Guidelines for QBMI Interdisciplinary PhD Programs

between Biochemistry/Biology and the Physical/Mathematical/Computational Sciences

Motivation

The QBMI interdisciplinary Ph.D. programs are designed to promote more effective, synergistic interactions across the Computer Science/Physics/Math/ Chemistry/Biology interfaces, and at the same time to train a new breed of student who can really speak two languages, understand two cultures, and therefore catalyze these interactions. To fill this need, we offer interdisciplinary Ph.D. training programs between Biochemistry and Physics & Astronomy; Biochemistry and Chemistry and Biochemistry and Computer Science & Engineering. Interdisciplinary Ph.D.degrees between Mathematics and Biochemistry are approved on a case-by-case basis, and a program between Biochemistry and Chemical Engineering is being developed; please contact Guowei Wei regarding the Mathematics program or Christina Chan regarding the Chemical Engineering program. For each student, the program centers on an interdisciplinary research project with a primary advisor in the student's major department and a secondary advisor in the second department. We have designed the following guidelines to cover such departmental pairings. This training program attracts exceptional students and provides training that enables them to become innovative scientists who are competitive in the modern job market.

Program Outline

Under current university guidelines, research-based graduate degrees can be designed across disciplines/graduate programs, with the concurrence of the graduate programs involved (see “Dual Major Doctoral Degrees” in the MSU Academic Programs Guide, which is included at the end of this webpage). The template for interdisciplinary graduate degrees we have developed and implemented (between Biochemistry and Physics & Astronomy; Biochemistry and Chemistry; and Biochemistry and Computer Science & Engineering) involves two departments (Biochemistry or another biological science, and a physical/mathematical/computational science) with one being the student's primary affiliation (and home of the principal advisor), and the other a secondary affiliation (home of a secondary advisor or collaborator). Admission requirements to graduate school are those of the primary department. The student's coursework is split 60%:40% between the primary and secondary departments, with no more than 125% of the typical course load of a single Ph.D. degree being required for the interdisciplinary degree. The degree is called, for example, a Ph.D. in “Biochemistry and Physics”, when the primary affiliation for the Ph.D. is Biochemistry and the secondary affiliation is Physics. Obligations for teaching are met in the primary department. Comprehensive (preliminary) exams are also arranged according to the guidelines of the primary department, and must meet the standards of a guidance committee that includes members from both departments, with ~60% members from the primary department and ~40% members from the secondary department. A project-based preliminary exam like the one in Biochemistry is ideally suited for this. If a student decides to leave the interdisciplinary degree program, he/she can revert to the requirements of his primary affiliation. A student can be admitted as an interdisciplinary degree student with concurrence of the two departments, but currently it is typical that he/she is admitted into the primary program then arranges the secondary affiliation upon choice of a research project.

How to Pursue an Interdisciplinary Ph.D. Project

The central aspect of an interdisciplinary Ph.D. is working on a research project between two disciplines with a mentor in both the primary and secondary departments. The most straightforward way to embark on this is by considering as potential advisors professors who have ongoing interdisciplinary collaborations in which you could participate. You can learn about such collaborations both through departmental graduate student orientations and by reading the faculty research profiles on the departmental and QBMI web pages. The QBMI office will be happy to point you to collaborative efforts in your areas of interest, as well. Doing research rotations and/or independent study with these professors is a valuable opportunity to assess the goodness of fit of the project and mentors for you. The interdisciplinary Ph.D. programs are relatively new and may not be familiar to your professors, so please discuss your interests in pursuing such a degree, and provide them with a copy of these guidelines. We would be happy to help with any questions – just contact QBMI@msu.edu.

Course Requirements

Consider the following as a sample template for an interdisciplinary Ph.D. program in which Biochemistry is either the primary or secondary department, and replace as needed by the relevant information for the departments of interest.

A typical course plan for a traditional Biochemistry Ph.D. student is BCH 801 (3 cr), 802 (3 cr), 803 (2 cr), 821 (3 cr), 829 (2 cr), 978 (1 cr, taken for approximately 3 cr total), and NSC830 (1 cr), with additional courses as advised by the guidance committee to complement the student’s research. The following interdisciplinary coursework requirements are based upon requiring no more than 125% of this 17-credit traditional plan and reflect the 60%:40% coursework ratio desired for interdisciplinary Ph.D. training.

· When Biochemistry is the primary affiliation: At least four graduate courses will be taken in Biochemistry, usually at the 800 or 900 level, totaling 12 (or more) credits. Rotation requirements are flexible, especially if the student decides on a joint program at the outset, and teaching responsibilities are the same as for a traditional Biochemistry Ph.D. student. At least three courses (9 or more credits) will be taken in the secondary area, e.g., Physics, with at least two of the courses at the graduate level.

· When Biochemistry is the secondary affiliation: At least three courses (9 or more credits) of Biochemistry coursework, with at least two of the courses at the graduate (800 or 900) level. Rotations and teaching responsibilities will be determined by the primary department, in accordance with the Program Outline above.

Expected Outcomes

We expect tThis pProgram to will make MSU more competitive for funding from NIH and NSF in their new thrust areas of quantitative biology and interdisciplinary training, and to will attract and train students (and faculty) that will to function effectively in the interdisciplinary research and development environments. of the future.

 

University Guidelines on Pursuing Interdisciplinary Ph.D. Degrees

Dual Major Doctoral Degrees

All dual major doctoral degrees must be approved by the Dean of The Graduate School. A request for the dual major degree must be submitted within one semester following its development and within the first two years of the student’s enrollment at MSU. A copy of the guidance committee report must be attached. The following conditions must prevail:

1.     The intent to receive the degree in two areas must be outlined in the guidance committee report.

2.     The content of the guidance committee report must reflect the required standards for both departments.

3.     The course work must be satisfactory to both departments.

4.     The comprehensive examination must be passed to the satisfaction of both departments.

5.     A guidance committee including members from both departments must be satisfied that the dissertation represents a contribution meeting the usual standards in both areas.