Academics 
Molecular and Cell
Biology
Molecular and Cell Biology
Programs of Study
Cell biologists are interested in a broad range of problems relating to the structure and activities of microbial, plant, and animal cells. Among the many problems of fundamental importance investigated by cell biologists are: how cells respond to external stimuli, such as hormones; cell motility; secretion and uptake of substances; how cancer cells differ from normal cells; the assembly of cellular elements; cell-cell interactions; and the fine structure of cells. The experimental approaches include microscopy (electron and optical), molecular genetics, biochemistry, and biophysics. Cell culture techniques are an important aspect of research in cell biology. Yeast, insect, avian, plant, and mammalian cells are under active study at Cornell. Faculty in several units are carrying out research in cell biology. These faculty are distributed among several departments in the Colleges of Arts and Sciences, Agriculture and Life Sciences, and Veterinary Medicine.
Students interested in the molecular and cell biology Program of Study should enroll in the more rigorous courses in physical sciences and be well prepared in mathematics. Genetics and biochemistry are of prime importance in cell biology. In fact, there is no sharp division between biochemistry, genetics, and cell biology. Cell biology may be considered as the application of biochemical and genetic approaches to the solution of problems at the cellular level.
The molecular and cell biology Program of Study requires coursework in quantitative chemistry, a cell biology survey course, an extensive laboratory course in cell biology or biochemistry, and at least seven credits chosen from a list of advanced courses ranging from aspects of development through plant anatomy. Students are also encouraged to gain an appreciation for experimental cell biology by carrying out independent research projects. Although it is not required, students are also encouraged to take a physical chemistry course sequence.
Cell biology is a dynamic field. Students graduating with a Program of Study in molecular and cell biology at Cornell usually continue their education in graduate, medical, or veterinary schools. The demand for research scientists interested in cell biology is high, not only in academic institutions but also in industrial and government laboratories as well. Technical positions for bachelor's-level graduates are also prevalent.
Required Classes for Program of Study in Molecular and Cell Biology:
2007-2008 Course Descriptions
Spring 2008 Room and Time Rosters
Department Website
- CHEM 3570-3580 or 3590-3600
- BIOBM 4320, Survey of Cell Biology
- BIOBM 4400, Laboratory in Biochemistry and Molecular Biology --or-- BIONB 4300, Experimental Molecular Neurobiology
- At least 7 additional credits of courses that have a cell biological or molecular biological orientation.
The 7 additional hours should include at least two courses from the following list:
- BIOAP 4160, Cellular Physiology and Genomics Laboratory
- BIOBM 4340, Applications of Molecular Biology
- BIOBM 4350-4360, Undergraduate Seminar in Biochemistry
- BIOBM 4370, Regulation of Cell Proliferation, Senescence, and Death
- BIOBM 4390, Molecular Basis of Human Disease
- BIOG 3050, Immunology Basic Lectures
- BIOGD 3850, Developmental Biology
- BIOGD 4000 A Genomics Approach to Studying Life
- BIOBM 4010, Genomic Analysis
- BIOGD 4610, Development and Evolution
- BIOGD 4840, Molecular Evolution
- BIOGD 4860, Advanced Eukaryotic Genetics
- BIOGD 4870, Human Genomics
- BIOGD 4900 Manipulating the Mouse Genome
- BIOMI 4090, Principals of Virology
- BIOMI 4200, Microbial Genomics
- BIOMI 4850, Bacterial Genetics
- BIONB 4250, Molecular Neurophysiology
- BIONB 4950, Molecular and Genetic Approaches to Neurosciences
- BIOPL 3430, Molecular Biology and Genetic Engineering of Plants
- BIOPL 3470, Laboratory in Molecular Biology and Genetic Engineering of Plants
- BIOPL 4440, Plant Cell Biology
The following graduate-level courses are also acceptable with permission of adviser:
- BIOBM 6310, Protein Structure and Function
- BIOBM 6330, Biosynthesis of Macromolecules
- BIOBM 6360, Functional Organization of Eukaryotic Cells
- BIOBM 6390, The Nucleus
Five hours of Biochemistry are recommended (BIOBM 3310 and 3320, or 3300 and 3340, or 3330 and 3340). CHEM 2070-2080 or 2150-2160 should be completed in the freshman year.
