BIOL 107 - Introduction to Cell Biology

3 units (fi 6)(EITHER, 3-0-3)

An introduction to cell structure and function. Major topics include the molecules and structures that comprise prokaryotic and eukaryotic cells, the mechanisms by which energy is harvested and used by cells, how cells reproduce, and how information is stored and used within a cell via the processes of DNA replication, transcription, and translation. Prerequisites: Biology 30 and Chemistry 30. Note: BIOL 107 is not a prerequisite for BIOL 108. BIOL 107 and 108 can be taken in either term.

BIOL 207 - Molecular Genetics and Heredity

3 units (fi 6)(EITHER, 3-0-3)

The chromosomal and molecular basis for the transmission and function of genes. The construction of genetic and physical maps of genes and genomes. Strategies for the isolation of specific genes. Examples of regulatory mechanisms for the expression of the genetic material in both prokaryotes and eukaryotes. Prerequisite: BIOL 107 or SCI 100.

BIOL 107 - Introduction to Cell Biology

3 units (fi 6)(EITHER, 3-0-3)

An introduction to cell structure and function. Major topics include the molecules and structures that comprise prokaryotic and eukaryotic cells, the mechanisms by which energy is harvested and used by cells, how cells reproduce, and how information is stored and used within a cell via the processes of DNA replication, transcription, and translation. Prerequisites: Biology 30 and Chemistry 30. Note: BIOL 107 is not a prerequisite for BIOL 108. BIOL 107 and 108 can be taken in either term.

BIOL 201 - Eukaryotic Cellular Biology

3 units (fi 6)(EITHER, 3-0-0)

A structural and functional dissection of a eukaryotic cell. Detection of specific molecules at the ultrastructural level; plasma membrane structure and function; cytoskeleton involvement in intracellular transport, mitosis, and cytokinesis; the endomembrane system, protein targeting, exocytosis and endocytosis; nuclear structure and function; cell cycle control and cancer. Prerequisite: BIOL 107 and a 100-level Chemistry course, or SCI 100. Note: Not to be taken by students with credit in CELL 201, in addition, not available to students currently enrolled in CELL 201.

GENET 302 - Genetics of Eukaryotic Chromosomes

3 units (fi 6)(SECOND, 3-0-0)

Analysis of how the nuclear chromosomes in multicellular eukaryotes are organized, inherited, studied, and manipulated. Topics typically include classical and current techniques, mouse genetics, epigenetics, sex chromosomes, dosage compensation, genomic imprinting, transposable elements, centromeres, telomeres, and stem cells. Prerequisite GENET 270.