Traditional Two-Year M.S. Biological Sciences Track
The Master of Science in Biological Sciences is earned through a traditional two-year program, which follows the completion of a bachelor's degree in a biology-related field. During this time, you will conduct original research and prepare a thesis on any of a variety of topics selected in consultation with your faculty advisor, who serves as your research mentor.
At É«ÏãÊÓƵ we empower you with a comprehensive foundation of knowledge in biological concepts, as well as the research experience needed to enter a career in the biological sciences with confidence.
You benefit from our beautiful Biddeford Campus, our cutting-edge facilities, and the opportunity to work closely with faculty. You will also benefit from the opportunity to be part of a larger community of graduate and professional students in other programs in the health and marine sciences.
What Will You Study? M.S. in Biological Sciences Curriculum
Program Required Courses | Credits |
---|---|
BIO 503 – Research Methods | 3 |
BIO 510 – Graduate Seminar | 1 |
Twenty-six (26) credits of BIO 590 – Research & Thesis (repeated for additional credit) | 26+ |
Six (6) credits of 500-level Elective Coursework | 6* |
Minimum Total Required Credits | 36 |
---|
*Biological Sciences M.S. students may request to substitute research credits for coursework with approval from their thesis advisor. A formal written request must be submitted to the Graduate Program Committee (GPC), including a justification for the request. If approved by the GPC, students will submit a Course Substitution Form (available on the Office of the Registrar's webpage), which requires approval by the School of Biological Sciences Academic Director and by the CAS Dean, to the Registrar in preparation for graduation.
M.S. in Biological Sciences Research
As a student in the two-year M.S. program, you engage in research with a faculty mentor.
For the two-year M.S. program, you are required to identify faculty you would like to work with at the time you apply, and are strongly encouraged to contact faculty members directly early on in the process to discuss potential research opportunities.
Descriptions of the research opportunities with faculty supervising M.S. students are listed below. You can click on the faculty member’s name to find additional information and details on how to contact them.
- Kristin Burkholder, Ph.D., Microbiology
- Studies the interaction of bacterial pathogens with their environment and host cells by employing techniques of classical microbiology, molecular biology, cell culture, and microscopy.
- Geoff Ganter, Ph.D., Drosophila Neurogenetics
- Employs genetic, microscopic, and behavior analysis approaches to identify targets for future pain medications.
- Jenn Garcia, Ph.D., Molecular Genetics
- Uses techniques such as northern blotting, next-generation sequencing, immunoblotting, molecular cloning, quantitative PCR, microscopy, and yeast genetics to understand mechanisms that regulate gene expression in response to stress
- Lei Lei, Ph. D., Molecular Biology
- Studies developmental neurobiology and molecular evolution using molecular and bioinformatic tools
- Jeff Parmelee, Ph.D., Herpetology
- Studies amphibian and reptile ecology, including the monitoring of populations through fieldwork and citizen science initiatives
- Ursula Roese, Ph.D., Chemical Ecology
- Investigates chemical interactions between plants, insects, and microorganisms as well as applications that involve testing of plant compounds against human pathogens — using extractions and head space collections, as well as instrumentation to analyze organic compounds, including Gas Chromatography with Flame Ionization Detection (GC-FID) and Mass Spectrometry (GC-MS)
- Steve Travis, Ph.D. Molecular Ecology
- Equipped with a DNA sequencer and related instrumentation suitable for genetic analysis of individual, population, species, and community-level diversity and relationships.
- Greg Zogg, Ph.D. Global Change Ecology
- Studies how human activities impact plants, microbes, and biogeochemical cycles using both field and lab techniques, including measurements of nutrient flux and sequencing of microbial DNA
Research at É«ÏãÊÓƵ: Combating Antibiotic Resistance
Career Paths for M.S. in Biological Sciences Grads
Our master's program graduates have pursued many different careers and doctoral degrees, including:
- Environmental management water resources staff
- Senior research associate
- Research lab manager
- Ph.D. in Education
- Ph.D. in Neuroscience
Publications
One of the benchmarks of graduate-level work is the publication of one’s research in a scientific journal.
Below are examples of papers by our graduates:
- *Barberi ON, Byron CJ, Burkholder KM, St. Gelais AT, Williams AK. 2020. Assessment of bacterial pathogens on edible macroalgae in coastal waters. Journal of Applied Phycology 32(1):683–696.
- Hale C, *Moulton J, Otis Y, Ganter G. 2022. Armadillo regulates nociceptive sensitivity in the absence of injury. Molecular Pain 18:17448069221111156.
- *Simon MR, Zogg GP, Travis SE. 2017. Impacts of sea-level rise on sediment microbial community structure and function in two New England salt marshes, USA. Journal of Soils and Sediments 17(12):2847–2855.
- *Slater MA, Morgan PA, Tilburg CE, Travis SE. 2017. Environmental variables, not Allee effects, drive patch vigor in exotic Phragmites australis stands invading the Saco River Estuary, Maine, USA. Aquatic Botany 136:220–229.
Who can apply to the Master of Science in Biological Sciences degree program?
To apply to our M.S. in Biological Sciences degree program, you must hold a bachelor’s degree from a U.S. regionally accredited institution or international equivalent.
Financial Aid at É«ÏãÊÓƵ
Finance your education through loans, grants, and scholarships. We are committed to making our physician assistant degree program as affordable as possible.
Apply Today
Ready to begin your future in É«ÏãÊÓƵ’s graduate Biological Sciences program?