Research projects using modern techniques in experimental biochemistry and molecular biology. Experiments may include enzymology, protein purification, and gene expression and organization. Methods include spectrophotometry, polymerase chain reaction, DNA cloning, electrophoresis, protein detection by immunoblot, RNA hybridization, and computer analysis of DNA and protein sequence data.
- Teacher: Dong Wang
Research projects using modern techniques in experimental biochemistry and molecular biology. Experiments may include enzymology, protein purification, and gene expression and organization. Methods include spectrophotometry, polymerase chain reaction, DNA cloning, electrophoresis, protein detection by immunoblot, RNA hybridization, and computer analysis of DNA and protein sequence data.
- Teacher: Amy Springer
An integrated presentation of the biochemistry and molecular biology of cellular interactions. Emphasis on accounting for complex cellular processes in terms of protein structure and regulation of gene expression. Topics include gene structures and techniques for studying them; replication; control of gene expression; post-translational processing; membrane associated energetics; behavior of transport systems; mechanisms of signal transduction; and interactions of cells with extracellular matrix and with other cells.
This course is the upper-division requirement for BMB majors and focuses on further development of communication skills you will need regardless of your career path after graduation. To be an effective scientific communicator, you need to continue to hone your skills in three dimensions: message (content), presenter (speaker/writer), and audience (reader/listener). Thus, each section of this course will provide support for your continued improvement as a writer/speaker (presenter) and as a reader/listener (audience) using a specific topic (content) in biochemistry and molecular biology.
- Teacher: Daniel Hebert
Structure, biosynthesis, and function of nucleic acids and the translational apparatus. DNA replication; gene organization; chromatin structure; RNA transcription, regulation of gene expression; protein biosynthesis; mRNA, tRNA, and ribosomes.
- Teacher: ChangHui Pak