About the Program

Bachelor of Arts (BA)

The Molecular and Cell Biology: Genetics, Genomics, & Development (GG&D) emphasis focuses on understanding how sequence variation results in the amazing spectrum of life that surrounds us and how genetic and molecular tools can be used to reveal the role of genes in various biological processes. The undergraduate tracks within this emphasis are ideal for students interested in medical, research, and teaching careers.

This major program has two tracks—Track 1: Genetics, Genomics & Development and Track 2: Developmental Genetics. For course information regarding the requirements for each track, please see the Major Requirements tab on this page.

Declaring the Major

MCB is not an impacted major. Therefore, the program will accept any interested student who meets the minimum course and GPA requirements and is realistically able to complete the major requirements during the student's time at UC Berkeley.

In order to declare the MCB major, students must have completed or be enrolled in BIOLOGY 1A/BIOLOGY 1AL (C or better on first midterm) and CHEM 3B (past the early drop deadline), have at least a 2.0 overall GPA, a 2.0 GPA in the lower division prerequisites for the major, and know which emphasis they will declare. (Note: Transfer students must have completed at least one semester at UC Berkeley and have received a 2.0 GPA in the courses that they have taken for the major). Intended MCB students are not required to have completed the math or physics requirement at the time of declaration (though the requirement must be met in order to graduate).

To start the major declaration process, students must fill out the MCB major declaration form online .

The following business day, the student should bring an unofficial transcript to the Undergraduate Advising Office (3060 Valley Life Sciences Building) to discuss their academic plan. When signing in, students should inform the intake adviser that they declared online. Please note that major declarations are limited during the first week of class and the first week of Tele-BEARS Phase 1. Any restrictions will be advertised on the MCB Undergraduate homepage  and in the weekly MCB-News email. 

Honors Program

The MCB honors program offers exceptional senior students recognition for outstanding academic achievement and excellence in research. To graduate with honors in the major, students must satisfy the following:

1. Complete at least two credited semesters of research including 4 to 8 units of MCELLBI H196A and/or MCELLBI H196B (Honors Research).
2. Have a cumulative Berkeley grade point average (GPA) of at least 3.3 in all work completed at UC Berkeley.
3. Have at least a 3.5 GPA in the MCB major requirements or 3.5 GPA in MCB upper division courses.
4. Present their research in an approved forum, such as an MCB symposium, the Undergraduate Poster Session, or other scientific meeting.
5. Write an honors thesis approved by an MCB faculty sponsor.

Additional information on the honors program is available in the Undergraduate Affairs Office and on the MCB website .

Minor Program

There is no minor program in Molecular and Cell Biology.

Other Molecular and Cell Biology Majors (Emphases)

Biochemistry and Molecular Biology  (BMB)
Cell and Developmental Biology  (CDB)
Immunology & Pathogenesis  (IM&P)
Neurobiology  (NEU)

Visit Department Website

Major Requirements

In addition to the University, campus, and college requirements, listed on the College Requirements tab, students must fulfill the below requirements specific to their major program.

General Guidelines

1. All courses taken to fulfill the major requirements below must be taken for letter graded credit.
2. No more than one upper division course may be used to simultaneously fulfill requirements for a student's major and minor programs, with the exception of minors offered outside of the College of Letters & Science. Double majors and simultaneous degrees are limited to a two course overlap. 
3. Students must maintain a minimum grade point average (GPA) of at least a 2.0 GPA overall, a 2.0 GPA in the required major coursework (lower and upper division), and a 2.0 GPA in the upper division coursework for the major.

For information regarding residence requirements and unit requirements, please see the College Requirements tab.

Lower Division Requirements: All Tracks

Upper Division Requirements: Genetics, Genomics & Development Track

Upper Division Requirements: Developmental Genetics Track

GGD Elective A List

GGD Elective B List

College Requirements

Undergraduate students in the College of Letters & Science must fulfill the following requirements in addition to those required by their major program.

For detailed lists of courses that fulfill college requirements, please see the College of Letters & Sciences  page in this Guide.

Entry Level Writing

All students who will enter the University of California as freshmen must demonstrate their command of the English language by fulfilling the Entry Level Writing requirement. Fulfillment of this requirement is also a prerequisite to enrollment in all reading and composition courses at UC Berkeley. 

American History and American Institutions

The American History and Institutions requirements are based on the principle that a US resident graduated from an American university should have an understanding of the history and governmental institutions of the United States.

American Cultures

American Cultures is the one requirement that all undergraduate students at Cal need to take and pass in order to graduate. The requirement offers an exciting intellectual environment centered on the study of race, ethnicity and culture of the United States. AC courses offer students opportunities to be part of research-led, highly accomplished teaching environments, grappling with the complexity of American Culture.

Quantitative Reasoning

The Quantitative Reasoning requirement is designed to ensure that students graduate with basic understanding and competency in math, statistics, or computer science. The requirement may be satisfied by exam or by taking an approved course.

Foreign Language

The Foreign Language requirement may be satisfied by demonstrating proficiency in reading comprehension, writing, and conversation in a foreign language equivalent to the second semester college level, either by passing an exam or by completing approved course work.

Reading and Composition

In order to provide a solid foundation in reading, writing and critical thinking the College requires two semesters of lower division work in composition. Students must complete a first-level reading and composition course by the end of their second semester and a second-level course by the end of their fourth semester.

Breadth Requirements

The undergraduate breadth requirements provide Berkeley students with a rich and varied educational experience outside of their major program. As the foundation of a liberal arts education, breadth courses give students a view into the intellectual life of the University while introducing them to a multitude of perspectives and approaches to research and scholarship. Engaging students in new disciplines and with peers from other majors, the breadth experience strengthens interdisciplinary connections and context that prepares Berkeley graduates to understand and solve the complex issues of their day.

Unit Requirements

• 120 total units, including at least 60 L&S units

• Of the 120 units, 36 must be upper division units

• Of the 36 upper division units, 6 must be taken in courses offered outside your major department

Residence Requirements

For units to be considered in "residence," you must be registered in courses on the Berkeley campus as a student in the College of Letters & Science. Most students automatically fulfill the residence requirement by attending classes here for four years. In general, there is no need to be concerned about this requirement, unless you go abroad for a semester or year or want to take courses at another institution or through University Extension during your senior year. In these cases, you should make an appointment to see an adviser to determine how you can meet the Senior Residence Requirement.

Note: Courses taken through UC Extension do not count toward residence.

Senior Residence Requirement

After you become a senior (with 90 semester units earned toward your BA degree), you must complete at least 24 of the remaining 30 units in residence in at least two semesters. To count as residence, a semester must consist of at least 6 passed units. Intercampus Visitor, EAP, and UC Berkeley-Washington Program (UCDC) units are excluded.

You may use a Berkeley summer session to satisfy one semester of the Senior Residence requirement, provided that you successfully complete 6 units of course work in the Summer Session and that you have been enrolled previously in the college.

Modified Senior Residence Requirement

Participants in the UC Education Abroad Program (EAP) or the UC Berkeley Washington Program (UCDC) may meet a Modified Senior Residence requirement by completing 24 (excluding EAP) of their final 60 semester units in residence. At least 12 of these 24 units must be completed after you have completed 90 units.

Upper Division Residence Requirement

You must complete in residence a minimum of 18 units of upper division courses (excluding EAP units), 12 of which must satisfy the requirements for your major.

Plan of Study

The sample plans below show a four-year plan for completing the major, taking classes only during fall and spring semesters. All of the lower division classes are offered during the summer as well. Please consult the sample plan appropriate to your track.

Please note that the sample plans below include only courses required for your major. For more detailed information regarding other requirements, including unit minimums per semester, Letters & Science Breadth requirements, Reading and Composition (R&C), and the American Cultures (AC) requirements, please see the College Requirements tab.

Example Track 1: Genetics, Genomics, and Development

Program beginning in the fall semester of freshman year.

Example Track 2: Developmental Genetics

Program beginning in the fall semester of freshman year. 

Sample Program Plan, Spring Start

Example of program beginning in the spring semester of freshman year (e.g., FPF or Global Edge).

Sample Program Plan, Transfers

Example of program plan for students planning to transfer to Berkeley after completing all the lower division requirements.

Student Learning Goals

Mission

The Department of Molecular and Cell Biology (MCB) is a large department that is subdivided into five divisions: Biochemistry, Biophysics, and Structural Biology (BBS); Cell and Developmental Biology (CDB); Genetics, Genomics and Development (GGD); Immunology and Pathogenesis (IMMP); and Neurobiology (NEU). All MCB students complete the same lower division coursework to gain critical training in biology, mathematics, chemistry, and physics. All or most lower division coursework is completed before major declaration. Upon declaring the major, MCB students choose an emphasis, or specialization, which determines the upper division core courses they will take and elective choices from which they will choose. Students can choose among several areas of specialization; emphases are broadly defined along divisional lines and allow students to focus on a more defined topic within MCB. MCB students who elect to participate in independent research may choose from sponsoring research laboratories within any MCB division, or, upon approval, in laboratories outside the department (other Berkeley departments, LBNL, CHORI, UCSF, biotechnology companies). The MCB major provides excellent preparation for many careers and postbaccalaureate training programs, including graduate programs and heath-related professional programs (e.g., medicine, dentistry, optometry, pharmacy), science writing, law school, biotechnology, teaching, and academic research.

Learning Goals for the Major

1. Describe basic biological concepts and principles.
2. Appreciate the different levels of biological organization, from molecules to ecosystems.
3. Understand that biology has a chemical, physical, and mathematical basis.
4. Explain the importance of the scientific method to understanding natural phenomena.
5. Effectively communicate scientific data and ideas, both orally and in writing.
6. Critically evaluate data, develop a hypothesis, and design experiments to address an interesting and novel problem.
7. Demonstrate advanced knowledge in a specialized field of molecular and cell biology.

Advising

MCB offers three types of undergraduate advising: staff advisers, faculty advisers, and peer advisers.

Staff Advisers

Staff academic advisers are trained to support students and assist them in successfully completing their MCB major. They are excellent resources for questions concerning administration and academics, or finding out about other available services. Students should see a staff adviser for the following:

• Ask questions about major requirements.
• Ask advice about schedule planning.
• Declare the MCB major.
• Consult about research opportunities, graduate and professional schools, career opportunities, scholarships, and internships.
• Get their Adviser Code (AC) to access Tele-BEARS registration.
• Get information and course control numbers (CCN's) for independent research.
• Request general assistance, advice or information.
• Find out about upcoming events and programs.

Staff advisers are primarily available for drop-in advising, though limited appointments are available for more complex issues such as probation, academic difficulty and readmission. Students who would like to schedule an appointment should call 510-643-8895 during drop-in advising hours.

The general email address is mcbuao@berkeley.edu  which is checked daily, Monday through Friday, so students will receive an answer to questions within one business day.

Faculty Advisers

Faculty advisers are MCB professors assigned to advise students about the MCB Department, its courses, research, and other academic issues. Students are assigned a faculty adviser when they declare an MCB major. Students should see their faculty advisers for the following:

• Receive guidance toward achieving academic and career goals.
• Ask questions about the content of MCB courses.
• Request exceptions to MCB major requirements and policies (obtain their signature on MCB Substitution Form).
• Ask questions about biological research and about the field of biology in general.
• Ask for recommendations on which graduate schools to attend.
• Get their signature on the Curriculum Planning Form, after speaking with a UAO staff adviser first.

For a list of advisers and their office hours, please see the department's website . Office hours listed are designated for drop-in advising unless otherwise noted. Faculty adviser office hours are effective from the first day of instruction until the final day of instruction for the fall and spring semesters. Faculty advisers are not available for office hours during winter or summer break. Students may refer to staff drop-in advising hours during summer sessions and non-instructional periods.

Peer Adviser Walk-in Services (PAWS)

Peer advisers are junior and senior MCB majors who volunteer their time to complement the UAO advising services by sharing their knowledge of and experience with lower division requirements and upper division classes, experience with student groups on campus, preparation for life beyond the BA, and use of various campus resources. To see the schedule and more information about who the peer advisers are and which courses they have taken, click here .

Academic Opportunities

Undergraduate Research

Under the guidance of a faculty member and/or research mentor, undergraduates in the MCB major may have the opportunity to work in a laboratory to gain valuable experience in scientific research. Interested students must take the initiative to make such arrangements. Over forty percent of MCB majors work in a lab to gain valuable experience in scientific research. To get started, students should talk with classmates, peer advisers, a staff undergraduate adviser, graduate student instructors (GSIs), and faculty about their interest in learning more about laboratory research. For more information on research, see How to Find a Lab Position .

Benefits of research:

• Science is a way to figure things out, so doing research will aid students in other aspects of their life. Students ask and answer open ended questions and link seemingly disconnected pieces of information to find results that were not predicted.
• Explore things at the cutting edge and that no one has explored before.
• Learn tenacity, problem solving, and learn to be critical about the details because things have to be reproducible. 
• Solve mysteries and experience the excitement of discovery.

Students may receive academic credit for their work by enrolling in an independent study course: MCELLBI 99/MCELLBI 199 or MCELLBI H196A/MCELLBI H196B.  Enrollment applications are due in the Undergraduate Advising Office by the fifth week of each semester.

Other Research Opportunities

For additional resources for information regarding research opportunities, please see the links below:
Undergraduate Research Apprentice Program (URAP)
Scholarship Connection
Summer Research Opportunities
Office of Research

Funding for Student Research

There are a variety of ways to support students' research. The department recommends attending a workshop at the Office of Undergraduate Research  or looking for funding opportunities on their website  or the Scholarship Connection website .

Courses

Molecular and Cell Biology: Genetics, Genomics, and Development

Faculty and Instructors

Faculty

Hillel Adesnik, Assistant Professor.

Georjana Barnes, Professor. Biochemistry, genetics, cancer, biology, microtubule cytoskeleton, cell cycle controls, cellular imaging.
Research Profile

Gregory M. Barton, Professor. Immunology, cell biology, infectious disease, innate immunity.
Research Profile

Helen Bateup, Assistant Professor. Molecular and cellular neuroscience, neurodevelopmental disorders, autism, epilepsy.
Research Profile

Diana Bautista, Associate Professor. Ion channels, sensory physiology, chemosensation, touch, thermosensation, somatosensory system.
Research Profile

Carolyn R. Bertozzi, Professor. Molecular basis of cell surface interactions, eukaryotic genomes, glycosylation.
Research Profile

David Bilder, Professor. Genetics, cancer, Drosophila, cell biology, cell polarity, tumor suppressor, epithelial architecture, polarity, and proliferation control.
Research Profile

Michael R. Botchan, Professor. Eukaryotic gene expression, drosophila chromosomes, papilloma viral DNA, chromosomal dynamics.
Research Profile

Gloria Brar, Assistant Professor. Meiosis, translation, sORFs, stress responses.
Research Profile

Carlos J. Bustamante, Professor. Nanoscience, structural characterization of nucleo-protein assemblies, single molecule fluorescence microscopy, DNA-binding molecular motors, the scanning force microscope, prokaryotes.
Research Profile

Jamie Cate, Professor. Molecular basis for protein synthesis by the ribosome, RNA, antibiotics, a thermophilic bacterium, escherichia coli.
Research Profile

Christopher J. Chang, Professor. Chemistry, inorganic chemistry, neuroscience, bioinorganic chemistry, general physiology, organic chemistry, new chemical tools for biological imaging and proteomics, new metal complexes for energy catalysis and green chemistry, chemical biology.
Research Profile

Michelle Chang, Associate Professor.

Kathleen Collins, Professor. RNA, telomerase, Telomere function, Telomere replication.
Research Profile

Jacob E. Corn, Assistant Adjunct Professor.

Laurent Coscoy, Associate Professor. Immunology, viruses, viral infection, immune responses, immune evasion.
Research Profile

Jeffery S. Cox, Professor.

Yang Dan, Professor. Neuronal circuits, mammalian visual system, electrophysiological, psychophysical and computational techniques, visual cortical circuits, visual neurons.
Research Profile

Xavier Darzacq, Assistant Professor.

Abby Dernburg, Professor. Genomics, chromosome remodeling and reorganization during meiosis, Down syndrome, DNA.
Research Profile

Andrew Dillin, Professor.

Jennifer A. Doudna, Professor. RNA machines, hepatitis C virus, RNA interference, ribosomes.
Research Profile

David G. Drubin, Professor. Cellular morphogenesis, plasma membrane dynamics, microtubule cytoskeletons, cytoskeletal proteins, morphological development.
Research Profile

Peter H. Duesberg, Professor. Genetic structure of retroviruses, carcinogenesis, aneuploidy, virology, HIV-AIDS.
Research Profile

Michael B. Eisen, Professor. Genomics, genome sequencing, bioinformatics, animal development.
Research Profile

Dan Feldman, Associate Professor. Neurobiology, learning, neurophysiology, sensory biology.
Research Profile

Marla B. Feller, Professor. Neurophysiology, developmental neuroscience.
Research Profile

Gary L. Firestone, Professor. Cancer, steroid hormones, molecular endocrinology, tumor biology, growth factors, dietary compounds, tumor cells, glucocorticoids.
Research Profile

John Gerard Flannery, Professor. Neurobiology, optometry, vision science, cell and molecular biology of the retina in normal and diseased states.
Research Profile

Hernan G. Garcia, Assistant Professor.

Gian Garriga, Professor. Developmental neurobiology; molecular genetics, development of nervous systems, cell division, cell migration, axonal pathfinding, caenorhabditis elegans.
Research Profile

Britt Glaunsinger, Associate Professor. Virology, gene expression, herpesvirus.
Research Profile

Ming Chen Hammond, Assistant Professor. Molecular biology, biochemistry, organic chemistry, synthetic biology, chemical biology.
Research Profile

Iswar Krishna Hariharan, Professor. Growth regulation, regeneration, cancer.
Research Profile

Richard M. Harland, Professor. Molecular biology, early vertebrate development, Xenopus, embryo development.
Research Profile

Lin He, Associate Professor.

Rebecca Heald, Professor. Cell division, Xenopus, mitotic spindle assembly and function, size control of intracellular structures.
Research Profile

Dirk Hockemeyer, Assistant Professor.

James Hurley, Professor.

Nicholas Ingolia, Assistant Professor. Ribosome Profiling, translation, genomics.
Research Profile

Ehud Y. Isacoff, Professor. Ion channel function, synaptic plasticity, neural excitability, synaptic transmission, the synapse.
Research Profile

Gary H. Karpen, Adjunct Professor. Gene expression, cell biology, chromosome structure and function, drosophila melanogaster, centromere identity and function.
Research Profile

Nicole King, Professor. Genetics, developmental biology, biology, choanoflagellates, multicellularity, evolution of animals, comparative genomics, eukaryotes, host-microbe interactions, bacterial signals.
Research Profile

Douglas E. Koshland, Professor. Higher order chromosome structure, genome integrity, sister chromatid cohesion, chromosome condensation, desiccation tolerance, microbial genetics.
Research Profile

Richard H. Kramer, Professor. Cells, synaptic transmission, chemical signaling between neurons, ion channels, electrical signals, chemical reagents, synapses.
Research Profile

John Kuriyan, Professor. Structural and functional studies of signal transduction, DNA replication, cancer therapies, phosphorylation.
Research Profile

Stephan Lammel, Assistant Professor. Neuroscience, Optogenetics, dopamine, addiction, depression.
Research Profile

Michael S. Levine, Professor. Regulation of enhancer-promoter interactions, gene networks, animal development and disease, drosophila embryo, immune response in drosophila larvae, differentiation of the notochord and heart in the sea squirt, whole-genome analysis.
Research Profile

Polina Lishko, Assistant Professor. Reproductive and Developmental Biology, ion channels, Physiology of Fertilization and Early Embryo Development.
Research Profile

Kunxin Luo, Professor. Signal transduction pathways, mechanisms controlling the receptor kinases, regulation of mammary epithelial cell differentiation, breast carcinogenesis.
Research Profile

Terry Machen, Professor. Physiology pathophysiology secretory epithelial cells, airway, ion transport, cell regulationm, imaging microscopy, calcium pH redox, electrophysiology, green fluorescent protein, genetic targeting, innate immune defense.
Research Profile

Michael A. Marletta, Professor. Chemical biology, molecular biology, structure/function relationships in proteins, catalytic and biological properties of enzymes, cellular signaling, nitric oxide synthase, soluble guanylate cyclase, gas sensing, cellulose degradation, polysaccharide monooxygenases.
Research Profile

Susan Marqusee, Professor. Amino acids, determinants of protein structure and folding, biophysical, structural and computational techniques, translocation, protein synthesis.
Research Profile

Andreas Martin, Associate Professor. Proteasome.
Research Profile

G. Steven Martin, Professor. Cell biology, signal transduction pathways, tumor virology, cell division cycle, viral and cellular oncoproteins, breast cancer.
Research Profile

Barbara J. Meyer, Professor. Developmental biology, gene expression, genetic determination of sex, regulatory genes, chromosome dynamics, X-chromosome.
Research Profile

Craig Miller, Assistant Professor. Genetics, developmental biology, evolutionary biology, evolution, quantitative genetics, developmental genetics, evolutionary genetics, craniofacial development.
Research Profile

Evan W. Miller, Assistant Professor.

John Ngai, Professor. Nervous system, molecular and cellular mechanisms of olfaction, detection of odors, odorant receptors, olfactory neurons, DNA microarray technologies, genome-wide patterns of gene expression.
Research Profile

Eva Nogales, Professor. Biochemistry, complex biological assemblies, structure and regulation of the cytoskeleton, microtubule dynamics, human transcriptional initiation machinery, biophysics.
Research Profile

George Oster, Professor. Computational biology, developmental biology, mathematical modeling of molecular and cellular systems, protein motors, cell motility, spatial pattern formation in eukaryotic and prokaryotic cells, neural pattern formation.
Research Profile

Lior Pachter, Professor. Mathematics, applications of statistics, combinatorics to problems in biology.
Research Profile

Nipam Patel, Professor. Genetics, evolution, crustaceans, insects, arthropods, homeotic (Hox) genes, segmentation, embryonic pattern formation, neural patterning.
Research Profile

Mu-Ming Poo, Professor. Neurobiology, cellular and molecular mechanisms, axon guidance, synapse formation, activity-dependent refinement of neural circuits.
Research Profile

Daniel A. Portnoy, Professor. Mammalian cells, molecular and cellular basis of microbial pathogenesis, defense against infection, listeria monocytogenes, cell biology of infection, mechanisms of secretion.
Research Profile

Michael Rape, Professor. Cancer, protein degradation, siRNA, Berkeley Screening Center.
Research Profile

David H. Raulet, Professor. Biology, pathogens, viruses, T-cell development and function, natural killer (NK) cells, lymphocyte receptors, microorganisms, cancer cells, tumor immunity.
Research Profile

Jasper D. Rine, Professor. Biology, cell biology, DNA replication, gene regulation, saccharomyces cerevisiae, genetic analysis, genome, cholesterol biosynthetic pathway, modification of proteins, prenylated proteins.
Research Profile

Donald C. Rio, Professor. Molecular genetics, drosophila melanogaster, transposable elements, RNA splicing, nucleic acid rearrangement reactions, P elements and their cellular host, HIV, proteomic diversification, nucleoprotein complexes.
Research Profile

Ellen Robey, Professor. Fate determination in the T-lymphocyte lineage, T cell development in the mouse, thymic development, cellular maturation, parasitic infection, chronic infection, host-pathogen interactions, Toxoplasma gondii.
Research Profile

Henk Roelink, Associate Professor. Stem cells, neural development, embryonic induction.
Research Profile

Daniel S. Rokhsar, Professor. Biology, collective phenomena and ordering in condensed matter and biological systems, theoretical modeling, computational modeling, behavior of quantum fluids, cold atomic gases, high temperature superconductors, Fermi and Bose systems.
Research Profile

Kaoru Saijo, Assistant Professor.

David Savage, Assistant Professor. Synthetic biology and metabolism.
Research Profile

David Schaffer, Professor. Neuroscience, biomolecular engineering, bioengineering, stem cell biology, gene therapy.
Research Profile

Randy W. Schekman, Professor. Saccharomyces cerevisiae, organelle assembly, intracellular protein transport, assembly of cellular organelles, Alzheimer's Disease.
Research Profile

Kristin Scott, Professor. Nerve cell connectivity in developing nervous systems, taste perception in the fruit fly, taste neural circuits, sensory maps in the brain.
Research Profile

Bill Sha, Associate Professor. B cell gene regulation, fate determination, gene regulatory pathways, antibody-secreting plasma cells, memory B cells, apoptotic cells, B7 costimulatory ligands.
Research Profile

Nilabh Shastri, Professor. Cancer cells, mechanims of immunesurveillance, microbial pathogens, antigen genes, autoimmunity.
Research Profile

Sarah Stanley, Assistant Professor.

Jeremy W. Thorner, Professor. Biochemistry, molecular genetics, cell biology, signal transduction mechanisms, protein kinase function and regulation, GPCRs, membrane biology, control of cell growth/morphology and division, regulation of gene expression by extracellular stimuli.
Research Profile

Robert T. Tjian, Professor. Eukaryotic molecular biology; biochemistry, cellular differentiation, chromatin function, RNA synthesis, single cell imaging, single molecule imaging.
Research Profile

Elcin Unal, Assistant Professor.

Fyodor Urnov, Associate Adjunct Professor.

Russell E. Vance, Professor. Immunology, microbiology, infectious disease, molecular and cell biology.
Research Profile

David A. Weisblat, Professor. Annelid developmental biology, leech embryo, evolution & development, cell fate determination, lineage tracingt.
Research Profile

Matthew D. Welch, Professor. Biology, cell motility, the role of the actin cytoskeleton in cell locomotion, shape change, actin filament assembly, bacterial and viral pathogens.
Research Profile

Astar Winoto, Professor. Cancer, genomics, apoptosis, innate immunity and infectious diseases, cell cycle, signal transduction, immune tolerance.
Research Profile

Ahmet Yildiz, Assistant Professor. Single molecule biophysics, molecular motors, telomeres.
Research Profile

Qiang Zhou, Professor. Biochemistry of HIV gene expression, transcriptional elongation, Tat activation, stage of transcriptional elongation, HIV replication, anti-HIV therapy.
Research Profile

Roberto Zoncu, Assistant Professor.

Lecturers

Robin W. Ball, Lecturer.

P. Robert Beatty, Lecturer.

Natalia Caporale, Lecturer.

Isabelle Le Blanc, Lecturer.

Helen Lew, Lecturer.

David E. Presti, Senior Lecturer SOE.

Steve Takata, Lecturer.

Gary Joseph Wedemayer, Lecturer.

Visiting Faculty

Tamira M. Elul, Visiting Associate Professor.

Emeritus Faculty

Mark Alper, Professor Emeritus.

Bruce N. Ames, Professor Emeritus. Molecular biology, cancer, aging, mitochondrial decay, oxidants and antioxidants, micronutrient deficiencies and DNA damage, chronic inflammation and cancer.
Research Profile

Giovanna F.-L. Ames, Professor Emeritus.

Clinton E. Ballou, Professor Emeritus.

Steven K. Beckendorf, Professor Emeritus. Genetics, biology, organogenesis, Drosophila, salivary morphogenesis.
Research Profile

David R. Bentley, Professor Emeritus.

Phyllis B. Blair, Professor Emeritus.

Beth Burnside, Professor Emeritus. Cell biology of photoreceptors, cytoskeletal motors, morphogenetic events, photomembrane turnover.
Research Profile

Richard Calendar, Professor Emeritus. Listeria monocytogenes, phage-based integration vector, Bacillus anthracis, vaccine.
Research Profile

W. Zacheus Cande, Professor Emeritus. Genetics, cell biology, microbial biology, plant biology.
Research Profile

M. J. Chamberlin, Professor Emeritus.

Alvin J. Clark, Professor Emeritus.

Thomas W. Cline, Professor Emeritus. Drosophila melanogaster, developmental genetics, sex determination.
Research Profile

R. David Cole, Professor Emeritus.

Walter J. Freeman, Professor Emeritus. Brain dynamics, consciousness, electroencephalogram (EEG), field potentials, limbic system, sensory cortex, synchronization.
Research Profile

John Gerhart, Professor Emeritus. Developmental biology, Xenopus laevis, Spemann's organizer, cortical rotation, cell cycle after fertilization, vegetal materials, blastula stage, egg cytoplasm.
Research Profile

Robert M. Glaeser, Professor Emeritus.

Alexander N. Glazer, Professor Emeritus. Photosynthetic systems, phycobiliproteins, design of fluorescent probes, protein structure-function relationships, macromolecular complexes, environmental sciences, natural resource management.
Research Profile

Stuart M. Linn, Professor Emeritus. Biology, enzymology of DNA metabolism, DNA repair and replication in mammalian cells, mechanisms of DNA damage by reactive oxygen species, structure of iron: DNA complexes, DNA damage and repair, DNA polymerases.
Research Profile

Robert I. Macey, Professor Emeritus.

Howard C. Mel, Professor Emeritus.

Hsiao-Ping H. Moore, Professor Emeritus.

Satyabrata Nandi, Professor Emeritus.

Alexander V. Nichols, Professor Emeritus.

Hiroshi Nikaido, Professor Emeritus. Membrane biochemistry, bacterial physiology, bacteria, channel-forming proteins of the outer membrane, the diffusion of lipophilic compounds, mechanism and regulation of multidrug efflux transport systems, mycobacterial cell wall.
Research Profile

W. Geoffrey Owen, Professor Emeritus. Biology, nervous system, membrane biophysics, retinal neurophysiology.
Research Profile

Edward E. Penhoet, Professor Emeritus. Public health, health policy and management.
Research Profile

Gerald M. Rubin, Professor Emeritus. Molecular genetics, molecular neurobiology, mapping and sequencing of the drosophila genome, genome organization and function, development and evolution.
Research Profile

Harry Rubin, Professor Emeritus. Tumor biology, cell biology, regulation of neoplastic development, epithelial cells, oncogenic mutations, tumor development, RNA and DNA tumor viruses.
Research Profile

Howard K. Schachman, Professor Emeritus. Physical biochemistry, biological macromolecules, aspartate transcarbamylase, revisiting allostery, holoenzyme, mutations, polypeptide chains, helical regions.
Research Profile

Herbert H. Srebnik, Professor Emeritus.

Frank S. Werblin, Professor Emeritus. Retina, biological image processing, visual neuroscience.
Research Profile

Gerald Westheimer, Professor Emeritus. Neurobiology; psychophysics, primate visual cortex, neural circuits, brain mechanisms, response modifications, active perception, learning, stereoscopic vision, optometryoptics of the eye, ophthalmic instrumentation.
Research Profile

Fred H. Wilt, Professor Emeritus. Molecular embryology; cell biology, the regulation of gene expression, of sea urchin embryos, blastomeres, endoskeletal spicule of the larva, glycoproteins, immunoelectron microscopy, fluorescent labeling.
Research Profile

Leon Wofsy, Professor Emeritus.

Robert S. Zucker, Professor Emeritus. Synaptic transmission, cellular neurophysiology; synaptic biophysics, properties of neural circuits, photolysis, vital dyes of vesicle membrane, electrophysiological techniques, neuromodulator.
Research Profile