This 1-credit course fulfills one component of the General Education Integrative Experience requirement for Biology majors. The course is designed to help students appreciate what their academic training has been, and where it is leading them professionally. Students will learn about career options for life scientists and develop strategies and skills to position themselves to be successful. In order to satisfy the Integrative Experience requirement, BA-Biol and BS-Biol majors must also take one of the approved 3- or 4-credit Biology courses listed on their Academic Requirements Report.

This 1-credit course fulfills one component of the General Education Integrative Experience requirement for Biology majors. The course is designed to help students appreciate what their academic training has been, and where it is leading them professionally. Students will learn about career options for life scientists and develop strategies and skills to position themselves to be successful. In order to satisfy the Integrative Experience requirement, BA-Biol and BS-Biol majors must also take one of the approved 3- or 4-credit Biology courses listed on their Academic Requirements Report.

This 1-credit course fulfills one component of the General Education Integrative Experience requirement for Biology majors. The course is designed to help students appreciate what their academic training has been, and where it is leading them professionally. Students will learn about career options for life scientists and develop strategies and skills to position themselves to be successful. In order to satisfy the Integrative Experience requirement, BA-Biol and BS-Biol majors must also take one of the approved 3- or 4-credit Biology courses listed on their Academic Requirements Report.

Cancer Genetics is a team-based learning course that requires students to create proposals for novel treatments for specific kinds of cancer. Students analyze the research literature to identify unaddressed opportunities for treatment based on specific criteria pertaining to the genetic defects causing disease. They then must design a novel treatment using accepted genetic methods and drug delivery systems currently used in research and clinically.

Cancer Genetics is a team-based learning course that requires students to create proposals for novel treatments for specific kinds of cancer. Students analyze the research literature to identify unaddressed opportunities for treatment based on specific criteria pertaining to the genetic defects causing disease. They then must design a novel treatment using accepted genetic methods and drug delivery systems currently used in research and clinically.

This course provides an introduction to evolutionary genomics, bioinformatics and data sciences skills for life science students. Computer-based lab sessions provide training in data science skills (R, reproducible research, and cloud computing) and analytical methods related to DNA sequence searches, sequence alignment, detecting variation, phylogenetics, comparative genomics and genome visualization. The discussion section goes deeper into these methods and their applications in recent evolutionary genomics literature.

This course provides an introduction to evolutionary genomics, bioinformatics and data sciences skills for life science students. Computer-based lab sessions provide training in data science skills (R, reproducible research, and cloud computing) and analytical methods related to DNA sequence searches, sequence alignment, detecting variation, phylogenetics, comparative genomics and genome visualization. The discussion section goes deeper into these methods and their applications in recent evolutionary genomics literature.

This course will cover the cell biological aspects of several plant cellular processes, including cytokinesis, cell expansion, tip growth, cell-to-cell communication, and intracellular protein sorting. An emphasis will be made on experimental approaches used to understand these processes at the molecular level. A discussion of model organisms and cell types will be included.

There are a mind-boggling 400,000 species of plants on earth, with new species discovered every year. Plants have evolved over hundreds of millions of years to efficiently capture the sun's energy and cycle oxygen in the atmosphere. How did this diversity come to be, and why are plants so varied in form and function? Explore the plants of the world in a hands-on laboratory setting using live temperate and tropical plants from the UMass greenhouses and forests. You will use this new-found knowledge to study your favorite plant in an independent project for the web.

There are a mind-boggling 400,000 species of plants on earth, with new species discovered every year. Plants have evolved over hundreds of millions of years to efficiently capture the sun's energy and cycle oxygen in the atmosphere. How did this diversity come to be, and why are plants so varied in form and function? Explore the plants of the world in a hands-on laboratory setting using live temperate and tropical plants from the UMass greenhouses and forests. You will use this new-found knowledge to study your favorite plant in an independent project for the web.