The MS in Biotechnology program was created to respond to regional and national needs for a stronger scientific workforce by preparing our students with the biotechnology expertise and professional skills they need to be immediately productive in industrial, governmental, and clinical settings.
Northeastern’s MS in Biotechnology is an innovative, non-thesis graduate degree program. The curriculum of this Professional Science Master’s combines advanced interdisciplinary training in biology, chemistry, chemical engineering, and pharmaceutical science with the development of high-value business skills critical to success in today’s dynamic workplace. Graduates are prepared to innovate, collaborate, and lead as research, managerial, or technical professionals in a wide range of biotechnology specialties. The program is taught by respected faculty who are also senior leaders in their fields. They bring extensive experience, first-hand knowledge of industry trends, and assure that the curriculum is rigorous, current, and relevant.
Students choose from concentrations in which core courses are combined with specialization and elective study. All concentrations feature a co-op work experience with an industry, academic or government employer. All concentrations except the biotechnology enterprise concentration include a hands-on lab experience and opportunities to take part in independent work in research labs. The following concentrations are available on our Boston campus:
The molecular biotechnology concentration provides students with didactic and practical knowledge in molecular biotechnology, protein expression, and structural biology. Students learn how to generate and optimize molecular forms used to express recombinant proteins to be used as biopharmaceuticals. Particular attention is paid to cutting-edge technologies such as RNAi and CRISPR/CAS9. In addition, the students learn how to purify biopharmaceuticals and analyze aggregation and how to prevent it.
The process development concentration focuses on the production of drug substance of biopharmaceuticals from cell culture process to purification of the biologic molecules. The students learn the principles of development and implementation of biological manufacturing processes through the integration of concepts and fundamentals of engineering and life sciences. The concentration addresses biochemical engineering, mammalian cell culture process development and protein purification. The learning of the students is reinforced by both lecture courses and project-driven laboratory experience that provides hands-on learning of cell culture and protein separation.
The manufacturing and quality operations concentration trains students to ensure the production of quality medicines. Students will improve their competency and learn new practical skills, enabling them to increase productivity in various sectors of biotechnology—including basic research of biological systems, discovery, development, and manufacturing of biopharmaceuticals.
The biopharmaceutical analytical sciences concentration focuses on structures and activities of biological molecules and their variants formed during the production of biopharmaceuticals. Students learn the diversity of molecular forms derived from the biological products through various biological and chemical mechanisms, and the impact of these structural changes on the safety and efficacy of these biopharmaceuticals. The students learn the science and practice applied in the biotechnology industry to analyze and characterize these molecular forms. This is accomplished through both lecture courses of the analytical sciences and project-driven laboratory experience that utilizes analytical techniques such as mass spectroscopy and molecular separations.
The pharmaceutical technologies concentration focuses on the conversion of purified proteins to biopharmaceutical drug products that are compatible for clinical use. This concentration addresses the design of the product formulation, and the development and implementation of the drug product manufacturing processes. Students learn the sciences of the interactions of the biologic molecules in the process conditions and the relevant process technology, such as aseptic operations and freeze-drying, needed for drug product manufacturing. This is accomplished through both lecture courses and project-driven laboratory experience that provides hands-on learning of formulation design and drug product process development.
The scientific information management concentration focuses on the collection, analysis, and visualization of scientific data. This concentration addresses the issues surrounding big data that face industry today. Students learn how to manage, store, visualize, and provide overall analysis of large scientific data sets. This is accomplished through both lecture courses and project-driven laboratory experience that provide hands-on learning of the impacts of data on the scientific process.
The regulatory science concentration focuses on the science behind good regulatory practice today. This concentration addresses the issues surrounding current and innovative science practices that influence regulatory decisions. Students learn the science behind compliance. This is accomplished through both lecture courses and project-driven laboratory experience that provides hands-on learning of the science behind dossier analysis.
The biotechnology enterprise concentration integrates business and management skills with the science of biotechnology. Students learn the fundamental concepts of leadership, entrepreneurship and innovation, financial decision making and marketing. They gain teamwork, management, and business development skills in the process and graduate prepared to become scientist-managers. Some of the specialization courses for this concentration are offered only online.
- Seven available concentrations
- Industry aligned faculty
- Opportunities to participate in hands-on lab experience
- Co-op real world work experience with a leading industry, academic, or government employer
The multi-billion dollar biotechnology industry is diverse, growing, and filled with opportunity. Individuals with advanced scientific knowledge, intellectual flexibility, drive, and professional skills can pursue paths of innovation with the potential to meet critical healthcare and environmental challenges—and to change lives. The industry’s unparalleled growth is projected to continue in the coming years. The result is an ongoing expansion of career opportunities on every level and in every industry sector, from large pharmaceutical operations to entrepreneurial biotechnology start-ups.
Vasudev J., Program Graduate
Greg Zarbis-Papastoitsis, Lecturer
Dr. Jared Auclair, Academic Director, Biotechnology
- Online application
- Application fee
- Unofficial transcripts for all institutions attended
(Official transcripts required upon acceptance of admission offer)
- Personal statement
- Three letters of recommendation
- Official TOEFL, IELTS or PTE scores for Non-Native English speaking applicants (English language requirement waived for international applicants that hold an undergraduate or graduate degree from a US institution)
Find admissions deadlines here.
Choose electives from the list and/or one-credit BUSN graduate level courses. Electives not on this list may be chosen with faculty advisor approval.
Choose one from the following:
Electives (6 s.h.)
Electives (6 s.h.)
Choose one of the following courses
Electives (5 s.h.)
Electives (5 s.h.)
Electives (5 s.h.)
Electives (3 s.h.)
Complete one of the following courses:
Students in the MS in Biotechnology program gain real-world knowledge, awareness, perspective, and confidence during a three- to six-month graduate co-op in industry, academia, or government. As the recognized leader in experiential learning and a trusted source of high-caliber students, Northeastern boasts a network of more than 3,000 public and private sector co-op locations on seven continents. Recent biotechnology co-op placements have included Biogen Idec, EMD Serono/Millipore, Harvard Medical School, Medimmune, Momenta Pharmaceuticals, New England Biolabs, Regeneron, Novartis, and Genzyme, among others.
Our faculty represents a wide cross-section of professional practices and in fields ranging from finance to education to biomedical science to management to the U.S. military. They serve as mentors and advisors, and collaborate alongside students to solve the most pressing global challenges facing established and emerging markets.
By enrolling in Northeastern, you gain access to a network of more than 245,000 alumni and 3,200+ employer partners, including Fortune 500 companies, government agencies, and global NGOs. Our current students and faculty across strategically located regional campuses further foster that lifelong global community of learning and mentoring.
Below is a look at where our Science & Mathematics alumni work, the positions they hold, and the skills they bring to their organization.
Where They Work
- State Street
- Liberty Mutual Insurance
What They Do
- Business Development
- Information Technology
What They're Skilled At
- Project Management
- Data Analysis
Learn more about Northeastern Alumni on Linkedin.