Courses
TEAC 500
Provides hands-on teaching experience to graduate students in undergraduate courses. Reinforces students' understanding of basic concepts and allows them to communicate and apply their knowledge of the subject matter.
MBGE 534
Advanced theoretical and applied methods in modern genomic research; classical and novel approaches used to solve problems in functional genomics and system biology; modern sequencing techniques and their utilization in biomedical research.
MBGE 512
Fundamental aspects of the molecular and cellular biology of tumor formation and cancer cells. Topics include cell cycle, oncogenes, tumor suppressor genes, the tumor's interaction with other cells and tissues, approaches to treating cancer, and novel experimental approaches for the discovery of mutations that contribute to tumorigenesis.
MBGE 505
The key areas of RNA biology, structure and function; splicing, polyadenylation, transport, translation and decay of mRNAs; the regulatory mechanisms governed by noncoding RNAs such as siRNAs, miRNAs and long noncoding RNAs.
MBGE 502
The ability to communicate results and interpretation effectively is key to success in the biological sciences. This course will improve the skills of students in conveying their findings in lectures, research posters, and research publications.
MBGE 590
MBGE 520
Function of different neuronal cell types and the larger organization of the mammalian nervous system: The topics include the molecular details of synaptic connectivity and its relationship to learning and memory and the causes of neurodegenerative disease.
MBGE 507
The cell and molecular biology of pathogenic organisms, such as malaria, trypanosomes, toxoplasma, and parasitic yeast. Organism life cycles, host invasion strategies, methods of immune system evasion, and the evolution of parasites.
MBGE 503
Energy generation in the cell, energy storage mechanisms and use; the processes of oxidative phosphorylation, glycolysis, and photosynthesis; energy acquisition mechanism by chemotrophic organisms.
MBGE 434
Advanced theoretical and applied methods in modern genomic research; classical and novel approaches used to solve problems in functional genomics and system biology; modern sequencing techniques and their utilization in biomedical research.
MBGE 695
MBGE 530
Fundamental aspects of molecular and cellular biology of cancers with respect to developing cancer therapies; basic principles of cancer treatment, molecularly targeted therapies, cytotoxic therapies, drug discovery approaches, drug delivery systems, cell-based and gene therapies; discussion of research and review articles.
MBGE 510
Cells have elaborate mechanisms for controlling cell proliferation and differentiation. In this course, we will explore in molecular detail the intricate signaling pathways that are important for cell behavior, with a major focus on those pathways that are conserved widely among many species.
MBGE 504
Molecular details of the innate and adaptive immune systems. Subject areas will include immune recognition, immunosuppression, communication between different immune system cell types, and autoimmunity.
MBGE 501
The advanced methodology used for modern biological science research. Topics include the interpretation of data gained from both hypothesis-driven and high-throughput experiments from research articles focusing on DNA repair, DNA replication, transcription, cell cycle, organelle biogenesis, proteomics and genetics.