in Biology and Biotechnology program, you will benefit from close mentorship by dynamic faculty who encourage creativity and inquisitiveness.

Value Proposition Description

Enabled by a world-class research infrastructure, students in our competitive program explore their passion for discovery while driving cutting-edge, hypothesis-driven research. You will work alongside interdisciplinary teams of WPI faculty, peers, and industry partners to make an impact in your field and explore topics that matter to you, from cancer biology and immunology research to studies of brain plasticity and pollinator decline.

Through our well-rounded PhD in Biology and Biotechnology, you will delve into immersive research in biology and biotechnology while also sharpening your professional and pedagogical knowledge and skills. You will take core courses covering professional ethics, grant writing, and experimental design, and hone your communication skills by participating in department-wide research presentations. You may also take part in supervised teaching experiences and discuss interdisciplinary research initiatives in our Journal Clubs.

Students complete a qualifying exam by the end of the second year of study and round out required coursework with electives. Completion of PhD studies concludes with the preparation of a written thesis and successful oral defense.

To treat many infectious diseases, including the global scourge of tuberculosis, doctors must do battle with a wily adversary, bacteria. Unfortunately for afflicted patients, bacteria have also acquired strategies for thwarting attacks from the immune system and the onslaught of antibiotic drugs. We need to know more about the strategies bacteria use to survive stresses. Biology and biotechnology professor, Scarlet Shell, is seeking to do just that by probing the molecular changes that underlie these mechanisms.

WPI's Department of Biology and Biotechnology is home to a diverse and dynamic faculty body that employs cutting-edge research to explore and understand research topics at the intersection of biology and technology. You will work alongside them as you make your own discoveries in these research areas:

• cancer cell biology
• cognition and behavior
• cytoskeletal dynamics
• drug resistance
• epigenetics and gene regulation
• infectious diseases
• neuronal migration and degeneration
• regenerative medicine
• signal transduction mechanisms

Grad students work closely with faculty and with each other. The opportunity for potential brings new ideas to the forefront and enhances the work everyone does here.

Students in WPI’s BBT program have access to the state-of-the-art labs and multidisciplinary collaborations in the Life Sciences & Bioengineering Center at Gateway Park.

Well-equipped BBT facilities mean you’ll be supported in your research endeavors whether that involves an AAALAC-accredited vivarium with surgical suites, NMR, or a greenhouse.

WPI’s biology and biotechnology graduate degree programs are rigorous yet flexible to provide students with the appropriate backgrounds in both the theory of biology and the practice of biotechnology.

Work in WPI’s biology and biotechnology labs has real-world applications that impacts problems on a human scale.

The BBT program is rigorous, flexible, and comprehensive, so students are prepared for whatever the next step in their career path brings.

PhD candidates are encouraged to review the department's  faculty pages  to identify potential advisors.

You will have access to state-of-the-art equipment in WPI’s Life Sciences and Bioengineering Center, a research complex where an open-plan lab and presence of biotech companies encourage interdisciplinary collaborations. Facilities include an analytical instrumentation core equipped for NMR, Mass Spec, X-Ray Crystal, and qPCR analysis; imaging core with advanced microscopes for point-scanning confocal, spinning disk confocal, and TIRF microscopy; and AAALAC-accredited vivarium.

Faculty Profiles

Work in my lab is focused on defining the cellular mechanisms that maintain genome stability in normal cells and understanding how these pathways are corrupted in cancer cells.

Defining signaling pathways that program cellular diversity is one of the foremost problems in biology and is central to my research interests.  In the lab we use molecular, genetic, and biochemical approaches to characterize the function of these pathways and to gain insight into their role in disease.  To date, the lab has focused on the Epidermal Growth Factor Receptor network, a principal therapeutic target for a variety of human cancers.

I deeply enjoy teaching, in particular conveying the important roles played by plants. It is a great reward when my students realize that plants are more complex and interesting than they anticipated, and they want to learn more. I enjoy that students at WPI are open about thinking in new ways; this critical thinking is the result of intense project-based learning.

Prof. Weathers is an internationally recognized expert on Artemisia annua and artemisinin, having worked with the plant and its phytochemicals including the antimalarial drug, artemisinin, for >25 years. She is a Fellow of AAAS and SIVB, won many awards, given many national and international presentations, reviews manuscripts for many journals and proposals for many national and international funding agencies. She is an Associate Editor for multiple journals. Her lab was the first to genetically transform A. annua.

Our lab investigates the molecular basis of phenotype switching in human fibroblasts that can be modulated using defined extracellular stimuli. We evaluate the role of oxygen and growth factor FGF2 isoforms independently and in combination in order to identify key molecular mechanisms and pathways, some of which closely mimic mechanisms described in human embryonic stem cells. Extended lifespan of these cells in culture also offers us a model for investigation of molecular mechanism that are regulating cell cycle in the context of both aging and cancer.

Research in my laboratory addresses questions in the field of evolutionary ecology and environmental biology, and typically combines field work and laboratory studies. Current projects focus on two disciplines.

A member of the WPI faculty since 2004 and chair of the Department of Biology and Biotechnology since 2022, Reeta Rao is a leader in the field of molecular genetics and genomics. Her primary research activities are focused on emerging infectious diseases, specifically understanding and managing fungal diseases. Students and research associates in her laboratory are trained to use a variety of biochemical, molecular-genetic, and genomic tools to study host-microbe interactions to explore fungal virulence strategies and identify novel therapeutics in a high through

I have a passion for understanding how living systems work, as well as for sharing my love of biology and research with the next generation of scientists and informed citizens.

The central goal of my lab is to understand the regulatory mechanisms that underlie mycobacterial stress tolerance. We combine genetics, genomics, transcriptomics and biochemistry to understand how mycobacteria respond to, and ultimately survive, stressful conditions.

It has been my lifelong dream to become a professor in the field of Biology. Being a faculty member provides a great opportunity to teach and interact with students. Students by nature are highly inquisitive and motivated, and as teachers, we have the responsibility to guide our students to explore and think in new ways. I believe that teaching is a two-way interaction between teachers and students. I come from India and my parents, both of whom were teachers, taught me to strive for excellence in my scholarly pursuits.

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Earn a Master’s Degree in Biology & Biotechnology First

Are you interested in making advanced discoveries about living organisms in a robust community of like-minded researchers, but need your master’s to get there? Consider earning a master’s in biology and biotechnology where you’ll participate in cutting-edge laboratory training and gain professional training in areas like experimental design, ethics, and more. Do you prefer advancing a career in the biotech industry from making cross-functional decisions to gaining expertise in bio-production? Our online master’s in biotechnology is a skills-focused program perfect for students who are working professionals looking to study part-time. Maybe you have a strong foundation in computer science and statistics? Consider earning a master’s in bioinformatics and computational biology which dives into leveraging biological data to improve health care.

Get Started with a BS in Biology & Biotechnology or a Minor in a Related Field

If you’re interested in the field but need your initial degree, a bachelor’s in biology & biotechnology is the first step. This degree introduces you to how the theory of biology is put into practice with biotechnology. If your interest lies in gaining enough information to use in a different discipline or practice, WPI has minors that will deliver the skills and knowledge you seek. A minor in biology is an excellent addition to your academic program and will be relevant in many industries including biomechanics, big data, or personalized medicine. Or maybe you’re seeking a global perspective. WPI’s interdisciplinary minor in global public health examines biological, social, political, environmental, and economic influences on the health of diverse and varied populations.

WPI is proud to be the recipient of not one, but two National Science Foundation Research Traineeship programs. The programs provide exceptionally talented graduate students with specialized training and funding assistance to join careers at the forefront of technology and innovation. The programs are for graduate students in research-based master's and doctoral degree programs in STEM. Learn more .

The BioPoint Program for Graduate Students has been designed to complement traditional training in bioscience, digital and engineering fields. Students accepted into one of the home BioPoint programs will have the flexibility to select research advisors and take electives in other departments to broaden their skills. BioPoint curriculum is designed to be individual, interactive, project-focused and diverse, and includes innovative courses, seminars, journal clubs and industrial-based projects. Learn more .

A Guide to Pursuing a PhD in Biotechnology in the USA

May 15, 2023

Congratulations on considering pursuing a PhD in biotechnology in the USA! This degree provides excellent opportunities for those interested in researching and developing solutions to important worldwide problems, such as treating diseases, improving food production, and protecting the environment. In this guide, we’ll cover everything you need to know about pursuing a PhD in biotechnology in the USA. From understanding the industry to choosing a program, we’ll provide you with information and helpful tips to ensure a successful journey.

Understanding the PhD in Biotechnology in the USA

Why pursue a phd in biotechnology, top universities in the usa offering phd in biotechnology, admission requirements for phd programs in biotechnology, how to choose the right phd program in biotechnology for you, funding your phd program in biotechnology, tips for writing a strong phd application essay, preparing for your phd interview in biotechnology, coursework and research requirements for a phd in biotechnology, finding a research advisor for your phd program in biotechnology, conducting research and writing your dissertation, career opportunities with a phd in biotechnology, networking and professional development opportunities for biotech phd students, challenges and rewards of pursuing a phd in biotechnology.

Before starting your PhD program, it’s important to understand the biotechnology industry in the USA. In recent years, biotech has become an influential industry, with a market value of over $800 billion. Biotechnology is defined as the use of living organisms to develop new products or improve existing ones. This involves areas such as genetic engineering, biomanufacturing, and personalized medicine. Biotech companies work on developing treatments for diseases, improving agricultural yields, and developing green technologies to reduce the environmental impact of human activity. With the growth of biotech and its impact on society, there is a great need for researchers and innovators to lead the industry forward.

One of the major challenges facing the biotechnology industry is the regulatory environment. The development of new biotech products often requires approval from multiple government agencies, which can be a lengthy and expensive process. Additionally, there is ongoing debate about the ethical implications of genetic engineering and other biotech practices. As a researcher in the field, it’s important to stay up-to-date on these issues and be prepared to navigate the regulatory landscape.

Another important aspect of the biotechnology industry is the role of intellectual property. Patents and other forms of intellectual property protection are crucial for biotech companies to recoup their research and development costs and bring new products to market. As a PhD student, it’s important to understand the basics of intellectual property law and how it applies to biotech research. This knowledge can help you develop a successful career in the industry and contribute to the development of new and innovative biotech products.

There are several reasons why pursuing a PhD in biotechnology may be the right choice for you. With a PhD, you’ll have the opportunity to become an expert in a specific area of biotech research. You’ll also be able to explore new areas of research and contribute to advancements in the industry. A PhD in biotech is also highly valued by employers, as it demonstrates your ability to conduct research independently and solve complex problems. In addition to career opportunities, a doctorate in biotechnology can be highly satisfying, as you’ll have the chance to make a significant impact on people’s lives and the environment.

Furthermore, pursuing a PhD in biotechnology can also lead to opportunities for teaching and mentoring future generations of scientists. As a PhD holder, you’ll have the knowledge and expertise to guide and inspire the next wave of biotech researchers. Additionally, a doctorate in biotechnology can open doors to leadership positions within the industry, where you can use your skills to shape the direction of research and development. Overall, pursuing a PhD in biotechnology can be a challenging and rewarding experience that can lead to a fulfilling career and a lasting impact on the world.

Choosing the right school for your PhD in biotechnology is essential. In the USA, there are many top-ranked universities offering biotech programs. Some of the best include Massachusetts Institute of Technology (MIT), University of California, Berkeley, Stanford University, California Institute of Technology (Caltech), Harvard University, and Johns Hopkins University. These schools offer excellent research facilities, renowned faculty, and a great community of students and alumni.

When considering a PhD program in biotechnology, it’s important to look beyond just the rankings and reputation of the university. You should also consider the specific research areas and opportunities available within the program. For example, some universities may have a strong focus on genetic engineering, while others may specialize in drug development or bioinformatics.

Additionally, it’s important to consider the location and resources available to you as a student. Some universities may be located in areas with a strong biotech industry, providing opportunities for internships and networking. Others may have partnerships with nearby research institutions or biotech companies, providing access to cutting-edge technology and resources.

Know More: PHD IN COMPUTER SCIENCE IN THE USA

Admission requirements for PhD programs in biotechnology vary from school to school. However, most schools will require a bachelor’s degree in a related field, such as biology, biochemistry, or biotechnology. You’ll also need to submit your GRE scores, academic transcripts, letters of recommendation, and a personal statement outlining your goals and research interests. You may also need to submit a writing sample or participate in an interview with faculty members.

Additionally, some PhD programs in biotechnology may require applicants to have prior research experience in a related field. This can include working in a laboratory or conducting independent research projects. Some programs may also require applicants to have a minimum GPA or a certain level of proficiency in specific subjects, such as genetics or molecular biology. It’s important to carefully review the admission requirements for each program you’re interested in and ensure that you meet all of the necessary qualifications before applying.

Choosing the right PhD program in biotech can be challenging. It’s essential to consider factors such as program reputation, faculty expertise, research opportunities, funding, and location when choosing a program. You should engage in thorough research and visit the schools you are interested in to gain a general understanding of each program. Additionally, you should seek counsel from current students or alumni to gain a better understanding of each program’s culture and academic rigor.

One of the significant worries for PhD students is funding. Fortunately, many schools offer funding opportunities for PhD students, including fellowships, research assistantships, and teaching assistantships. These financial aids may cover tuition, expenses, and stipends. Additionally, several private organizations offer funding for biotech research, including the National Science Foundation (NSF), the National Institutes of Health (NIH), and private industry grants.

Your application essay is one of the most critical parts of your PhD application. In writing your essay, you should provide detailed information about your academic and research background, including previous research, internships, and relevant coursework. Additionally, it’s important to highlight any publications, awards, or research achievements. You should also discuss specific research interests and goals, explaining how you plan to contribute to the biotech industry with your research. Lastly, you should tailor your essay to individual programs and faculty to demonstrate your understanding of their work and interest in the specific program.

Once you’ve passed the initial application screening, you’ll typically be invited for an interview. In preparing for this interview, you should practice answering common questions, such as “Why biotech?” and “Why this program?” Additionally, research individual faculty members and their research areas to demonstrate your knowledge and genuine interest. Be prepared to ask questions about the program to show your research and dedication, and be sure to have a clear understanding of the program’s research projects, requirements for the degree, and funding opportunities.

The coursework and research requirements for a PhD in biotech vary from school to school. However, most programs typically include core courses in subjects such as organic chemistry, biochemistry, molecular biology, and genetics. In addition to coursework, students are expected to complete significant research projects. The duration of the program and the specific research requirements will depend on the program and faculty, but you should plan to devote a significant amount of time to independent research and study.

Your research advisor will play a significant role in your PhD program, providing guidance and direction for your research and career. To find the right advisor, ask faculty members for recommendations and clarify your research interests. It’s also essential to discuss potential advisors with current students to gain a better understanding of their advising style and availability. Once you’ve narrowed down your list of potential advisors, arrange a meeting to help determine if the advisor is a good fit for you.

Conducting research and writing your dissertation is the most significant part of your PhD program. To ensure success in these areas, it’s essential to plan your research carefully and engage in discussions with faculty members to receive guidance and feedback. You should also seek mentoring from more senior graduate students who have previously completed their dissertation. Throughout the research process, maintain organized notes, and seek to publish and present your findings to build your reputation in the industry. Once completed, your dissertation will be reviewed by a committee of faculty members, who will evaluate your research and writing and determine whether you are awarded your doctorate degree.

Graduates of PhD programs in biotech have a wide range of job opportunities in the industry, including research and development, academia, government, and non-profit organizations. Career paths include industrial research scientist, university professor, clinical researcher, biotech quality control, bioinformatics specialist, and bioethics consultant. With the demand for biotech solutions expected to continue growing, career prospects for biotech students are excellent.

Networking and professional development are crucial aspects of a successful career in biotech. PhD students have numerous opportunities to connect with professionals in the industry, including attending conferences, workshops, and meetings. These events allow students to learn about the latest biotech developments and build relationships with potential employers and mentors. Additionally, taking advantage of leadership and communication training programs will help you develop skills that are essential for success in the industry, such as teamwork, project management, and communication.

Pursuing a PhD in biotech can be a challenging but highly rewarding experience. Some challenges may include long hours, budget constraints, and the pressure to succeed in research in a highly competitive industry. However, these challenges can also provide opportunities for personal and career growth, allowing you to develop resilience, creativity, and analytical thinking. Pursuing a PhD in biotech is a transformative experience, providing opportunities to make significant contributions to the industry and positively impact the world.

Our goal in this guide is to provide a comprehensive overview of pursuing a successful career in biotech through a PhD in Biotechnology in the USA. By following the necessary steps, building relationships, and committing to your research, you will achieve academic and career success. With excellent universities, research opportunities, and funding, pursuing a PhD in biotech in the USA is a wise choice for anyone who wishes to advance their biotech career.

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• The Best Universities for PhDs in Biological Sciences in the USA (2024)

Written by FAU Bot

This article was written with the assistance of generative AI. All AI content on our site is guided and vetted for accuracy by humans, and data referenced is collected from reliable, authoritative sources.

Why Study Biological Sciences in the USA

There are many reasons why someone might want to study Biological Sciences at a university in the USA . Here are just a few:

• From Marine Biology to Molecular Biology, the USA offers a broad spectrum of research topics in Biological Sciences. Candidates can align themselves with any niche that captivates their interest or fuels their academic curiosity.
• US institutions are home to highly esteemed faculty who have made significant contributions to the field of Biological Sciences. Their extensive knowledge and experience offer students an enriched learning experience.
• The strong ties between academic institutions and biotechnology or pharmaceutical industries in the USA open opportunities for internships, collaboration, and applied research prospects.
• Universities in the USA attract international students from all corners of the globe creating diverse educational settings that enrich both cultural understanding as well as academics. This multicultural environment exposes students to different perspectives within their field of study.

The Best Universities for Biological Sciences in the USA

The following tables give the 10 top universities in the USA for Biological Sciences , according to global and local university rankings. It can show you which American universities are amongst the best in the world - and help you compare institutions on an international level.

This information is based on the latest rankings tables, researched and published by Times Higher Education , QS and Academic Ranking of World Universities (ARWU) .

Each ranking system uses its own methodology, with different factors having more or less influence on a university's result.

Our guide has more information on how to use international rankings to decide on the best research universities for PhD study .

What should I know about the Times Higher Education rankings?

The Times Higher Education rankings are strong in academic focus and diverse teaching metrics, but do not include employer-specific metrics. Additionally, the rankings may not include all specialist institutions.

What should I know about the QS rankings?

The QS World University Rankings are designed to meet the needs of prospective students, with more weight given to student-centric metrics such as staff/student ratio, international recruitment and employer opinion. The rankings are balanced between qualitative and quantitative data, but give less weight to research than some other rankings.

What should I know about the ARWU rankings?

The ARWU rankings reflect the presence of elite academics and the future academic success of graduates. However, they do not directly assess the quality of education at a university or take into account other aspects of university performance.

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• Jammie Hopkins, DrPH, MS
• Joe Glass, PhD MSW
• Karen Whiteman, PhD MSW
• Katie Schultz, PhD MSW
• Rose Molina, MD
• Uriyoán Colón-Ramos, ScD MPA
• Andrew Riley, PhD
• Byron J. Powell, PhD, LCSW
• Carrie Nieman MD, MPH
• Charles R. Rogers, PhD, MPH, MS, CHES®
• Emily E. Haroz, PhD
• Jennifer Tsui, Ph.D., M.P.H.
• Jessica Magidson, PhD
• Katherine Sanchez, PhD, LCSW
• Kelly Doran, MD, MHS
• Kiara Alvarez, PhD
• LaPrincess C. Brewer, MD, MPH
• Melissa Radey, PhD, MA, MSSW
• Sophia L. Johnson, PharmD, MPH, PhD
• Supriya Gupta Mohile, MD, MS
• Virginia McKay, PhD
• Andrew Cohen, MD, PhD
• Angela Chen, PhD, PMHNP-BC, RN
• Christopher Salas-Wright, PhD, MSW
• Eliza Park MD, MS
• Jaime M. Hughes, PhD, MPH, MSW
• Johanne Eliacin, PhD, HSPP
• Lingrui Liu ScD MS
• Meaghan Kennedy, MD
• Nicole Stadnick, PhD, MPH
• Paula Aristizabal, MD
• Radhika Sundararajan, MD
• Sara Mamo, AuD, PhD
• Tullika Garg, MD MPH FACS
• Allison Magnuson, DO
• Ariel Williamson PhD, DBSM
• Benita Bamgbade, PharmD, PhD
• Christopher Woodrell MD
• Hung-Jui (Ray) Tan, MD, MSHPM
• Jasmine Abrams, PhD
• Jose Alejandro Rauh-Hain, MD
• Karen Flórez, DrPH, MPH
• Lavanya Vasudevan, PhD, MPH, CPH
• Maria Garcia, MD, MPH
• Robert Brady, PhD
• Saria Hassan, MD
• Scherezade Mama, DrPH
• Yuan Lu, ScD
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About the PhD in Biochemistry and Molecular Biology Program

In the Biochemistry and Molecular Biology PhD program, faculty, and students work together to increase knowledge of the biochemical and molecular bases of normal and abnormal cellular processes. Our program trains students to be successful independent scientists and gives them the knowledge, research training, and leadership skills to continue to provide new insights into the biomedical issues that have a profound impact on public health.

Students engage in a rigorous course curriculum and a range of structured and informal activities outside the classroom and lab to build their skills. They will pursue their thesis research in the lab of one of our over forty training faculty across the Johns Hopkins Bloomberg School of Public Health and the Johns Hopkins School of Medicine.

Visit our dedicated PhD program website to learn more about the diverse research training opportunities of the program.

PhD in Biochemistry and Molecular Biology Program Highlights

Our position within the School of Public Health provides a unique setting in which students learn how biochemistry, molecular biology, physical chemistry, cell biology, and genetics can be used to solve significant problems in public health and medicine. Our program offers:

• Training faculty from across the School of Public Health and the School of Medicine
• A strong grounding in the science of biomedical and public health research through a core curriculum that includes courses taught by leading experts from the Schools of Public Health and Medicine
• Training outside the lab and classroom in key skills such as communications and leadership
• Opportunities to build strong communications skills through a range of speaking venues including journal club, research colloquium, department retreats, and national meetings
• Access to the Johns Hopkins School of Medicine Professional Development and Career Office , offering excellent career services and professional development,  including the BMB-required OPTIONS program, a guided process of career exploration for paths from medicine to biotech to academia and beyond for careers paths from medicine to biotech to academia and beyond
• Opportunities to participate in community service and outreach, with a focus on our East Baltimore neighborhoods, through the Johns Hopkins University community engagement and service-learning center, SOURCE

Training faculty across the School of Public Health and the School of Medicine

Schools that students can take courses in: Public Health, Arts & Sciences, Medicine, and Engineering

Two-month rotations in the first year prior to selecting thesis lab

Average number of incoming students in the BMB PhD degree program each year

What Can You Do With a PhD In Biochemistry And Molecular Biology?

The Biochemistry and Molecular Biology PhD program prepares students for a range of biomedical and health sciences careers, including in academia, industry, policy, and beyond. Visit the Graduate Employment Outcomes Dashboard to learn about Bloomberg School graduates' employment status, sector, and salaries.

Sample Careers

• Research Scientist
• Science Policy Adviser
• Biotech Executive
• Senior Scientist
• Patent Lawyer
• Science Policy Analyst/Advocate
• Science Writer/Journalist
• Biological Sciences Teacher

Topic Areas

The BMB PhD program faculty conduct research to gain new insights into the cellular and molecular mechanisms underlying normal and abnormal cellular processes, and their relevance as targets for improving health and treating disease. Our training program places particular emphasis on mechanistic approaches to research problems.

Common topic areas within our faculty's diverse research interests include:

• Biophysics and Structural Biology
• Cancer Biology
• Chemical Biology and Proteomics
• Cell Biology
• Cellular Stress and Cell Signaling
• Genetics, Genomics, and Gene Regulation
• Immunology and Infectious Diseases
• Translational Research

Curriculum for the PhD in Biochemistry and Molecular Biology

The BMB PhD offers students a rigorous course curriculum, including a set of common core classes from the Schools of Public Health and Medicine. A rich array of seminar programs and journal clubs are also available to all students.

Browse an overview of the requirements for this PhD program in the JHU  Academic Catalogue  and explore all course offerings in the Bloomberg School  Course Directory .

Courses in core curriculum

Minimum elective credits

Seminars on current research presented by experts from across Johns Hopkins and other biomedical research institutions

Courses available across Johns Hopkins Schools of Public Health, Medicine, and Arts and Sciences

Admissions Requirements

For the general admissions requirements see our How to Apply page. The specific program also requires:

Prior Work Experience

Laboratory research experience (from academia, industry, etc.) is required

Prior Coursework

Strong background in the sciences, particularly in chemistry, biochemistry, or biology

Standardized Test Scores

Standardized test scores (GRE) are optional for this program. The admissions committee will make no assumptions if a standardized test score is omitted from an application, but will require evidence of quantitative/analytical ability through other application components such as academic transcripts and/or supplemental questions.  Applications will be reviewed holistically based on all application components.

Program Faculty Spotlight

Ashani T. Weeraratna

Ashi Weeraratna, PhD, studies how cancer cells move to distant sites and how changes in the normal cells around a tumor contribute to their movement, especially as we age.

Michael J. Matunis

Michael Matunis, PhD, studies how protein modification by SUMO—the small ubiquitin-related modifier—drives changes in key cellular pathways from stress response to DNA repair.

Jennifer M. Kavran

Jennifer Kavran, PhD, MS, MPhil, is a biophysicist who investigates how cells communicate with each other and their environment.

Danfeng Cai

Danfeng Cai, PhD, combines advanced microscopy, genomics, and proteomics to tease out the functions of protein condensates in cells, with a focus on cancer.

Vivien Thomas PhD Scholars

The  Vivien Thomas Scholars Initiative (VTSI)  is an endowed fellowship program at Johns Hopkins for PhD students in STEM fields. It provides full tuition, stipend, and benefits while also providing targeted mentoring, networking, community, and professional development opportunities. Students who have attended a historically Black college and university (HBCU) or other minority serving institution (MSI) for undergraduate study are eligible to apply. To be considered for the VTSI, you will need to submit a SOPHAS application, VTSI supplementary materials, and all supporting documents (letters, transcripts, and test scores) by December 1 , 202 3 . VTSI applicants are eligible for an application fee waiver , but the fee waiver must be requested by November 15, 202 3 and prior to submission of the SOPHAS application.

All full-time PhD students receive the following support for all years of the program: full tuition and fees, individual health insurance, University Health Services fee, vision insurance, dental insurance, and a stipend for living expenses for students who remain in good academic standing. PhD students are required to serve as a teaching assistant for at least one term, in either their 2nd or 3rd year.

Need-Based Relocation Grants Students who  are admitted to PhD programs at JHU starting in Fall 2023 or beyond can apply to receive a $1500 need-based grant to offset the costs of relocating to be able to attend JHU.   These grants provide funding to a portion of incoming students who, without this money, may otherwise not be able to afford to relocate to JHU for their PhD program. This is not a merit-based grant. Applications will be evaluated solely based on financial need.  View more information about the need-based relocation grants for PhD students .

Questions about the program? We're happy to help.

Mike Matunis, PhD PhD Program Director

Roza Selimyan , PhD BMB Executive Director for Academic Affairs and Education Programs

Erika Vaitekunas Administrative Specialist

[email protected]

Compare Programs

• Check out similar programs at the Bloomberg School to find the best fit.
• Master of Science (ScM), Offered by BMB
• Master of Health Science (MHS), Offered by BMB
• Master of Health Science (MHS), Offered by MMI
• Doctor of Philosophy (PhD), Offered by MMI
• Master of Health Science (MHS) in Environmental Health
• Doctor of Philosophy (PhD) in Environmental Health

Ph.D. Programs

Educational Opportunities in Biotechnology

The Biotechnology Program at UC Davis offers educational programs for current UC Davis students that are seeking a designated emphasis in biotechnology as part of their Ph.D. program as well as opportunities for employees at regional biotechnology companies to pursue a doctoral degree. To date, over 750 students have gone through these programs.

The Designated Emphasis in Biotechnology (DEB) is a program that allows Ph.D. students from different UC Davis graduate programs to receive and be credited for specialized education and training in the field of biotechnology.

Corporate Employees

The Advanced Degree Program for corporate employees was established to enable employees at regional biotechnology, biomedical, or bioscience corporations to pursue a doctoral degree in relevant fields to advance their careers.

Ph.D. Program

The training for a Ph.D. in Biology is focused on helping students achieve their goals of being a successful research scientist and teacher, at the highest level. Students work closely with an established advisor and meet regularly with a committee of faculty members to facilitate their progress. The Biology Ph.D. program is part of the larger Biosciences community at Stanford, which includes doctorate programs in the basic science departments at Stanford Medical School. 

There are two tracks within the Biology Ph.D. program:

• Cell, Molecular and Organismal Biology
• Ecology and Evolution

(Previously a part of the Department of Biology Hopkins Marine Station is now a part of the Oceans Department within  Stanford Doerr School of Sustainability )

All  tracks are focused on excellence in research and teaching in their respective areas; where there are differences between the tracks, they are indicated in the links below. 

Requirements & Forms

Dissertation defense, cellular and molecular biology training program, stanford biology ph.d. preview program, career development resources.

PhD in Chemistry/Biotechnology

The Department of Chemistry, jointly with the Biotechnology Center , offers a Doctor of Philosophy (PhD) in Chemistry/Biotechnology. This degree is ideal for those preparing for careers in research which span both chemical science and biotechnology.

Course Requirements and Policies

• PhD candidates must complete a total of seven graduate level courses (course numbered between 100 and 294, inclusive, but not including 191, 192, and 293: Professional Skills in Chemical Research) with a grade of B- or better.
• The seven courses include those taken to fulfill the core distribution requirement plus two additional graduate-level courses in chemistry or biotechnology. The course requirement must be fulfilled by the end of the fourth academic semester. 
• Graduate courses taken in related fields outside the Chemistry Department or Biotechnology Center must first be approved by the research advisor.
• First-year students are required to take year-long course Chem 291 (Fall) and Chem 292 (Spring): Professional Skills in Chemical Research.
• First-year students are required to register for Chem 281 (Fall) and Chem 282 (Spring): Seminars in Chemistry. All PhD students are required to attend the departmental seminar series to broaden their exposure to many of the current areas of research activity.
• All graduate PhD students are required to serve in a teaching capacity for a minimum of one semester. Two semesters are strongly recommended. Students serving as teaching assistants should register for Chem 405: Grad Teaching Assistant. TA support is contingent upon adequate performance and full cooperation with the instructor of the course and the Manager of Chemical Labs

Biotechnology

Students enrolled in the Master of Liberal Arts program in Biotechnology will gain insight into the latest biotechnology discoveries and trends, and develop a solid foundation in research and innovation.

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Best Doctorates in Biotechnology: Top PhD Programs, Career Paths, and Salaries

Biotechnology companies are among the most profitable businesses in the modern era, contributing to the development of several widely used products. The best PhDs in Biotechnology allow graduate students to take part in this global biotech revolution.

Biotechnology is a very in-demand field. However, several people doubt whether a doctorate in this broad field is the best choice. This article clearly explains everything you need to know about a Biotechnology PhD. It also shares important information on the best biotechnology jobs and the average PhD in Biotechnology salary.

Find your bootcamp match

What is a phd in biotechnology.

A PhD in Biotechnology is an advanced degree that helps students further understand how to take advantage of biological processes to create products for various industries. Biotechnology PhD degrees are usually research-intensive and include a lot of lab work.

How to Get Into a Biotechnology PhD Program: Admission Requirements

The requirements to get into a biotechnology PhD program are dependent on the specific institution you are applying to. However, most universities have similar admission requirements for their biotechnology doctorate degree programs.

Usually, before you are accepted into a biotechnology PhD program, you must have at least a Bachelor’s Degree in Biology, Chemistry, or any related life science major. In addition, you will be required to submit your transcripts, personal statement, letters of recommendation, and resume. Finally, if you are an international student, you will need to take an English proficiency test.

PhD in Biotechnology Admission Requirements

• Official transcripts
• Letters of recommendation
• Personal statement
• Proof of English proficiency (for international students)

Biotechnology PhD Acceptance Rates: How Hard Is It to Get Into a PhD Program in Biotechnology?

It is very hard to get into a PhD program in Biotechnology. Biotechnology is a competitive field and most schools only accept a handful of students who apply to these in-demand PhD programs. For example, in the 2020-2021 session, Stanford University only accepted 4.6 percent of the total number of applicants into its Bioengineering PhD program.

How to Get Into the Best Universities

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Best PhDs in Biotechnology: In Brief

Best Universities for Biotechnology PhDs: Where to Get a PhD in Biotechnology

The best universities in biotechnology are well-equipped with modern equipment. They also have experienced faculty members to guide you through your academic journey. If you are wondering where to get a PhD in Biotechnology, check out the top schools listed below.

Arizona State University , founded in 1885, is one of the best-rated universities in the United States for PhD programs. This public university currently has 139 doctoral programs available in various areas such as life sciences, arts, and business.

PhD in Molecular/Cellular Biology

Arizona State University's PhD in Molecular/Cellular Biology program is an 84-credit degree that teaches students how to understand biological activity from a cellular level. This program also covers topics in genetics and provides several electives for students to choose from, including a course on bionanotechnology.

PhD in Molecular/Cellular Biology Overview

• Program Length: 4 - 5 years
• Acceptance Rate: N/A
• Tuition and Fees: $837/credit hour (in state); $1,308/credit hour (out of state)
• PhD Funding Opportunities: Research fellowships, teaching assistantships

PhD in Molecular/Cellular Biology Admission Requirements

• Bachelor’s or Master’s Degree in Biochemistry, Biological Sciences, or related field
• Completed online application
• Undergraduate applicants must have a minimum cumulative GPA of 3.0 on a 4-point scale in the last 60 hours of their degree program
• Graduate applicants must have a minimum cumulative GPA of 3.0 on a 4-point scale
• Transcripts
• Three letters of recommendation
• Proof of English language proficiency
• Non-refundable $70 application fee; $115 for international students

Brown University is a research-focused university that trains students to create innovative solutions to complex global problems. It was founded in 1764 and offers 51 PhD programs in fields such as art and history, life science, and social science disciplines. 

PhD in Biotechnology

The PhD in Biotechnology is offered by the Department of Molecular Pharmacology, Physiology, and Pharmacology at Brown University. This degree is a 24-tuition unit course and covers several concepts applied in industry jobs such as drug delivery and diagnostics. Graduates of this program will be able to work in diverse roles in the biomedical industry and academia. 

PhD in Biotechnology Overview

• Program Length: 3 years
• Acceptance Rate: 10.5%
• Tuition and Fees: $7,835/course per year
• PhD Funding Opportunities: Teaching assistantship, research assistantship, fellowship, proctorship
• Bachelor's Degree in Biology, Physics, Biochemistry, Engineering, or Chemistry
• Online application form
• $75 application fee 
• Proof of English proficiency (international non-native English-speaking applicants)

Founded in 1636, Harvard University is one of the oldest and most reputable learning colleges in the US. This private university has 14 schools and provides graduate education in several topics, including bioinformatics, applied physics, and architecture. 

PhD in Molecular and Cellular Biology

Students enrolled in Harvard University's Molecular and Cellular Biology course will attend lectures spanning various biomedical science topics such as biochemistry, genetics, cellular biology, and microbiology. Upon graduation from this doctorate program, you will also be equipped with practical skills to enable you to work in diverse roles.

PhD in Molecular and Cellular Biology Overview

• Program Length: 5 years
• Tuition and Fees: $50,928 for first 2 years
• PhD Funding Opportunities: Grants, stipends, teaching fellowships, research assistantships

PhD in Molecular and Cellular Biology Admission Requirements

• Prior educational knowledge of chemistry, physics, biology, and mathematics
• Graduate School of Arts and Sciences online application form
• $105 application fee
• Statement of purpose with a maximum length of 1000 words
• Three letters of recommendation with at least one from a faculty member at previous university
• TOEFL Internet-based test score of 80 or more for international students

Pennsylvania State University was established in 1855. It is a public university with over 20 campuses located in different areas of Pennsylvania. Pennsylvania State University delivers top-notch graduate programs in biomedical engineering and other life science-based disciplines. It also provides courses in the arts and social sciences. 

PhD in Biomedical Engineering

This 29-credit doctorate degree program helps to prepare students to work in research institutions, academia, and industry roles. Students enrolled in the PhD in Biomedical Engineering program will study topics like bioimaging, drug delivery, and computational techniques for understanding biological systems. 

PhD in Biomedical Engineering Overview

• Tuition and Fees: $11,541/semester (in state); $19,624/semester (out of state)
• PhD Funding Opportunities: Graduate assistantships, fellowships

PhD in Biomedical Engineering Admission Requirements

• Bachelor's Degree in Engineering, Physics, or any life science discipline
• Online application form via Pennsylvania State University's graduate school online application portal
• $65 application fee
• Score of at least 80 (TOEFL) or 6.5 (IELTS) for international students as proof of English proficiency
• Statement of purpose
• Resume (optional)

Stanford University was established in 1885 and has consistently ranked among the top colleges in the US for graduate students. Stanford University provides PhD programs in cancer biology, biochemistry, genetics, and several in-demand medical science fields. It also delivers top-quality education in engineering, business, and law-based topics. 

PhD in Bioengineering

This five to six-year doctorate program is designed to provide students with a well-rounded educational experience in bioengineering. Participants will be allowed to rotate between three labs in their first year before deciding on their dissertation advisor. This program also includes in-demand courses such as systems biology and computational protein modeling.

PhD in Bioengineering Overview

• Program Length: 5 - 6 years
• Acceptance Rate: 4.6%
• Tuition and Fees: $11,770/quarter consisting of 8 - 10 units
• PhD Funding Opportunities: Fellowships, research assistantships, teaching assistantships, graduate student loans

PhD in Bioengineering Admission Requirements

• Bachelor's degree from a related field
• Scanned copy of academic transcripts via the application portal
• Two-three page statement of purpose
• TOEFL scores (international applicants from non-native English speaking countries)
• Non-refundable $125 application fee

Syracuse University is a multidisciplinary private school founded in 1870. This university has 13 colleges and schools, including Visual and Performing Arts, Architecture, Engineering, and Computer Science, which offer reputable graduate programs.  

The PhD in Bioengineering is a rigorous 42-credit hour program that usually takes about five years to complete. Students enrolled in this doctorate degree program will be allowed to choose from one of 10 currently available research areas, including molecular biotechnology, catalysis and reaction engineering, and metabolic engineering. 

• Tuition and Fees: $32,436/academic year 
• PhD Funding Opportunities: Fellowship, research assistantships, graduate assistantships, scholarships
• Online application form on Syracuse University's graduate application portal
• 500-word personal statement
• Proof of English language proficiency (for international applicants)
• Financial documents, including proof of financial support (international students)
• $75 application fee

Tufts University was established in 1852 to solve complex global problems through research. This private college has over 370,699 square feet of lab space spread across its four campuses. It offers graduate programs covering public policy, public health, business, and technology.

PhD in Biotechnology Engineering

Tufts University's PhD in Biotechnology Engineering program is provided by the Department of Chemical and Biological Engineering. This doctorate program is structured to allow individuals from different academic backgrounds to participate. It includes courses on protein purification, microbe cultivation, and cellular engineering. 

PhD in Biotechnology Engineering Overview

• Program Length: 4 years
• Tuition and Fees: Covered by tuition scholarship
• PhD Funding Opportunities: Teaching assistantships, research assistantships

PhD in Biotechnology Engineering Admission Requirements

• Bachelor's degree in Biology, Biotechnology, Biochemistry, or Chemical Engineering
• Online application
• Non-refundable $85 application fee
• Minimum TOEFL score of 90, an IELTS score of 6.5, or a Duolingo score of 110 (international applicants from non-native English speaking countries)

University of California, Berkeley has 14 schools and colleges and offers over 100 graduate programs for prospective students. Since its inception in 1868, the University of California has become a leading destination for graduate students due to its hands-on approach to learning and research. 

PhD in Molecular and Cell Biology

The University of California, Berkeley's PhD in Molecular and Cellular Biology provides a deep dive into the structure and function of cells. It covers several essential aspects of medical and life sciences, including structural biology, genetics, computational biology, and immunology.

PhD in Molecular and Cell Biology Overview

• Program Length: 3 - 5 years
• Tuition and Fees: $5,721/semester
• PhD Funding Opportunities: Fellowships, stipend

PhD in Molecular and Cell Biology Admission Requirements

• Completed at least one year of chemistry, calculus, physics, and general biology in your undergraduate program
• Completed advanced coursework in microbiology, cell biology, biochemistry, or other similar subjects
• Graduated with a minimum GPA of 3.0 on a 4-point scale
• Laboratory research experience
• Submit TOEFL scores of 570+ (written test), 233 (computer-based test), or 90 (Internet-based test) for international applicants
• Unofficial transcripts
• GRE scores (optional)

The University of Pennsylvania , founded in 1740, delivers many top-rated graduate degree programs via its 12 graduate and professional schools. The University of Pennsylvania is one of the most popular public schools for graduate students, with over 16,000 students currently pursuing post-graduate education on its campus. 

The Penn Bioengineering PhD was the first-ever doctorate bioengineering program in the US. This graduate degree program has a comprehensive curriculum to equip students with the technical skills to land the best jobs at biotech companies . 

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• Acceptance Rate: 15%
• Tuition and Fees: $39,838/year
• PhD Funding Opportunities: Fellowships, grants
• Online graduate application form
• Bachelor's degree in Engineering or a physical science, natural science, or math major
• Submit TOEFL scores of 600+ (written test), 250 (computer-based test), or 100 (Internet-based test) for international applicants

Founded in 1969, the University of Texas, San Antonio has been recognized by Times Higher Education as one of the best young universities in the US . This public college has seven colleges and offers several highly-rated graduate degree programs.

PhD in Cell and Molecular Biology

Cellular and molecular medicine is one of the top new trends in pharmacological sciences for the future . This graduate degree program helps prepare students to play a significant role in this burgeoning industry. The PhD in Cell and Molecular Biology program also offers specialized tracks in Stem Cell, Molecular Microbiology, and Immunology.

PhD in Cell and Molecular Biology Overview

• Tuition and Fees: $247.53/credit-hour (in state); $428.63/credit-hour (out of state)
• PhD Funding Opportunities: Fully funded through internal grants

PhD in Cell and Molecular Biology Admission Requirements

• Bachelor's degree in Biology or any similar field
• Non-refundable $50 application fee; $90 international applicants
• Students from non-native English speaking countries must score a minimum of 6.5 on the IELTS test, 79 on the internet-based TOEFL test, or 60 on the paper-based TOEFL test
• International applicants must submit English proficiency scores of 6.5 (IELTS), 79 (Internet-based TOEFL) test, 60 (paper-based TOEFL)

Can You Get a PhD in Biotechnology Online?

No, you cannot get a PhD in Biotechnology online. Biotechnology PhDs usually involve hours of lab work and other technical aspects that can only be taught via an on-campus program. At the moment, if you are considering getting a biotechnology doctorate degree, you can only do so via an in-person program.

How Long Does It Take to Get a PhD in Biotechnology?

It takes three to five years to get a PhD in Biotechnology. Before you are considered eligible for a biotechnology PhD degree, you must have completed at least two years of coursework in various core topics. You will also need to carry out original research and present your findings in a dissertation.

Is a PhD in Biotechnology Hard?

Yes, earning a PhD in Biotechnology is hard. Biotechnology PhD students are required to carry out a lot of research and spend hours on lab work. However, you can earn your degree in the stipulated amount of time with commitment and effort.

How Much Does It Cost to Get a PhD in Biotechnology?

It costs $19,314 per year to get a PhD in Biotechnology , according to the most recent data released by the National Center for Education Statistics. However, your tuition costs can vary depending on the reputation of the school and the nature of your program.

For example, a PhD in Biotechnology costs about $25,929 per year for private institutions. Public universities, however, are much cheaper. The average yearly tuition cost for a PhD program at a public university in the US is $12,171.

How to Pay for a PhD in Biotechnology: PhD Funding Options

The PhD funding options that students can use to pay for a biotechnology doctorate program include teaching assistantships, research assistantships, and fellowships. Most universities provide incoming biotechnology PhD students with one or more of these options to reduce the cost of their tuition.

Best Online Master’s Degrees

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What Is the Difference Between a Biotechnology Master’s Degree and PhD?

The difference between a biotechnology master’s degree and a PhD is that a PhD program usually involves more intensive research and takes at least three years to complete. PhD degrees are typically pursued by individuals with a strong desire to contribute to existing knowledge in the biotechnology space. Master’s programs typically take two years to complete.

Master’s degree students spend a year or two on coursework and finish their program with a capstone project or thesis. Biotechnology PhD students spend at least two years on coursework and possibly longer on research before working on and submitting their dissertations.

Master’s vs PhD in Biotechnology Job Outlook

For job roles such as food scientist that are available to master’s degree graduates, the job outlook is 9 percent between 2020 and 2030, according to the Bureau of Labor Statistics. In comparison, biotechnology PhD jobs such as medical scientist roles are expected to grow by 17 percent in this same period.

Difference in Salary for Biotechnology Master’s vs PhD

According to PayScale, the average salary for professionals with a PhD in Biotechnology is $112,000 annually. However, in comparison, the average salary for master’s degree holders is $75,000 per year.

Graduates with a PhD degree have more experience and can command a higher salary and function in senior industry roles. Although a master’s degree is excellent for improving your career options, a PhD is better for landing the highest-paying job roles.

Related Biotechnology Degrees

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Why You Should Get a PhD in Biotechnology

You should get a PhD in Biotechnology because it can help you achieve your maximum potential in academia and propel the field further through your research. Biotechnology is a competitive field which means obtaining a PhD allows you to distinguish yourself from other candidates and increase your career options within the field of biotechnology.

Reasons for Getting a PhD in Biotechnology

• Higher salaries. A PhD in Biotechnology will help you gather rare and specialized skills which usually translates to higher-paying jobs. You will become qualified for many senior industry positions and significantly increase your earning potential by obtaining an advanced degree.
• Research opportunities. PhDs are research-focused degrees. So, if you are passionate about contributing to pre-existing scientific knowledge in the biological science space, a PhD in Biotechnology is an excellent way to add to your quota.
• Networking opportunities. A PhD program is an easy way to connect with other specialists in biotechnology and build potentially beneficial academic or business relationships. You will also be meeting faculty members who have years of experience and can provide you with mentorship.
• Boost your reputation. Getting a PhD is very useful for individuals seeking to establish themselves as an authority within the biotechnology space. PhD programs provide you with the necessary knowledge and research experience to become a leading voice in your industry.

Getting a PhD in Biotechnology: Biotechnology PhD Coursework

Getting a PhD in Biotechnology demands that you complete your course requirements as specified by your academic institution. The majority of PhD programs in biotechnology cover similar courses. Biotechnology PhD coursework usually spans cell biology, chemical engineering, and other scientific areas listed below.

Molecular Biology

In this course, PhD students in biotechnology will examine the mechanisms of biological activity from a molecular perspective. Graduate students taking a molecular biology course will be taught the structure and function of biological molecules. They will also learn the underlying scientific principles behind molecular interactions.

Introduction to Proteomics

Most advanced degree programs in biotechnology usually include an in-depth study of protein structure and function. Proteins are an essential component of cells and a pillar of several biological processes. Introduction to Proteomics teaches students about protein-protein interactions and relevant techniques for modifying proteins.

Bioengineering Fundamentals

Biological engineering is one of the most essential subjects for students pursuing an advanced degree in biotechnology. As a PhD candidate enrolled in a biotechnology program, you will learn scientific techniques for creating valuable products from biological systems. This course is helpful, especially for individuals seeking the best tech jobs at pharmaceutical tech companies .

Cell and Microbial Cultivation

Biotechnology specialists routinely carry out experiments with microbes. A cell and microbial cultivation course teaches students modern and relevant principles for culturing microorganisms in biotechnology labs. The technical skills obtained in this course will enable students to land a job with any of the leading biotechnology companies.

Introduction to Genomics

Genomics is a field of study in biological sciences that examines gene structure, function, and expression. In this course, students will be taught about concepts such as gene mapping, editing, and mutations. This course aims to provide students with the needed academic background to improve the quality of life in society through scientific interventions.

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How to Get a PhD in Biotechnology: Doctoral Program Requirements

Unlike a Bachelor of Science in Biotechnology degree, doctoral program requirements are slightly more stringent. If you are interested in getting a PhD in Biotechnology, the requirements are outlined below.

Regardless of your university, each PhD program in biotechnology has a specified number of credit hours that graduate students must complete to be deemed qualified to receive a PhD certificate in biotechnology. 

For most biotechnology PhD programs, you will be required to maintain a minimum passing grade of B, which is equivalent to a 3.0 GPA on a 4-point scale. Each school usually states its GPA requirements on its program page or catalog.

Seminars allow graduate students to demonstrate their knowledge of specific biotechnology topics. Attendance and participation in seminars organized by your university's biotechnology department is a vital requirement for obtaining a PhD in Biotechnology.

After carrying out a research project and gathering your findings, you will need to present your work to your faculty and other department members. A strong performance in your oral defense is mandatory for you to be eligible to receive your doctoral degree.

A thesis is one of the most essential requirements for students carrying out their doctoral studies in biotechnology. Your thesis is a write-up containing your findings from an original research project. For the duration of your thesis, you will be working closely with a supervisor who will provide guidance and instruction for your research efforts.  

Potential Careers With a Biotechnology Degree

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PhD in Biotechnology Salary and Job Outlook

Biotechnology is an interdisciplinary field whose relevance cuts across several sectors. As a result, biotechnology jobs will continue to be in high demand. For example, according to the Bureau of Labor Statistics, the job outlook for principal medical scientists is expected to increase by 17 percent through to 2030.

What Can You Do With a PhD in Biotechnology?

With a PhD in Biotechnology, you can work in academia, research institutes, and biopharmaceutical companies. There are several high-paying career options for biotechnology PhD graduates. Some of these jobs are listed below.

Best Jobs with a PhD in Biotechnology

• Industrial production manager
• Senior biochemical engineer
• Principal medical scientist
• Biotechnology lecturer

What Is the Average Salary for a PhD in Biotechnology?

The average salary for a PhD in Biotechnology is $112,000 per year, according to PayScale. Obtaining a PhD in Biotechnology also significantly increases your earning potential. Compared to bachelor’s and master’s degree graduates, PhD holders earn considerably higher salaries and are eligible to work in the most challenging biotechnology roles.

Highest-Paying Biotechnology Jobs for PhD Grads

Best Biotechnology Jobs with a Doctorate

The best biotechnology jobs with a doctorate enable graduates to make notable contributions to fields such as healthcare, agriculture, and education. They also provide attractive salaries and require the application of biotechnology principles to solve complex problems.

Biochemists can typically be found in universities, research firms, or pharmaceutical companies. They must study biological processes and apply bioengineering principles to produce beneficial products. Most biochemists work as part of a team in a laboratory environment.

• Salary with a Biotechnology PhD: $102,270
• Job Outlook: 5% job growth from 2020 to 2030
• Number of Jobs: 34,800
• Highest-Paying States: Massachusetts, Virginia, Colorado, New Jersey, Oregon

Senior biomedical engineers work with scientists and other healthcare professionals in the clinical setting. Their responsibility is to carry out comprehensive biological systems research and create medical inventions based on their studies. They also gather data and write technical reports.

• Salary with a Biotechnology PhD: $97,410
• Job Outlook: 6% job growth from 2020 to 2030
• Number of Jobs: 19,300
• Highest-Paying States: New Mexico, Arizona, Minnesota, Connecticut, Massachusetts  

A principal medical scientist conducts thorough studies on various biological phenomena. As a principal medical scientist, you will be required to design your research methods, gather data, and propose a hypothesis. 

• Salary with a Biotechnology PhD: $95,310
• Job Outlook: 17% job growth from 2020 to 2030
• Number of Jobs: 133,900
• Highest-Paying States: Connecticut, Maine, Delaware, New Jersey, Tennessee  

Biotechnology lecturers can be found in universities. They work as part of their academic institution's biotechnology department to carry out research and train students in modern biotechnology applications. 

• Salary with a Biotechnology PhD: $79,640
• Job Outlook: 12% job growth from 2020 to 2030
• Number of Jobs: 47,690
• Highest-Paying States: Arkansas, California, New Hampshire, California, New York

Food scientists are research-oriented professionals. They use their knowledge of biology and chemistry to improve the quality of food products and devise safe and effective food processing methods. As a food scientist, you will be working predominantly in the laboratory as part of a research team.

• Salary with a Biotechnology PhD: $74,160
• Job Outlook: 9% job growth from 2020 to 2030
• Number of Jobs: 37,400
• Highest-Paying States: Colorado, Kansas, Connecticut, Ohio, Minnesota  

Is a PhD in Biotechnology Worth It?

Yes, a PhD in Biotechnology is worth it. Biotechnology is a vast field with several highly profitable industry jobs. Therefore, individuals with expert knowledge of biological processes and how to create valuable products using bioengineering techniques are in high demand.

With a PhD in Biotechnology, you can work in pharmaceutical, cosmetic, agricultural, food processing, and medical diagnostic companies. Although graduates with a bachelor’s or master’s degree can still get a very high-paying job within these fields, a PhD will increase your pool of choices and enable you to land senior roles which attract the best salaries.

Additional Reading About Biotechnology

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PhD in Biotechnology FAQ

The academic background needed for a biotechnology PhD includes a Bachelor’s or Master’s Degree in Biology, Chemistry, Microbiology, or any other life science discipline. Individuals with art or social science backgrounds will not be eligible for admission into a biotechnology PhD program.

Yes, a biotechnology graduate can work in the agricultural sector. Several companies that manufacture agricultural products have research teams that investigate potential methods to improve the quality of their produce. PhD holders in biotechnology can easily find jobs in any of these organizations.

Yes, biotechnology is a very interesting field. If you are intrigued by biology or chemistry and want to know how you can translate your knowledge of life science concepts into innovative solutions to complex problems, then you will enjoy participating in a biotechnology doctorate program.

Yes, there are many good jobs for biotechnology PhD graduates. Biotechnology offers an abundance of career opportunities in academia and the biotechnology industry. Through a PhD program, you can acquire rare and in-demand skills, which will help you land a fantastic job.

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PhD in Bioscience and Biotechnology, Interdisciplinary

Advance Solutions by Becoming an Expert in Your Field

The interdisciplinary PhD in Bioscience and Biotechnology gives you the opportunity to work on complex challenges in the field. Through additional coursework, you will specialize your knowledge and gain the technical skills to come up with innovative solutions through the study of cells. The degree will open the doors to competitive opportunities in academia or private industry.

Why Earn a PhD in Bioscience and Biotechnology From Clarkson?

Clarkson University's PhD in Bioscience and Biotechnology offers a rigorous curriculum and extensive research opportunities for you to become a scholar in the field. During your studies, you will have access to our state-of-the-art facilities and other resources to complete your original projects.

The curriculum is interdisciplinary, and our faculty reflect that scope. You'll be able to work closely with biologists, chemists, physicists, mathematicians and engineers as mentors. Your advisor will help you create an individualized plan that focuses on your areas of interest. Class sizes are small to encourage collaboration and team-building — skills you'll find in laboratories all over the world.

By the time you graduate, you will have acquired specialized knowledge and technical skills in molecular bioscience and biotechnology, the biomedical sciences and neuroscience, computational biology and bioinformatics, ecology and evolution and the environment. Your training will prepare you for further research opportunities in academia or senior roles in related industries.

What You'll Learn

This program consists of 90 credit hours of coursework, seminars and a dissertation. The required courses include:

• Two core courses in cell and molecular biology.
• One biotechnology or molecular biology lab course.
• Two specialization elective courses from one of four categories (Molecular Bioscience & Biotechnology; Biomedical Science & Neuroscience; Computational Biology & Bioinformatics or Ecology, Evolution & the Environment).
• One free elective course from any category.
• One course from the Computational Biology & Bioinformatics category.
• One course on bioethics, policy or law.

We offer the following areas of concentration:

• Biomedical Science & Neuroscience

Computational Biology & Bioinformatics

• Ecology, Evolution & the Environment

Molecular Bioscience & Biotechnology

Required Courses

Specific course requirements for the Interdisciplinary Bioscience and Biotechnology (IBB) program include the following: two core courses in cell and molecular biology (BY580 & BY582); one biotechnology or molecular biology lab course (BY512 or CM570); two specialization elective courses from one of four categories (Molecular Bioscience & Biotechnology; Biomedical Science & Neuroscience; Computational Biology & Bioinformatics; Ecology, Evolution & the Environment); one free elective course from any category; one course from the Computational Biology & Bioinformatics category; and one course on bioethics, policy, or law.

Example Courses and Concentrations

• BY510 Developmental Biology (3 cr)
• BY512 Molecular Biology Laboratory (4 cr)
• BY515 Recent Advances in Immunology Research (1 cr)
• BY560 Comparative Physiology (3 cr)
• BY562 Comparative Physiology Laboratory (2 cr)
• BY580 Advanced Cell Biology (3 cr)
• BY582 Molecular Genetics (3 cr)
• BY586 Molecular Biotechnology (3 cr)
• BY650 Biochemistry I (3 cr)
• BY651 Biochemistry II (3 cr)
• BY652 Pharmacology (3 cr)
• CM520 Separations and Electrochemistry (3 cr)
• CM530 Colloid and Interfaces (3 cr)
• CM544 Medicinal Chemistry (3 cr)
• CM553 Medicinal and Pharmaceutical Biomaterials (3 cr)
• CM566 Bioelectronics & Bionanotechology (3 cr)
• CM570 Biochemistry & Biotechnology Laboratory (3 cr)
• ES552 Biomaterials & Biomedical Engineering Applications (3 cr)
• PH526 Introduction to Biophysics (3 cr)

Biomedical Sciences & Neuroscience

• BY518 Principles of Toxicology and Epidemiology (3 cr)
• BY519 Immunobiology (3 cr)
• BY520 Microbiology (3 cr)
• BY540 Introduction to Biomedical Rehabilitation Engineering & Science (3 cr)
• BY548 Medical Microbiology (3 cr)
• BY555 Cell and Molecular Biology of Cancer (3 cr)
• BY560 Neurobiology (3 cr)
• BY571 Anatomy & Physiology I (3 cr)
• BY572 Anatomy & Physiology II (3 cr)
• BY573 Anatomy & Physiology Lab I (2 cr)
• BY574 Anatomy & Physiology Lab II (2 cr)
• BY576 Current Topics in Biology & Medicine (3 cr)
• BY588 Stem Cells and Regenerative Medicine (3 cr)
• BY604 Molecular Pharmacology (3 cr)
• ME380 Special Topics: Biomechanics (3 cr)
• BY514 Bioinformatics (4 cr)
• BY610 Ecological Statistics and Experimental Design (3 cr)
• ES505 Design of Experiments and Analysis of Data (3 cr)
• MA571 Numerical Solution of Differential Equations (3 cr)
• MA580 Introduction to Monte Carlo Simulation (3 cr)
• STAT582 Mathematical Statistics I (3 cr)

Ecology, Evolution, and the Environment

• BY525 Biological Systems & Environmental Change (3 cr)
• BY528 Conservation Biology (3 cr)
• BY531 Limnology (3 cr)
• BY532 Limnology Laboratory (2 cr)
• BY620 Evolution (3 cr)
• CE575 Coastal Engineering (3 cr)
• CE577 Atmospheric Chemistry (3 cr)
• CE579 Water and Wastewater Treatment Design (3 cr)
• CE580 Environmental Chemistry (3 cr)
• CE682 Environmental Biological Processes (3 cr)
• CH509 Receptor Modeling in Environmental Chemistry (3 cr)
• EHS505 Methods and Analysis (3 cr)
• ES533 Human Exposure Analysis (3 cr)
• ES534 Air Pollution Control (3 cr)

To apply, candidates must fulfill the following criteria:

• Possess a baccalaureate (four-year) degree in biology or a relevant science (e.g., biochemistry, biophysics, environmental science).
• Three semesters of biology, including genetics.
• Four semesters of chemistry, including organic chemistry.
• Two semesters of physics.
• Two semesters of mathematics, including calculus.

Solving real-world problems based on cutting-edge research is at the core of what we do. With access to nationally recognized faculty and 18 research centers and laboratories, we have the resources you need to advance in your field. Our more than 380 partners in industry, government agencies, chambers of commerce and research organizations also offer graduate students a wealth of opportunities to continue doing their important work.

Research 

Our faculty are recognized as leaders in their respective fields and are at the helm of cutting-edge projects. They collaborate closely with each other to provide innovative solutions for complex problems. Our faculty members also value the talents of students and serve as active and engaged mentors.

Faculty 

PhD in Bioscience and Biotechnology students have two options for completing their coursework: entirely onsite at our main campus in Potsdam, New York, or in a hybrid format, with a mix of online and onsite courses.

Many of our full-time, research-based master's and PhD programs are housed in Potsdam. You will be in close proximity to many of our research labs and centers, our libraries and other resources.

Potsdam Campus

A complete application consists of the following:

• Online Application Form.
• Statement of purpose.
• In your statement, please mention two or three faculty members who you believe would be good advisors/supervisors based on their research areas.
• Three letters of recommendation.
• Official transcripts.
• GRE test scores.
• Optional: Applications will be read without GRE test scores, but applicants should submit scores if they believe they will enhance their application.
• For international applicants, an English proficiency test is required.
• Minimum test score requirements: TOEFL (80) and TOEFL Essentials (8.5), IELTS (6.5), PTE (56) or Duolingo English Test (115).
• The English language-testing requirement is not waived based on language of instruction, nor do we accept university certificates. English testing is waived if an applicant has a degree from a country where English is the Native Language. Click here to see the list of these countries.

Prerequisites: Applicants should possess a baccalaureate (four-year) degree in biology or a relevant science (e.g., biochemistry, biophysics, environmental science) with the following minimum college course preparation: three semesters of biology, including genetics; four semesters of chemistry, including organic chemistry; two semesters of physics and two semesters of mathematics, including calculus.

All graduate students are considered for University merit-based financial assistance, including teachings assistantships, research assistantships, fellowships and scholarships. This aid is awarded by each academic department. Not all types of assistantships are available in all programs. Please visit the financial aid, costs and scholarships page to learn about department-specific assistance.

Teaching Assistantships

Teaching Assistantships (TAs) provide a stipend plus full tuition. Duties include an average of 12 hours of work per week for 50 weeks or 20 hours of work per week for 30 weeks. Duties may include assisting in the laboratory or recitation sections and grading of reports or homework.

Research Assistantships

Research Assistantships (RAs) require no teaching responsibilities and provide a standard stipend plus full tuition. Work is determined by the project's principal investigator (PI).

Career Possibilities

The PhD in Bioscience and Biotechnology opens the doors to competitive roles in academia and other research centers. Our graduates also go on to work in a variety of professions and fields, including:

• Agriculture
• Biotech companies
• Energy companies
• Environmental conservation
• Government agencies
• Healthcare companies
• Higher education
• Medical laboratories
• Pharmaceuticals

Recent Employers

You'll find our students employed by these leading organizations:

• Caris Life Sciences
• Embry-Riddle Aeronautical University
• Harford Community College
• New York State Department of Environmental Conservation
• Procter & Gamble
• Senti Biosciences
• Susquehanna University

Postdoctoral Work

Some students have pursued postdocs at schools like:

• University of California at San Francisco

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Graduate Admissions Email: [email protected] Phone: 518-631-9831

Interested in learning more about the PhD in Bioscience and Biotechnology? Contact us today with your questions.

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Specialize your knowledge and become an independent scholar with a PhD in Interdisciplinary Bioscience and Biotechnology from Clarkson. To take the next step: 

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PhD in Biotechn...

PhD in Biotechnology in USA: A Guide to PhD in Biotechnology in USA for International Students

A PhD in biotechnology in USA is a rapidly expanding global industry with a variety of exciting job prospects. More and more applicants are now moving into creating a profession in the expanding sector of biotechnology.

The USA is the leading country that has advanced itself in practising biotechnology. Why  more and more students prefer PhD in Biotechnology in USA is because of the quality of education students get. There are many universities in USA for PhD in biotechnology that accept applications from international students. The cost, however, is frequently what keeps individuals from applying for a fellowship at their preferred universities in the USA. stay with us till the end to know all about the best universities for PhD in biotechnology in USA, and a lot more!

Why Study PhD in Biotechnology in USA?

At present, there are more than 190 top universities in USA for PhD in biotechnology that provide more than 300 courses including PhD. From certificate programs to Ph.D. programs, these universities offer a variety of degrees.

Among the prominent fields at biotechnology universities in the USA are bioinformatics and biotechnology management, both of which are offered by universities there. According to the U.S. Bureau of Labor Statistics, earning a higher education from one of the biotechnology colleges in the USA would open up approximately 87,600 career prospects for you in the near future. Students can pursue fully-funded PhD programs in Biotechnology in USA that cover the cost of the study and stay. Some more reasons to pursue PhD in USA in biotechnology are-

• In the USA, more than 60% of biotechnology experts have a yearly salary of around USD 90,000 (INR 71,86,275).
• Students are offered with fully funded PhD programs in biotechnology in the form of grants by universities.

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Best Universities for PhD in Biotechnology in USA

There are a number of universities in USA for PhD in biotechnology offering quality education in the form of practical and theoretical methods. Below are the best universities for PhD in biotechnology-

Harvard University

Stanford university, johns hopkins university, university of california, berkeley, the george washington university.

Let us get into the details for all of these universities in USA for PhD in Biotechnology:

Harvard University, which was founded in 1636, is the oldest American university and a member of the exclusive US group of Ivy League Schools. Applicants to the PhD in biotechnology will learn about Biological Sciences in Public Health (BPH), dysregulation in complex diseases (such as obesity, diabetes, cancer), infectious diseases (such as malaria, tuberculosis, AIDS), environmental exposures (such as air pollution, asthma, and radiation), etc.

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Stanford University, a private research university in Stanford, California, was established in 1891. Students pursuing a Ph.D. in biology receive instruction that is geared on assisting them in reaching the highest levels of success as teachers and researchers. In order to aid their growth, students collaborate closely with a designated adviser and attend regular meetings with a committee of academic members. The Stanford University Biosciences community, which also comprises doctoral programs in the fundamental scientific departments at Stanford Medical School, includes the Biology Ph.D. program.

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This private university, Johns Hopkins University was established in 1876. The institution has campuses in and near Baltimore, the District of Columbia, Italy, and China. The PhD in biotechnology program, which is intended for both part-time and full-time students, gives you the option to take classes online or on campus in the evenings and on weekends. The biotechnology labs at Johns Hopkins are where exciting things are taking place. You'll gain knowledge from professionals who are engaged in ongoing research, discovery, and publication in a dynamic field.

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The Computational Biology PhD program's major goal is to educate the next generation of scientists who are devoted to performing at a high level in both the computational and biological sciences and who are passionate about researching the interface between computer and biology. The program places a strong emphasis on interdisciplinary cooperation, and research. It also offers a flexible curriculum made up of two semesters of didactic coursework that is adapted to the individual needs of each student.

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This private research university George Washington University was founded in 1821. The university is home to a number of renowned research institutes and facilities, including the GW Cancer Institute, the Centre for Regulatory Studies, Centre for Advanced Study of Human Paleobiology, and the Biostatistics Centre. The Ph.D. in Biomedical Engineering is intended to train future academics and researchers to apply engineering concepts to issues in biology and medicine, to comprehend and model the characteristics of living systems, and to combine biomedical systems and equipment to conduct novel research.

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Course Overview of PhD in Biotechnology in USA

PhD in Biotechnology in USA lasts for 4-5 years and keeps students up to date on scientific advancements that are connected to biotechnology development. Students can choose from a number of specializations, ranging from molecular biotechnology to biochemistry.

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Eligibility Criteria and Documents Required to Study PhD in Biotechnology in USA

Eligibility Criteria for PhD in Biotechnology in USA is given below:

Educational Qualification

English language proficiency test scores, standardised exam scores.

Let us check in detail:

• Students need to provide the passing certificate of masters in Biotech and other relevant degree
• A strong recommendation is to have an excellent academic record for both your undergraduate and graduate degrees (70 percent or B-).

Students while applying for the PhD in Biotechnology in USA need to submit the score of the English Language Proficiency test. However, the score may differ according to the university.

• GRE - 140 or more

You may be asked to give US entrance exam scores, such as the SAT / ACT for PhD in Biotechnology. These scores are rarely sought, but if you have already taken the test, keep them on file.

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Documents Required for PhD in Biotechnology in USA are :

• Statement of Purpose (SOP)
• Letter of Recommendation (LOR)
• Past Academic transcripts
• Approved thesis

Suggested: Sample LOR for MS in Biotechnology

Application Process to Apply for PhD in Biotechnology in USA

To get the admission in any of the top ranked universities in the USA, students need to follow the admission process. Below are the steps-

• Look for the university in the US offering a PhD in Biotechnology.
• Examine the admissions requirements of the university. Determine which exam you must take and which documents you must submit.
• Fill out the application form. You can avail the admission application online.
• Ensure that all documents are submitted by the application deadline. Check the website to see how far your application has progressed.
• If a student meets all of the prerequisites, the university invites the student to take the entrance exam.
• The cut-off for the entrance exam is determined by the college administration. If an applicant performs well on the entrance exam and meets the cut-off, the next step is processed.
• Once chosen, start preparing your budget and applying for a student visa

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Cost of Studying PhD in Biotechnology in USA

The cost of pursuing PhD in Biotechnology in USA varies depending on the type of institution you choose. Both the tuition fees and cost of living differs according to the city or state you are pursuing the course.

• The overall annual cost of studying masters in agriculture in the USA is around USD 24,000 (INR 19,16,340).
• The overall annual cost of living in the United States for an international student is around USD 20, 000 (INR 15, 96,950) per year. The amount depends on the location, the type of residence, and services you utilize while studying here.

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Scholarships Available for PhD in Biotechnology in USA

Universities and colleges offer state special financial grants for international students seeking PhD in USA in biotechnology. One can go for a full funded PhD in biotechnology in USA covering the study cost. Some of the grants offered are:

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Job Scope After PhD in Biotechnology in USA

Students after completing their PhD and these in Biotechnology will have a great career scope. On an average, the annual salary of a PhD holder in the USA is around USD 70,000 (INR 55, 89,325).

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There is a huge scope in terms of career for students completing their education from universities in USA for PhD in biotechnology. If you are looking forward to seeking admission or know any other information, Yocket professionals are ready to help you.

Frequently Asked Questions about PhD in Biotechnology in USA

What is the average salary of a PhD Biotechnology?

The average annual salary of the PhD in Biotechnology aspirant is around USD 70,000 (INR 55, 89,325).

Why choose the USA for PhD in Biotechnology?

USA is the leading nation that has adopted the advancement in biotechnology. Students pursuing PhD in biotechnology will get the insight about the industry and have practical understanding of the same.

Is a PhD in biotechnology worth it?

PhD in Biotechnology is recommended only if you are keen to take up research oriented career otherwise it would just be a waste of your precious time and years. Once you are done, you will have a great career ahead.

How long is the PhD in Biotechnology course?

The PhD in Biotechnology program typically lasts three to five years to complete. Research Methodology, Scientific Communication, Recent Trends in Biotechnology, and other topics would be covered in this course.

Is an entrance exam required to pursue PhD in Biotechnology?

IELTS, TOEFL and GRE are part of the PhD in Biotechnology in the USA. Other than these, you need to check with the university if they have any other exam to undergo.

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Should You Get a Master’s or a PhD in Biotechnology?

Industry Advice Science & Mathematics

The job outlook for biotechnology professionals is very positive, with 2020 salaries averaging between $80,000 and $90,00 per year. As a result, many individuals are pursuing advanced degrees in biotechnology in hopes of acquiring the training and experience needed to land a role in this lucrative field.

Luckily, those with an undergraduate degree have the benefit of tailoring their graduate education by choosing to enroll in either a biotech master’s or a PhD program. Read on to explore how these two programs differ and what the five key aspects you should consider when deciding which is the right fit for you.

Choosing a Master’s vs. a PhD in Biotechnology: What to Consider 

1. your career goals.

Perhaps the most significant question you can ask yourself when picking between a master’s and a PhD is, “What do I intend to do with my degree?”

For example, because PhDs require an extensive time commitment and provide students the chance to explore the academic side of the field, individuals who want to pursue research are best suited for this degree.

“If you want to be an academic, you absolutely have to get a PhD,” says Jared Auclair, director of the biotechnology and bioinformatics programs at Northeastern. Conversely, he explains, “if you want to go work the industry, a master’s is the way to go.” 

A master’s degree is designed to transition students seamlessly from the classroom into the workforce. These programs tend to be shorter, and they provide chances for hands-on learning within real-world organizations. In short, they are developed in a way that allows students to begin shaping their careers in biotech before they even graduate.

“Because a master’s degree takes less time schooling-wise, you can go out and work in the industry sooner, get hands-on experience, and then move up in the chain of command,” Auclair says. 

Learn More: Industry vs. Academia: Which is Right for You?

PhD candidates considering work in industry (versus academia) are not as easily set up for success. This is because, while a PhD candidate is spending years in a classroom, professionals with master’s degrees are already out in the field collecting valuable real-world experiences that will help prepare them to advance within an organization.

And while there are still some companies that might value a PhD applicant’s extensive study over a master’s degree applicant’s time in the workforce, Auclair explains that, in most cases, a master’s is really all a hiring manager is looking for among applicants.

“In most of the job postings I see…companies are looking for those with master’s [degrees], not PhDs,” he says, noting that there are only a few situations where, in C-level leadership roles specifically, a PhD candidate might have an edge. 

2. Curriculum

“A master’s program and a PhD program in biotechnology will have similar coursework,” Auclair says.  Both are designed to provide students with an expansive understanding of the field, including the tools, practices, and trends that define it today.

In a PhD program, however, students will have the opportunity to specialize in a specific area of practice within the larger biotechnology field. “A master’s offers a broader depth of training…[whereas] PhDs are trained to do something very specific,” he continues.

As a result, master’s students may end up taking more classes and leaving with a much broader and holistic understanding of the field than their PhD counterparts. 

3. Program Length

A master’s program is designed to be completed quickly so that students can explore opportunities within the industry earlier in their careers. At Northeastern, for example, the master’s in biotechnology program can take anywhere from two to three years to complete, depending on whether a student pursues it in a full-time or part-time capacity.

A PhD, on the other hand, requires a much longer time commitment. After completing core classes, PhD students complete a three- to five-year research project with the faculty of their program, effectively delaying their release into the workforce.

4. Experiential Learning Opportunities

The experiential component of a student’s education is perhaps the biggest differentiator in the structures of PhD and master’s programs.

Students who pursue their master’s at Northeastern, for example, have unparalleled opportunities to practice their skills hands-on at organizations in the industry before ever entering the workforce.

“Our master program has a mandatory co-op , which is 12 weeks to six months of experience in the industry,” Auclair says. This paid and credited work provides students with the chance to explore the trends of the industry first-hand, network with leaders in the field, and begin to develop working relationships with organizations they may hope to be employed by after they graduate.

Just as industry experience prepares master’s students to thrive in the field, many PhD programs provide experiential learning opportunities for their students that expose them to the types of research and academia they can expect to pursue post-graduation.

“After you do your mandatory coursework for your PhD, you’re going to do a research project with a faculty,” Auclair says. “And that’s not industry experience, it’s academic research experience, which is completely different.”

This academic research gives students a chance to become comfortable in a lab or research setting, gain exposure to some of the technology and tools they will use in practice, and begin developing working relationships with professors and other university faculty.

5. Demands of the Industry

Some professionals considering an advanced degree do so knowing exactly what they want to do with their careers. For these individuals, the process of deciding between a master’s and a PhD may stop after consideration of their career goals.

However, some individuals embark on advanced education not to fulfill a specific career objective, but to simply pursue their passion for biotechnology. These individuals should think about not only what career opportunities each program might lead to, but which degree will best set them up to meet the current demands of the industry.

For example, the COVID-19 pandemic has created a plethora of lucrative possibilities for those in the biotechnology sector. Between a need for expedited vaccine development, a rethinking of telemedicine, and much more, Auclair notes there will be many new and exciting opportunities for those hoping to get involved.

“With COVID…sciences and new technologies are going to evolve rapidly,” he says. “The master’s degree sets you up to be more nimble and flexible [in order] to adapt to those [changes] and to really have a broader impact.”

Though there are opportunities for PhD holders to carve out a place for themselves in the industry, Auclair explains that the depth and type of training required at their level don’t as easily translate.

“Traditionally a person with a PhD is very specialized in one specific technique or aspect of the sciences, whereas somebody with a master’s is [better] able to adapt to the evolution of where the science is going to go. I’m not saying that PhDs can’t do that, but it’s typically not as easy for them.”

Weighing Your Options

If you’re considering a career in biotechnology, an advanced degree provides a perfect opportunity to gain the training and hands-on experience necessary to thrive within this ever-evolving field.

The Master of Science in Biotechnology at Northeastern, for example, has been designed with the input of industry experts and is constantly evolving to best prepare its students to meet the changing needs of the field.

“Part of my mission is to develop all of our programs in collaboration with industry,” Auclair says. “[We] monitor the trends and evolve and adapt as the trends evolve and adapt so that we’re producing people who are ready to work in the business of today or tomorrow, and not of yesterday.”

Northeastern has also taken steps to create opportunities for students who want both the industry exposure of a master’s degree with the cumulative title of a PhD.

The Experiential PhD is a unique program that allows students to work toward their PhD while simultaneously holding a full-time position within the industry. While this degree can be applied to any field, it’s particularly relevant to master’s degree holders who later realize they want to specialize their knowledge or to pivot their career toward research.

Northeastern’s master’s in biotechnology is designed to effectively complement this degree, as well. The Experiential PhD allows students to build off the holistic understanding of the industry obtained at the master’s level, preventing them from repeating much of the same coursework over again as they would in pursuit of a different science-based PhD.

The way it works, Auclair explains, is that “when you have your master’s…and you’re working at a company, you find a mentor in that company and a mentor at the university, and you [choose and then] work on a project that’s interesting to all three of you.”

This type of industry-applicable PhD is ideal for those who have already spent time working within organizations in the field. It allows you to advance your education while still continuing to function as an employee at your company. “You get all the benefits and the money and the salary and everything, but you’re still getting your PhD and it [only takes] three years,” Auclair says.

Take the Next Step

No matter which program you choose, pursuing an advanced degree in biotechnology is sure to be a positive step toward success in this field.  If you’re still struggling to determine which path is right for you, consult with an expert in the field. Whether that person is someone in your network that works in biotech or an enrollment coach at Northeastern, (who are well-versed in Northeastern’s variety of programs), gaining some outside perspective can help you make this important career choice.

Explore the master’s in biotechnology at Northeastern on our program page then download our free e-Book to learn more about how you can advance your career in biotechnology.

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The average U.S. bioscience worker earned nearly $99,000 in 2016, 85% greater than the average for the overall private sector. (BIO, 2018)

Master of Science in Biotechnology

An innovative degree for a dynamic industry.

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PhD in Biotechnology

Biotechnology, phd: 1st year.

Other requirements for the PhD program include:

• Additional electives that emphasize individual research themes
• 3.25 GPA in core classes (listed above)
• Oral critique of a current research article
• Research progress report with oral presentation
• 1-3 teaching assistant assignments
• Attendance and participation in the Departmental Seminar Series
• Research committee meetings and thesis defense

** Additional program details are provided in the Graduate Handbook

• PhD BioTechnology

TOP 10 PHD BIOTECHNOLOGY CLASSES IN USA

Academic research has come a long way where more students are showing an interest in Ph.D. programs. Doctor of Philosophy or Ph.D. in Biotechnology in the US has gained mass admission demands with students wanting to learn more about bioprocessing, medicine, and technology.

From fund planning to course requirements & job prospects, you'll need to know everything before devoting your time to such a research-oriented degree. 

And that is exactly what you get from this article. Let's have a look at some of the most common questions when it comes to getting a PhD in Biotechnology in USA.

Why get a Ph.D. in BioTechnology from USA?

• If you're opting for your PhD in Biotechnology in the USA, you can also seek grant approval to save costs from your tuition fee of the program. 
• The United States is THE hub of innovation and research when it comes to Biotechnology as a field of science. 

What is the cost of PhD in BioTechnology from the US?

Various institutions provide funding for Biotechnology research in the US, thus cutting down the tuition fees burden from the university students. 

On top of that, there are scholarship programs and paid assistantship positions to help with your finances. 

• Public Institution: If you're from the US, your average study program cost would be around 11,600 USD. This amount becomes a little higher if you're a student from abroad. 
• Private Institution: 26,550 USD will be your yearly tuition fees for the Ph.D. courses here in the US for all students. 

What is the average duration of PhD in BioTechnology in the US?

The duration of completing a Ph.D. in Biotechnology in the USA is roughly 4-6 years. 

What are the famous Universities offering PhD in Biotechnology in the US?

1. The University of Iowa, Iowa

2. The University of Tennessee, Knoxville, Knoxville

3. The University of Buffalo

4. The State University of New York

5. School of Engineering and Applied Science, Buffalo

6. The University of Alabama , Huntsville

7. The University of California

8. Columbia University, Columbia

What will I learn by getting a Ph.D. in BioTechnology in the US?

You can opt from various subjects when you opt for a PhD in Biotechnology in the US. 

Here are to name a few:

• Free Radical and Radiation Biology.
• Cancer Science.
• Biotechnology.
• Biosystems Engineering.
• Biomedical Engineering. 
• Genetics, Genomics, and Bioinformatics. 

What jobs I can get in the US after having a PhD in BioTechnology?

As a Phd in Biotechnology, you'll have a mass availability of employment opportunities in America:

• Postdoctoral Research Associate.
• Technical Support Specialist. 
• Chemical Process Engineer.
• Account Manager Sales. 
• Research Scientist. 
• Development Scientist. 
• Online PhD BioTechnology Courses

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Ms in biotechnology.

Biotechnology is fueling advancements in healthcare and beyond. Prepare for the business or science side of this fast-growing field with the comprehensive MS in Biotechnology program at Johns Hopkins University.

MS in Biotechnology Program Overview

Life sciences. Technology. Business.

Biotechnology is about making discoveries that make the world a better place, and about bringing those concepts to life… and into the market. Spanning industries, including pharmaceuticals, agriculture, healthcare, environment, energy, national security, biotechnology covers roles from the R&D lab, product development, and manufacturing to sales, marketing, finance, and law.

This robust graduate program at Johns Hopkins University offers concentrations and elective courses that result in a degree designed to fit your career aspirations.

Study on Your Terms

Designed for both part-time and full-time students, this biotechnology master’s program offers you the flexibility to take classes online or on-campus in the evenings and on weekends.

What It’s Like to Study Biotechnology at AAP

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MS in Bioinformatics Information Session

Ms in biotechnology information session, ms in individualized genomics and health information session.

The program provided a solid foundation in biodefense, both from a historical and present-day perspective and has proved invaluable to me in my current position.

Why to Pursue an MS in Biotechnology at Hopkins

Learn From Leading Researchers

Exciting things are happening in the biotechnology labs at Johns Hopkins. You’ll learn from experts who are actively researching, making discoveries, and publishing in an evolving field.

Explore Concentrations and Courses

Customize your program with electives based on your professional and scientific interests. You may also concentrate in one of six areas, including biodefense, regulatory affairs, or drug discovery.

Join a Diverse, Successful Scientific Community

When you enroll at Johns Hopkins, you become part of an international community of biotechnology, research, and medical professionals who work in labs, universities, and companies around the world.

Share Your Discoveries: The Research Symposium

Each May our graduate students are invited to showcase their independent research. The annual event features poster presentations, a notable guest speaker, and more.

MS in Biotechnology and MBA Dual Degree

The MS in Biotechnology/MBA is one of the nation’s first and largest dual graduate degree programs in biotechnology and business. The program allows you to earn two advanced degrees in less time than it takes to earn them separately.

Biotechnology News

Take the Next Step

Prepare yourself with the latest knowledge and experiences to excel across the greater biotechnology industry.

Contact Us for More Information

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Found 32 Doctorate Biotechnology Courses in United States

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• THE World Ranking: 9
• San Francisco, United States
• Next intake: 28.08.2024
• Entry Score: IELTS 7.0
• USD27366 (2024)
• THE World Ranking: 251
• Charlotte, United States
• Next intake: 24.06.2024
• Entry Score: IELTS 6.5
• USD29433 (2024)
• THE World Ranking: 0
• Akron, United States
• Next intake: 26.08.2024
• USD30026 (2024)
• THE World Ranking: 145
• Philadelphia, United States
• Next intake: 29.08.2024
• USD42324 (2024)
• Dallas, United States
• Next intake: 21.08.2024
• Entry Score: IELTS 6.0
• USD17553 (2024)
• Los Angeles, United States
• Next intake: 20.06.2024
• THE World Ranking: 59
• Sacramento, United States
• Next intake: 23.09.2024
• THE World Ranking: 3
• Boston, United States
• Next intake: 09.09.2024
• USD59750 (2024)

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MCOM Graduate & Postdoctoral Affairs

Quick links, masters in medical sciences concentrations, master's in biotechnology.

The Master’s of Science in Biotechnology from the University of South Florida is a specialized degree that prepares graduates for work in active scientific settings by combining technical competencies with workforce skills in preparation for careers in the growing Biotechnology sector.

The Biotechnology program represents a multi-college partnership and a truly interdisciplinary collaboration. Participating colleges include the Morsani College of Medicine, the College of Engineering, the College of Public Health, the College of Arts & Sciences and the Muma College of Business. The major is designed to meet the increasing demand for trained people in this exploding area, which crosses the traditional fields of biological, chemical, engineering, health and computer sciences. The curriculum has been designed accordingly and provides the theoretical background; the practical training; and, with internships, the “real life” experience which will equip students with the essential tools for a successful career in the field of biotechnology. Graduates of the Biotechnology programs at USF take jobs in the Biotechnology Industry or pursue PhD programs , medical school, dental school, veterinary school or pharmacy school. For students seeking biotechnology degrees in Florida, the Biotechnology programs will equip you with the skills and experience needed to succeed in this growing industry.

We are currently recruiting highly motivated domestic and international students. The curriculum offers numerous on-campus courses in order to sustain students studying with international visas. Interested students are encouraged to contact the program director, Dr. Vrushank Davé at email address: [email protected] .

In 2008, the MS in Biotechnology major was recognized as a Professional Science Master’s (PSM) Program .

This program can be completed with full time enrollment in one year. The full curriculum for the Master's in Biotechnology program can be found in the Graduate Catalog. 

Graduate Catalog

Admissions and general information, please contact:  Email: [email protected]

Program Director/Advisor: Dr. Vrushank Davé Email: [email protected]

Click Here to Apply Now!

How to Apply 

The Master's in Biotechnology is offered by the Molecular Medicine department within the Morsani College of Medicine in Tampa, Florida and will be available for full-time and part-time enrollment. Students can apply for Fall, Spring, or Summer. 

Admission requirements and application deadlines can be found in the graduate catalog at the links below.  

Admission Requirements

Application Deadlines

Steps to Apply

• Submit a  Graduate Admissions Application . 
• Pay the $30 application fee. 
• GRE School Code - 5828

Please note that the Science GPA calculator is not a requirement for Biotechnology applicants.

Official transcripts should be sent to the following address below, or electronically to  [email protected] . 

University of South Florida Office of Admissions - Graduate 4202 E. Fowler Avenue, SVC 1036 Tampa, FL 33620-6900 

A Note for International Students

International students must submit proof of English language proficiency  and a course-by-course foreign credential evaluation from a NACES accredited evaluation service.

Accepted evaluation services include, but are not limited to:

• World Education Services
• Josef Silny & Associates, Inc.
• Academic Evaluation Services
• Educational Credential Evaluators, Inc.

A copy of the original document that was evaluated and an English translation (if applicable) must be included with the evaluation.

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Roux PhD Student Aims to Make Maine the Next Biotechnology Hub

Most kids dream of being an astronaut or a racecar driver. Griffin T. Scott was a little different.

“Even when I was little, I was always drawn to the ‘mad scientists’ on TV, like Dexter’s Lab or Dr. Who,” he says, laughing.

It makes sense that, today, Griffin is pursuing a career in the sciences, working on a project that seems straight out of science fiction, asking the question, “if salamanders can regrow lost limbs, eyes, even parts of the heart, why can’t we?”

Griffin, who recently earned a master’s in bioinformatics at Northeastern University’s Roux Institute, is not afraid to make bold claims about the possibilities of biotechnology. “I’ve always thought, medicine is about helping people live longer, healthier lives. Yet, when it comes to aging, the degenerative disease we all get, we’re just supposed to experience it naturally rather than pushing back.”

In speaking with Griffin, it’s clear his passions are deep and many. His academic journey began as an undergraduate student at McGill University in Montreal where he double majored in history and biology. He enjoyed the convergence of the two topics, particularly thinking about the impact of scientific development on human society. Griffin witnessed this firsthand during the COVID-19 pandemic, as the virus altered global structures while also driving advancements in biotechnology.

“I’ve always had a lot of different interests, so I thought, if I can create ways to help people live longer, healthier lives, I can spend the first part of my lifespan giving myself more time to explore all the other things I’m passionate about,” he said.

Griffin Scott, who graduated with his master's degree in bioinformatics last December, has enrolled as one of the Roux Institute's first PhD students, with a focus in computational medicine.

After graduating from McGill, Griffin returned to his hometown of Bath, Maine, not planning to stay long. He was eager to pursue a graduate degree in biotechnology and assumed that would mean relocating to Boston or a similar tech hub. But while working in Portland, he heard about the Roux Institute’s bioinformatics program and decided to at least get a certificate, thinking some computational skills would help him in applying to other graduate programs down the road.

Two years later, Griffin had not only matriculated into a full master’s degree in bioinformatics, but he is also one of the first students to enroll in the Roux Institute’s new interdisciplinary PhD program, specializing in computational medicine. Griffin says it was the experiential learning during his master’s program and his deep involvement in founding and growing student entrepreneurship programs at the Roux Institute that convinced him that Maine was a place where he could thrive as a young scientist.

“The experiential component is something I found extremely valuable,” Griffin recalled. For his co-op, Griffin worked with Roux researcher Dr. Christine Lary, analyzing large datasets in a pharmaco-genomic epidemiological study. “Even just understanding how those terms fit together was an education in biostatistics,” Griffin laughs.

[At the Roux Institute], I have access to expert mentorship from biostatistics, data visualization, machine learning, and systems biology. At a larger campus, those disciplines might be split up between separate buildings and less likely to collaborate.” ”

Griffin Scott

Master's of Bioinformatics Graduate

Northeastern University

Griffin presented his work investigating the interaction between genetic variants and beta blocker treatment and their association with bone density in postmenopausal women at the CHARGE conference in Boston in May 2023.

Griffin’s work with Dr. Lary led him to his next project with his current PhD advisor, Dr. Kiran Vanaja. The two worked for five months building a project to model how axolotls, a type of salamander, regenerate their limbs and other complex tissues after injury. By modeling gene expression in immune cells over the course of regeneration, Griffin hopes to unlock secrets that could advance our understanding of wound healing, immune signaling, and why some animals regenerate and how in the future we could do the same.

“I was attracted to this program because of the multi-disciplinary approach,” Griffin said about his decision to stay at the Roux Institute to pursue his PhD. “As a relatively small institution, I have access to expert mentorship from biostatistics, data visualization, machine learning, and systems biology. At a larger campus, those disciplines might be split up between separate buildings and less likely to collaborate.”

“One thing I really appreciate about this place is that you can just go up to an established researcher or faculty member and talk to them. People here have time to grab a coffee or answer a question, and that’s really special,” he reflected.

As Griffin delves into the computational modeling of immune cells during wound healing, he’s investing heavily into his other main passion at the Roux: entrepreneurship. He, with fellow Roux master’s student Mike Warren, is the co-founder of the Roux Entrepreneurship Club, a student interest group that connects students interested in venture creation to opportunities for funding, mentorship, and education in Maine.

Griffin, of course, is most interested in biotechnology venture creation, and sees Maine as a state that is primed to become a hub for life sciences innovation.

“Maine has a lot of great research institutions, but not a lot of biotechnology startups. That means there’s a huge amount of intellectual property in the state which could be translated into products.”

One of Griffin’s goals during his PhD program is to help build the Roux Institute into an engine which connects students and fundamental research to entrepreneurial opportunities. He would like to eventually pursue his own venture, but for now, as he embarks on his PhD, he is happy to build a community of like-minded peers at the Roux Institute.

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• Applied Biotechnology, MS

Every day, biotechnology is working to solve some of the world’s most pressing problems—infectious and hereditary disease, food security, and sustainable alternatives to fossil fuels—and moving forward with revolutionary solutions.

Whether your experience is based in healthcare, agriculture, or industry—the 100% online University of Wisconsin Master of Science in Applied Biotechnology program will teach you how to bring the best of biotechnology innovation to the market, where it can do the most good.

• First, gain additional understanding of the principles and techniques of biotechnology, ethical, safety, and privacy concerns, funding, intellectual property and patents, professional and technical communication, experimental design and analysis, and organizational leadership—all within the scope of the global biotechnology industry.
• Then focus your learning within one or more specialization tracks: Quality Assurance and Compliance, Business Management, or Research and Development.
• Finally, upon completing your capstone project, you will earn a degree from the University of Wisconsin, one of the largest and most widely respected public higher education systems in the country.

The multi-campus partnership means you’ll learn from expert faculty from across the UW System with strong connections to the industry, and the online format offers working adults like you a flexible, convenient way to pursue an advanced degree.

The  MS in Applied Biotechnology Program  is a FULLY ONLINE graduate degree program. If you are seeking the FACE-TO-FACE program, please see the  MS in Biotechnology  Program . You can also apply to both under one application fee.

Not sure which program best fits your needs? Contact us to talk more. Call 608-262-9753 or email Bryan ( [email protected] ) or Michele ( [email protected] ).

Please consult the table below for key information about this degree program’s admissions requirements. The program may have more detailed admissions requirements, which can be found below the table or on the program’s website.

Graduate admissions is a two-step process between academic programs and the Graduate School. Applicants must meet the minimum requirements of the Graduate School as well as the program(s). Once you have researched the graduate program(s) you are interested in, apply online .

Apply to the Graduate School 

Apply to the Graduate School online and select the "Applied Biotechnology MS" program. This is the online-only degree program, see "Biotechnology, MS" program for the face-to-face degree.

Admissions Criteria and Prerequisite Coursework

• Bachelor's degree from an accredited university with a minimum grade point average of 3.0.
• To satisfy the prerequisite you must have completed either two semesters of biological sciences, two semesters of chemistry, or one semester each of biological sciences and chemistry.
• Professional resume or CV
• Upon acceptance, official transcripts will be required by the Graduate School.
• Two letters of recommendation
• Summary of your professional and academic background
• Concise description of your short- and long-term professional goals
• Clear explanation of how the online MS in Applied Biotechnology degree will help you meet your goals. 

Additional Graduate School Resources

• Graduate School Admission Frequently Asked Questions
• Graduate School Admission Requirements

If you have any questions about how to apply or about the status of your application, refer to the contact information box. 

Application Deadline

Applications are accepted year-round for the online MS in Applied Biotechnology Program.  Students can begin in fall, spring or summer term.  To guarantee consideration for a particular term, applications should be completed by the admissions deadlines listed above.

Online versus Face to Face

The "Applied Biotechnology MS" program is a fully online program. The " Biotechnology MS " program is face to face. Not sure which Biotechnology program works best for you? Contact the program for more information.

Graduate School Resources

Resources to help you afford graduate study might include assistantships, fellowships, traineeships, and financial aid.  Further funding information is available from the Graduate School. Be sure to check with your program for individual policies and restrictions related to funding.

Program Information

The MS in Applied Biotechnology Program does not offer any scholarships or financial aid.

Students enrolled in this program are not eligible to receive tuition remission from graduate assistantship appointments at this institution.

However, students may contact the  Office of Student Financial Aid  to discuss federal loan programs and other lending opportunities.

Minimum Graduate School Requirements

Major requirements.

Review the Graduate School minimum academic progress and degree requirements , in addition to the program requirements listed below.

 Mode of instruction

 Mode of Instruction Definitions

Accelerated: Accelerated programs are offered at a fast pace that condenses the time to completion. Students typically take enough credits aimed at completing the program in a year or two.

Evening/Weekend: ​Courses meet on the UW–Madison campus only in evenings and/or on weekends to accommodate typical business schedules.  Students have the advantages of face-to-face courses with the flexibility to keep work and other life commitments.

Face-to-Face: Courses typically meet during weekdays on the UW-Madison Campus.

Hybrid: These programs combine face-to-face and online learning formats.  Contact the program for more specific information.

Online: These programs are offered 100% online.  Some programs may require an on-campus orientation or residency experience, but the courses will be facilitated in an online format.

Curricular Requirements

Required Courses

Students in this program may not take courses outside the prescribed curriculum without faculty advisor and program director approval. Students in this program cannot enroll concurrently in other undergraduate or graduate degree programs.

Graduate School Policies

The  Graduate School’s Academic Policies and Procedures  provide essential information regarding general university policies. Program authority to set degree policies beyond the minimum required by the Graduate School lies with the degree program faculty. Policies set by the academic degree program can be found below.

Major-Specific Policies

Prior coursework, graduate credits earned at other institutions.

No prior coursework from other institutions may be applied toward program requirements.

Undergraduate Credits Earned at Other Institutions or UW-Madison

No prior coursework from the UW–Madison undergraduate career may be applied toward program requirements.

Credits Earned as a Professional Student at UW-Madison (Law, Medicine, Pharmacy, and Veterinary careers)

No prior coursework from the UW-Madison Professional student career may be applied toward program requirements.

Credits Earned as a University Special Student at UW–Madison

No prior coursework from the UW-Madison University Special student career may be applied toward program requirements.

Refer to the Graduate School: Probation policy.

Advisor / Committee

Refer to the Graduate School: Advisor policy.

Students will be advised by MS in Applied Biotechnology Program staff. 

Credits Per Term Allowed

Time Limits

Refer to the Graduate School: Time Limits policy.

Grievances and Appeals

These resources may be helpful in addressing your concerns:

• Bias or Hate Reporting  
• Graduate Assistantship Policies and Procedures
• Office of the Provost for Faculty and Staff Affairs
• Employee Assistance (for personal counseling and workplace consultation around communication and conflict involving graduate assistants and other employees, post-doctoral students, faculty and staff)
• Employee Disability Resource Office (for qualified employees or applicants with disabilities to have equal employment opportunities)
• Graduate School (for informal advice at any level of review and for official appeals of program/departmental or school/college grievance decisions)
• Office of Compliance (for class harassment and discrimination, including sexual harassment and sexual violence)
• Office Student Assistance and Support (OSAS)  (for all students to seek grievance assistance and support)
• Office of Student Conduct and Community Standards (for conflicts involving students)
• Ombuds Office for Faculty and Staff (for employed graduate students and post-docs, as well as faculty and staff)
• Title IX (for concerns about discrimination)

Grievance Policy for Graduate Programs in the School of Medicine and Public Health

Any student in a School of Medicine and Public Health graduate program who feels that they have been treated unfairly in regards to educational decisions and/or outcomes or issues specific to the graduate program, including academic standing, progress to degree, professional activities, appropriate advising, and a program’s community standards by a faculty member, staff member, postdoc, or student has the right to complain about the treatment and to receive a prompt hearing of the grievance following these grievance procedures. Any student who discusses, inquiries about, or participates in the grievance procedure may do so openly and shall not be subject to intimidation, discipline, or retaliation because of such activity. Each program’s grievance advisor is listed on the “Research” tab of the SMPH intranet .

This policy does not apply to employment-related issues for Graduate Assistants in TA, PA and/or RA appointments.  Graduate Assistants will utilize the Graduate Assistantship Policies and Procedures (GAPP) grievance process to resolve employment-related issues.

This policy does not apply to instances when a graduate student wishes to report research misconduct.  For such reports refer to the UW-Madison Policy for Reporting Research Misconduct for Graduate Students and Postdoctoral Research Associates .

Requirements for Programs

The School of Medicine and Public Health Office of Basic Research, Biotechnology and Graduate Studies requires that each graduate program designate a grievance advisor, who should be a tenured faculty member, and will request the name of the grievance advisor annually.  The program director will serve as the alternate grievance advisor in the event that the grievance advisor is named in the grievance.  The program must notify students of the grievance advisor, including posting the grievance advisor’s name on the program’s Guide page and handbook.

The grievance advisor or program director may be approached for possible grievances of all types.  They will spearhead the grievance response process described below for issues specific to the graduate program, including but not limited to academic standing, progress to degree, professional activities, appropriate advising, and a program’s community standards.  They will ensure students are advised on reporting procedures for other types of possible grievances and are supported throughout the reporting process.  Resources on identifying and reporting other issues have been compiled by the Graduate School.

• The student is advised to initiate a written record containing dates, times, persons, and description of activities, and to update this record while completing the procedures described below.
• If the student is comfortable doing so, efforts should be made to resolve complaints informally between individuals before pursuing a formal grievance.
• Should a satisfactory resolution not be achieved, the student should contact the program’s grievance advisor or program director to discuss the complaint. The student may approach the grievance advisor or program director alone or with a UW-Madison faculty or staff member. The grievance advisor or program director should keep a record of contacts with regards to possible grievances.  The first attempt is to help the student informally address the complaint prior to pursuing a formal grievance. The student is also encouraged to talk with their faculty advisor regarding concerns or difficulties.
• If the issue is not resolved to the student’s satisfaction, the student may submit a formal grievance to the grievance advisor or program director in writing, within 60 calendar days from the date the grievant first became aware of, or should have become aware of with the exercise of reasonable diligence, the cause of the grievance.  To the fullest extent possible, a grievance shall contain a clear and concise statement of the grievance and indicate the issue(s) involved, the relief sought, the date(s) the incident or violation took place, and any specific policy involved.
• The grievance advisor or program director will convene a faculty committee composed of at least three members to manage the grievance.  Any faculty member involved in the grievance or who feels that they cannot be impartial may not participate in the committee.  Committee composition should reflect diverse viewpoints within the program.
• The faculty committee, through the grievance advisor or program director, will obtain a written response from the person or persons toward whom the grievance is directed. The grievance advisor or program director will inform this person that their response will be shared with the student filing the grievance.
• The grievance advisor or program director will share the response with the student filing the grievance.
• The faculty committee will make a decision regarding the grievance. The committee’s review shall be fair, impartial, and timely.  The grievance advisor or program director will report on the action taken by the committee in writing to both the student and the person toward whom the grievance was directed.
• The grievant will be notified in writing, within 5 business days of the written appeal, acknowledging receipt of the formal appeal and establishing a timeline for the review to be completed.
• The senior associate dean or their designee may request additional materials and/or arrange meetings with the grievant and/or others.  If meetings occur, the senior associate dean or their designee will meet with both the grievant and the person or persons toward whom the grievance is directed.
• The senior associate dean or their designee will assemble an ad hoc committee of faculty from outside of the student’s graduate program and ask them to prepare a written recommendation on whether to uphold or reverse the decision of the program on the student’s initial grievance.  The committee may request additional materials and/or arrange meetings with the grievant and/or others.  If meetings occur, the committee will meet with both the grievant and the person or persons toward whom the grievance is directed.
• The senior associate dean or their designee will make a final decision within 20 business days of receipt of the committee’s recommendation.
• The SMPH Office of Basic Research, Biotechnology, and Graduate Studies must store documentation of the grievance for seven years. Grievances that set a precedent may be stored indefinitely.
• The student may file an appeal of the School of Medicine and Public Health decision with the Graduate School.  See the Grievances and Appeals section of the Graduate School’s Academic Policies and Procedures .

Steps in the grievance procedures must be initiated and completed within the designated time periods except when modified by mutual consent. If the student fails to initiate the next step in the grievance procedure within the designated time period, the grievance will be considered resolved by the decision at the last completed step.

• Professional Development

Take advantage of the Graduate School's  professional development resources to build skills, thrive academically, and launch your career. 

• Learning Outcomes
• Demonstrate professional and scientific communication appropriate for biotechnology settings
• Demonstrate comprehensive understanding of organizational processes and product development pipelines
• Distinguish among diverse methods and technologies and their applications in biotechnology
• Demonstrate strategic leadership and decision-making skills necessary in biotechnology
• Appraise the current regulatory, quality control, and legal frameworks that impact biotechnology
• Demonstrate professional and ethical behaviors that foster positive and productive interactions in diverse biotechnology settings

The UW Applied Biotechnology curriculum is designed and taught in collaboration by faculty from seven University of Wisconsin campuses: UW–Green Bay, UW–Madison, UW–Oshkosh, UW–Parkside, UW–Platteville, UW–Stevens Point, and UW–Whitewater. However, by selecting UW–Madison as your campus, your degree will come from UW–Madison.

Anjon (Jon) Audhya, PhD

• Senior Associate Dean for Basic Research, Biotechnology, and Graduate Studies
• Professor, School of Medicine and Public Health

Natalie Betz, PhD

• Academic Director for the MS in Biotechnology Program
• Academic Director for the UW–Madison online MS in Applied Biotechnology
• Faculty Instructor, School of Medicine and Public Health

Bryan Husk, MA

• Administrative Associate Director for the MS in Biotechnology Program
• Administrative Associate Director for the online MS in Applied Biotechnology (UW–Madison campus)
• Academic Staff, School of Medicine and Public Health
• [email protected]
• 608-265-0773 office
• 608-577-9182 cell

Michele Smith, MS, SCT(ASCP)

• Graduate Program Manager for the MS in Biotechnology Program
• Graduate Program Manager for the online MS in Applied Biotechnology (UW–Madison campus)
• [email protected]
• 608-262-9753 office
• 608-658-5311 cell

Barbara Bielec, MS

• Program Assistant for the MS in Biotechnology Program
• Program Assistant for the online MS in Applied Biotechnology (UW–Madison campus)
• University Staff, School of Medicine and Public Health
• [email protected]
• Requirements

Contact Information

MS in Applied Biotechnology Program [email protected] 608-262-9753 505 S. Rosa Rd., Suite 118 Madison, WI 53719 https://uwex.wisconsin.edu/applied-biotechnology/

Michele Smith, MS, Graduate Program Manager, MS in Applied Biotechnology Program [email protected] 608-262-9753 office 608-658-5311 cell

Bryan Husk, MA, Administrative Associate Director, MS in Applied Biotechnology Program [email protected] 608-265-0773 office 608-577-9182 cell

Natalie Betz, PhD, Academic Director [email protected] 608-262-9753

Barbara Bielec, MS, Program Assistant [email protected]

Grievance Advisor Primary: Academic Director, listed above Alternate: Program Manager, listed above

Graduate School grad.wisc.edu

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Students and graduates

Life as a microsoft intern, get inside the microsoft intern experience.

Every year, thousands of university students from every corner of the world join Microsoft. You bring your aspirations, talent, potential—and excitement for the journey ahead. Our internship experience brings interns from around the world together to connect, collaborate and co-create virtually to make a difference and impact the world.

A hybrid approach to internships

Starting a new career journey is a momentous occasion. As you plan to take an initial step on your new path, Microsoft internships provide a hybrid approach to enable a high-quality experience both virtually and in person. Hybrid by design is weaved into each of our locations, keeping the health and safety of our employees, interns, and their families as our highest priority.    

Whether joining us virtually or in person, all our interns are empowered to co-create their experience, build community, and explore their passions while working on projects that matter. 

Global student programs and internships

University internships

At Microsoft, our interns work on projects that matter – and your team will rely on your skills and insights to help deliver those projects to market. This is your chance to bring your solutions and ideas to life while working on cutting-edge technology. We offer internships in all job families and solution areas, and it’s open to current students in Bachelor’s, Master’s, MBA, PhD programs.

PhD internships

If you're pursuing a PhD and want to explore what it's like to work at Microsoft, look no further. We host PhD interns in both our product teams and in Microsoft Research (MSR). Our PhD interns are active, contributing members to our product and research community regardless if you are conducting cutting-edge research or engineering a new product. No matter what route you take—come work on meaningful, innovative projects that add to our company's success.

Microsoft Aspire Experience

We believe that Microsoft is a place for exploration, creativity, innovation, and professional growth. Microsoft Aspire Experience is an onboarding experience, designed to equip, develop, and empower those who join Microsoft after graduating from undergraduate school and MBA programs.

Global programs

• Imagine Cup
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Register for the Imagine Cup. Make an impact through coding, collaboration, and competition. Innovate with passion to tackle global issues and bring your tech solutions to live in the Imagine Cup.

We are looking for student leaders with a passion for making a difference and sharing technology with their peers.

Our HR rotation program is a 3- year program that fosters learning and growth in the HR profession, and help you jumpstart your career.

Our Microsoft Finance Rotation Program (FRP) is a two-year program comprised of four, 6-month rotations, split across core finance functions. Kick starts your career in finance with a rotation in corporate functions, production/engineering finance, sales finance and more.

SCORE is a three-year career experience designed to provide emerging talent with an unparalleled journey through end-to-end cloud supply chain operations. Over three one-year rotations, participants will partner with and learn from our teams while building skills and supply chain acumen to accelerate their career growth.

U.S. regional internships and programs

Discovery program internship

The Discovery Program is a unique opportunity for students who are passionate about technology and want to make a positive impact on the world and society. This four-week internship is open to rising first-year students college students, based in Redmond, Washington or Atlanta, Georgia. Participants will work on a real project, learn from Microsoft employees and mentors, and explore different career paths in tech. Applications will be open in March 2024.

Explore Microsoft internship

Created for first- and second-year college students, Explore Microsoft is a 12-week summer internship that lets you try out different software engineering roles.

India regional internships and programs

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Microsoft Academic Partnership Grant is intended at fostering academia and industry collaborations and result in breakthrough innovations in search, cloud computing, and data-driven content creation.

More info to come when submissions for next year open.

A program to nurture cybersecurity enthusiasts via a specially curated learning journey.

Through this initiative, MBA students across B-schools in India interested in program management get a chance to be mentored by Microsoft and be a part of AMA sessions, webinars, and leader talks delivered by Microsoft employees.

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More info to come when applications for next year open.

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From Monterrey to Microsoft

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It all started with a Windows internship

A year after graduating, Nikhil Gaekwad went from former intern to Program Manager at Microsoft. 

Uncovering Innovations with Jennifer Michaelson, PhD Oncology Overdrive

In this episode, host Shikha Jain, MD, speaks with Jennifer Michaelson, PhD, about how to seek out opportunities in the health care industry, making space for diversity in biotech innovation and more. •    Welcome to another exciting episode of Oncology Overdrive 1:15 •    About Michaelson 1:21 •    The interview 2:30     •    Can you tell us about how you ended up in the biotech executive space?  2:47 •    How do people get involved in this type of work?  12:32 •    Tell us about sourcing innovation in biotech, along with the challenges that come with it. 16:46 •    How do you consider patient access when thinking about innovations in the biotech space? 21:15 •    When you think about the challenges facing leadership and diversity in these spaces, how can we create an inclusive culture in the health care space? What have you done to spearhead a culture of DEI?  23:51 •    Jain and Michaelson on organizations infusing DEI concepts into standards of practice and care. 30:58 •    If someone could only listen to the last minute of this episode, what would you want them to take away? 32:16 •    How to contact Michaelson 33:52 •    Thanks for listening 34:23 Jennifer Michaelson, PhD, is chief scientific officer at Cullinan Therapeutics. Michaelson is a biotech executive with 20+ years of industry experience in oncology, immunology, and immune-oncology drug development. We’d love to hear from you! Send your comments/questions to Dr. Jain at [email protected]. Follow Healio on X and LinkedIn: @HemOncToday and https://www.linkedin.com/company/hemonctoday/. Follow Dr. Jain on X: @ShikhaJainMD. Michaelson can be found on LinkedIn or via email [email protected].  Disclosures: Jain and Michaelson report no relevant financial disclosures. 

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