Academic & Course Information: First Year Curriculum

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LABORATORY RESEARCH

A key element of the IGP year is laboratory research, giving students a chance to sample different subject areas and experience the culture of their chosen rotation laboratories. Each rotation is chosen by the student and lasts approximately eight weeks. By May of the IGP year, students will choose a mentor, enter one of the participating departments, and begin their thesis research.

 

Fall Semester

BIOREGULATION I

During the fall semester, students attend one hour lectures three days a week given by expert faculty from the participating departments. This course, Bioregulation I, surveys key biological processes and principles from macromolecular structure and function to cell biology and the regulation of cell growth. Students receive six didactic credit hours for this course.

Our course curriculum undergoes constant updating to reflect cutting-edge scientific understandings. Additionally, each year, feedback is collected and the curriculum is updated to meet the educational needs of students. The course will continue to be based on the most recent literature in the subject fields of the sections of the course. This means that lectures and discussions are heavily dependent on recently-published journal articles.

Bioregulation I Sections

Biostatistics
Macromolecular Structure and Function
Genetics
Gene Expression
Cell Biology
Signaling
Cell Cycle and Chromosome Dynamics

 

FOCUS

All first year IGP students take a 2-credit course entitled FOCUS (Facilitating Open Communication to Understand Science). FOCUS sessions cover research papers that complement the didactic portion of the fall semester of Bioregulation. They serve as a teaching tool to understand how science is done, the basics behind key experimental methods, authorship issues, publication practices, and Responsible Conduct in Research. One of the key objectives in the first year graduate program is for our students to become proficient in reading and critically analyzing the primary scientific literature. As a method for instruction in developing these skills, students in the Bioregulation course are divided into small groups each with a faculty, postdoc and graduate student leaders to facilitate discussion of seminal papers in the field of biomedical sciences. Discussions are centered around identifying the central hypothesis being tested, various experimental methods and technologies used, key experimental controls, analyzing the authors’ interpretations of the data, and using this discussion as a springboard to identify future directions. 

IMPACT

Students are organized into small groups for mentoring during the first year.  IMPACT (Intensive Mentoring Program to Accelerate Career Transitions) program is designed to give students and faculty the opportunity to interact in a small setting to discuss personal development and other intangibles of graduate school. Groups are comprised of 8-10 students and 1 faculty mentor. Discussion topics range from students concerns during the first year, managing coursework, and effective student-faculty communication, to funding and careers in the biomedical sciences. Students meet with their IMPACT mentors weekly.

 

Spring Semester

BIOREGULATION II

In the spring session of the Bioregulation course, students tailor their coursework to their individual research interests. IGP students take a total of eight didactic hours of coursework in the spring. The eight hours are acquired by combining a variable number of the Bioregulation mini-elective modules (each worth one credit hour and lasting approximately five weeks) and a minimum of two hours of a departmental elective. Students are required to take one Quantitative module, and it is recommended that they take a second Quantitative module if their schedule permits. These modules can also be audited by older students seeking additional/introductory information as their projects develop.

Bioregulation Mini-Elective Modules

DNA Structure and Topology

Getting Hooked: The Biology of Addiction

Introduction to Translational Research

Advanced Membrane Protein Biology: Molecule to Disease

Immunobiology

Introduction to Structural Biology

Model Systems for Biomedical Research

Genetics of Neurodevelopmental Disorders

Protein-protein interactions make cells go round

Measuring Blood Flow and Metabolism using In Vivo Imaging

Molecular Basis of Microbial Pathogenesis

Studies in Ocular Genomics

Practical Bioinformatics

Applied Bioinformatics

The RNA World

Introduction to Metabolism

Lipid Metabolism in Physiology and Disease

Receptor Theory and Enzyme Kinetics

Quantitative Systems Biology

Cell Motility

Intracellular Trafficking

 

ELECTIVES

In the spring semester, students take elective courses as they begin to extend their knowledge into a specialty area of interest. These electives typically fulfill required credit hours in the program that the student will join after their IGP year. For a current listing of courses offered by each program, visit the program websites.

 

Other First Year Requirements

RESPONSIBLE CONDUCT OF RESEARCH

In August, students in the IGP attend a session where they have an introduction to “Responsible Conduct of Research.” In May, students in the IGP attend a one-day Responsible Conduct of Research workshop.  The workshop is designed to help scientists identify and deal with ethical issues and dilemmas. Formal lectures, small group discussions and study analyses address topics such as institutional and NIH policies regarding scientific misconduct and conflicts of interest, ethical use of human and animal subjects in research, and data management and intellectual property.

 

After the first year

After the first year of graduate training with the IGP program students will join their dissertation lab and select one of our eleven participating training programs to continue their graduate education. Each of these programs may have additional requirements for the second year training, including course work. Each program also has their own requirements for their qualifying exam. Most programs require students to have a written plan for their thesis project in the style of a grant proposal and to pass an oral exam based on this proposal. For most programs, all required coursework and exams will be completed by the end of the second year of graduate studies. For program-specific information, visit the program websites.