Biomedical Science, M.S.

Program Director: Meredith Yeager, Ph.D.; yeager@hood.edu

The Master of Science degree in Biomedical Science is a 33-credit program of graduate research and academic study developed for:

  • Persons holding a bachelor’s degree and currently employed in a biomedical or biotechnological research establishment who are seeking additional academic background as part of a career and professional growth program;
  • Teachers and other professionals with interests in biomedical science who wish to obtain a graduate degree; and
  • Professionals already holding advanced degrees who desire to update or extend their previous academic experiences in biomedical or biotechnological sciences.

The courses are taught in the evenings, thus, the program offers an alternative to conventional graduate education for those who work full time.

Application Requirements

Applicants will be accepted into the program based on selection criteria that include undergraduate coursework, grade point average, area of research interest and experience. Relevance of the undergraduate degree is considered. Priority is given to students who majored in biology, biochemistry or chemistry. Undergraduate coursework required includes completion of the following with a grade of B or better: microbiology, organic chemistry, upper level genetics (equivalent to Hood's BIOL 316), and cell biology (equivalent to Hood's BIOL 339). All official transcripts must be submitted. In addition, an essay that discusses the student’s work experience and future goals is required.

For additional admission information, see Graduate Admission.

The program in biomedical science is administered within the Department of Biology by the director of the Biomedical Science Program, assisted by an Advisory Council and Faculty for Biomedical Science.

4PLUS Dual Degree

Students majoring in Biology or Biochemistry may during their junior year apply to the BMS program for dual degree status. If accepted in the program, students may take some of the required and elective courses at the 400 level as undergraduates and not repeat them during the graduate degree phase. In the senior year the student may pursue research for the undergraduate capstone requirement and pursue more in depth research for the Master’s thesis. A student in dual degree status may apply 9 credits of 500-level BMS courses toward both undergraduate and graduate degrees with prior approval.

 

 

Program Requirements

Foundation Course

The foundation course provides background knowledge and skills necessary for the completion of the degree requirements.  Students admitted to the BMS program that do not meet all of the academic requirements for admission to the program will be required to take this course in addition to the 33 credits required for program completion. Students who are waived from foundation  coursework cannot complete it for elective fulfillment. 

BMS 501/BIFX 501Foundations in Life Sciences

3.0

Core Courses (all concentrations)

The core courses provide a foundation for electives in either curricular concentration: Biotechnology/Molecular Biology or Microbiology/Immunology/Virology
BMS 511/BIOL 411Protein Biochemistry

3.0

BMS 523Cell Structure & Function

3.0

BMS 524/BIOL 424Molecular Biology of Eukaryotic Cells

3.0

BMS 537/BIOL 437Introduction to Bioinformatics

3.0

Curricular Concentrations

Students are encouraged to select elective courses within a concentration. The curricular concentrations are the faculty’s suggestions to help ensure a cohesive program of coursework. However, students, in consultation with their academic advisers, may select a combination of elective courses individualized to their own needs and interests.

Concentration in Biotechnology/Molecular Biology

BMS 505Biostatistics

3.0

BMS 512/BIOL 412Biochemistry of Intermediary Metabolism

3.0

BMS 520Protein Purification and Characterization

3.0

BMS 525/BIOL 425Virology

3.0

BMS 528/BIOL 428Immunology

3.0

BMS 529Oncology Drug Discovery

3.0

BMS 534/BIOL 434Basic Principles & Methods in Molecular Genetics

3.0

BMS 535Methods of Molecular Research

3.0

BMS 539Molecular Immunology

3.0

BMS 540Advanced Topics in Recombinant DNA Technology: Genome Analysis & Mapping

3.0

BMS 541Advanced Topics in Recombinant DNA Technology: Gene Structure & Function

3.0

BMS 542Ethics in Science

3.0

BMS 552Biomedical Literature Review

3.0

BMS 575Independent Study

1.0 - 3.0

BMS 590Advanced Topics in Biomedical Techniques

3.0

BMS 597Internship

1.0-3.0

Concentration in Microbiology/Immunology/Virology

BMS 505Biostatistics

3.0

BMS 512/BIOL 412Biochemistry of Intermediary Metabolism

3.0

BMS 525/BIOL 425Virology

3.0

BMS 527Pathogenic Microbiology

3.0

BMS 528/BIOL 428Immunology

3.0

BMS 529Oncology Drug Discovery

3.0

BMS 533Medical Virology

3.0

BMS 539Molecular Immunology

3.0

BMS 541Advanced Topics in Recombinant DNA Technology: Gene Structure & Function

3.0

BMS 542Ethics in Science

3.0

BMS 543Advanced Immunology

3.0

BMS 552Biomedical Literature Review

3.0

BMS 575Independent Study

1.0 - 3.0

BMS 590Advanced Topics in Biomedical Techniques

3.0

BMS 597Internship

1.0-3.0

Thesis Track Requirements

Four core courses

12.0

Five elective courses

15.0

BMS 580ABiomedical Science Thesis A

3.0

BMS 580BBiomedical Science Thesis B

3.0

BMS 580 (A and B): under the direction of a thesis adviser and a reading committee (3 credits for each section; 6 total thesis credits).

An oral defense of the thesis is required.

The following courses are labs: BMS 520, BMS 527, BMS 534, BMS 535, BMS 539, BMS 541

Non-thesis Track Requirements

Four core courses

12.0

Six elective courses, three of which must be laboratory lecture courses

18.0

BMS 571Biomedical Science Seminar

3.0

The following courses are labs: BMS 520, BMS 527, BMS 534, BMS 535, BMS 539, BMS 541