Course designed for sophomores in Biology, Biochemistry, or Microbiology. Building upon concepts learned in Biology 100/101, consideration is given to structure and function. The course is equally divided between aspects of molecular and cellular biology. (Credit for only one of AnimlSci/Biochem/Biology 285.)

Course designed for sophomores in Biology, Biochemistry, or Microbiology. Building upon concepts learned in Biology 100/101, consideration is given to structure and function. The course is equally divided between aspects of molecular and cellular biology. (Credit for only one of AnimlSci/Biochem/Biology 285.)

Various classical and molecular genetic techniques using various prokaryotic and eukaryotic systems such as bacteria, yeast, plants, and humans. The lab exercises will be largely inquiry based with a focus on experimental design. Laboratory projects include genetic crosses, analysis of the genotype/phenotype relationship, complementation, linkage mapping, and detection of DNA polymorphisms. Also, bioinformatics tools will be used to perform SNP analysis and analyze sequence similarity.

Various classical and molecular genetic techniques using various prokaryotic and eukaryotic systems such as bacteria, yeast, plants, and humans. The lab exercises will be largely inquiry based with a focus on experimental design. Laboratory projects include genetic crosses, analysis of the genotype/phenotype relationship, complementation, linkage mapping, and detection of DNA polymorphisms. Also, bioinformatics tools will be used to perform SNP analysis and analyze sequence similarity.

This research-focused course uses bacteriophage genomics to introduce biology as an experimental science. Students learn computational biological techniques through annotation and characterization of novel viral genomes. Students will be introduced to concepts in bioinformatics, microbiology, evolution, and molecular biology through hands-on experiments driven by results obtained during class.

We will investigate the process of biological evolution and the evolutionary history of life on Earth. Topics to be covered include natural selection, speciation (the formation of new species), and other causes of evolutionary change; the methods that evolutionary biologists use to investigate evolutionary processes and history; and an overview of life's history, focusing on major evolutionary innovations and transitions.

We will investigate the process of biological evolution and the evolutionary history of life on Earth. Topics to be covered include natural selection, speciation (the formation of new species), and other causes of evolutionary change; the methods that evolutionary biologists use to investigate evolutionary processes and history; and an overview of life's history, focusing on major evolutionary innovations and transitions.

Not available at this time

Not available at this time

Not available at this time