Courses

Students in the program take two formal courses, threeÌýcredits each, of which one must be BCHM 5801. Additional electives listed are of particular interest to students in the SCR training program.

BCHM 5801 (3 credits):ÌýAdvanced Topics in Signaling Transduction and Cellular RegulationÌý

Lecture and discussion of current research in signal transduction, emphasizing molecular biology, biochemistry, and genetics. Topics include receptors and signaling pathways, control of transcription, DNA replication, epigenetics,Ìýdevelopment, and cell cycle progression.

Responsible Conduct of Research (1 credit):

BCHM 5776: All Biochemistry graduate students take RCR/BCHM 5776 in Fall semester of year 1, taught by the instructors in CORE.

GRAD 5000: All MCDB graduate students take RCR/GRAD 5000 in Fall semester of year 2, taught by Instructor Dr. Mary Allen and faculty discussion leaders.

All SCR students are required to complete refresher training after four years, which can be fulfilled by a 2-dayÌýRCR Refresher Training Course, which is offered most spring semesters. Alternatively, refresher training can be fulfilled by retaking BCHM 5776 or GRAD 5000.

BCHM 5821 (1 credit): Special Topics in Signaling and Cell Regulation

Journal club for review of literature in signal transduction, transcription, cell cycle progression, and cell differentiation. Students are required to take two semesters of this course.

BCHM 5631Ìý(3 credits): Statistical and Computational Analysis of the Human Genome

This lab course covers fundamental statistical and computational approaches to large scale data. Students will use the unix command line to browse publicly available genome data, learn how to apply statistical analysis to different data types,Ìýand use these skills to investigate regions of interest in the human genome.

BCHM 5771 (5 credits):ÌýAdvanced General Biochemistry 1Ìý(Biochemistry CORE)

Lecture and discussion on fundamentals of protein and nucleic acid structure, purification, folding, thermodynamics and biophysical methods for measurementÌý(Elective for MCDB majors).

BCHM 5781Ìý(5 credits): Advanced General Biochemistry 2 (Biochemistry CORE)

Lecture and discussion of cellular regulation, including transcription, replication, chromatin structure and modulation, cell cycle regulation, and intercellular communication (Elective for MCDB majors).

MCDB 5210 (3 credits): Cell Structure and FunctionÌý(MCDB CORE)

Lecture and discussion of cellular structure and ultrastructure, methods in microscopy and structure determination, with focus on literature review and critical analysis (Elective for Biochemistry majors).

MCDB 5230 (3 credits): Gene Expression (MCDB CORE)

Lecture and discussion of gene regulation and expression, examined by genetics and molecular, cellular and developmental biology, including DNA structure/function, RNA, regulatory proteins, human genetic diseases and gene therapyÌý(Elective for Biochemistry majors).

MCDB 5312 (3Ìýcredits):ÌýQuantitative Optical Imaging

This classÌýexplores the fundamentals of optical imaging in biology. Covered topics include an introduction to optics and microscopes, fluorescence microscopy, and an introduction to image analysis and coding in MATLAB.

MCDB 5425 (3 credits): Topics in Membrane Biology

An exploration of several of the most exciting topics in and basic biology and biomedicine, including protein folding and stress responses, nutrient sensing and balance, and signal transduction across membranes. Emphasis will be placed upon human physiology andÌýdisease, including Alzheimer's, diabetes, and cardiovascular disease.

MCDB 5520 (3 credits): Bioinformatics and Genomics

A survey in bioinformatic algorithms and technological developments that have enbaled the field of genomics to impact diverse fields of biology, including cell biology, evolution, population genetics, and human disease.

MCDB 5615 (3 credits): Biology of Stem Cells

Course covers the fundamentals of stem cell biology, including properties of stem cells, technology used to identify and study stem cells, current controversies and future directions in stem cell research. Ìý

Short Read Sequencing Summer Workshop

A 9-day summer workshop introducing students to sequencing pipelines, data analysis, quality control, read mapping, and Genome Browser Visualization. The workshop also covers basic data analysis seen with popular sequencing techniques, including ChIP-seq, RNA-seq, ATAC-seq, DNA-seq, and single-cell sequencing.
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Required courses for first-year students:
Biochemistry Students:
Ìý Ìý ÌýBCHM 5771 - Advanced Biochemistry 1
Ìý Ìý ÌýBCHM 5781 - Advanced Biochemistry 2

MCDB Students:
Ìý Ìý ÌýMCDB 5210 - Cell Structure and Function
Ìý Ìý ÌýMCDB 5230 - Gene Expression
Ìý Ìý ÌýMCDB 6440 - Scientific Writing