Prereq: (CASBI203 or CASBI213) and (CASBI206 or CASBI216).

Synthesis, structure, function, regulation of macromolecules (DNA, RNA, protein). Prokaryotic and eukaryotic molecular biology. Topics include: replication, repair, recombination, transcription, translation, 5-methylcytosine, transcription factors, DNA looping (enhancer- promoter, insulator, etc.), histone modification/chromatin remodeling, non-coding RNA. Discussion of genetic and recombinant DNA techniques, including CRISPR/Cas9.

[ 4 cr.]

Offered: 1st sem.

Prereq: MET BI 203, BI 206, or consent of instructor.

Grad Prereq: MET BI 203 and MET BI 206; or consent of instructor.

How cells synthesize biologically important macromolecules (DNA, RNA and proteins), as well as their structure, function and regulation. Both prokaryotic and eukaryotic molecular biology is discussed. Topics include: DNA replication, DNA repair, recombination, prokaryotic transcription, translation, eukaryotic transcription/RNA processing, DNaseI hypersensitive sites, 5-methylcytosine, eukaryotic RNA polymerase structure/CTD modification, eukaryotic promoter structure, general transcription factors, enhancer- promoter loops, histone modification/chromatin remodeling, and non-coding RNA. Discussion of important molecular biological techniques, such as genetic and recombinant DNA techniques, including CRISPR/Cas9. Three hours of lecture, one hour of discussion per week. Pre-requisite: one course above the introductory biology level, such as cell biology, genetics or biochemistry.

[ 4 cr.]

Offered: Either sem.

Examines the relationship between cultural expression and political, social, and economic change by focusing on cities such as Boston, Paris, London, Casablanca, and Johannesburg during times of intense creativity and upheaval.

[ 4 cr.]

Offered: Either sem.

There is no such thing as Italian food. This statement is confirmed by the uniqueness and locality of the foods of Italy. This course will introduce students to regional Italian foods, taking into account geography, historical factors, social mores and language. There will be an emphasis on identifying key food ingredients of northern, central, and southern regions, and how they define these regions and are utilized in classic recipes. In addition, the goal will be to differentiate the various regional cooking styles like casalinga cooking versus alta cucina cooking.

[ 4 cr.]

Offered: Either sem.

Prereq: CAS BI 107; and CASBI303 or CASBI306, or consent of instructor.

Prerequisites: CASBI107 and CASBI303 or CASBI306, or consent of instructor. The major biotic and abiotic factors influencing forest ecosystem composition, structure, and function. Role of solar radiation, hydrology, soils, succession, and management of forest ecosystems. Includes New England case study. Three hours lecture plus discussion. Meets with CAS GE 530. Effective Spring 2023, this course fulfills a single unit in each of the following BU Hub areas: Oral and/or Signed Communication, Scientific Inquiry II, Research and Information Literacy.

[ 4 cr.]

Offered: 2nd sem.

Prereq: BI 107 and BI 303 or BI 306, or consent of instructor

Prerequisites: CASBI107 and CASBI303 or CASBI306, or consent of instructor. The major biotic and abiotic factors influencing forest ecosystem composition, structure and function. Role of solar radiation, hydrology, soils, succession, and management of forest ecosystems. Includes New England case study. Three hours lecture plus discussion. Also meets with BI 530. Effective Spring 2023, this course fulfills a single unit in each of the following BU Hub areas: Oral and/or Signed Communication, Scientific Inquiry II, Research and Information Literacy.

[ 4 cr.]

Offered: 2nd sem.

Prereq: CAS BI 421 or CAS CH 421; or equivalent.

Undergraduate Prerequisites: First Year Writing Seminar (e.g., WR 100 or WR 120), (CASBI421 OR CASCH421) or equivalent. - Cell metabolism, with special emphasis on the uptake of food materials, the integration and regulation of catabolic, anabolic, and anaplerotic routes, and the generation and utilization of energy. Lectures include consideration of events in prokaryotic and eukaryotic organisms. Three hours lecture, one hour discussion, four hours lab. Effective Spring 2024, this course fulfills a single unit in each of the following BU Hub areas: Writing-Intensive Course, Research and Information Literacy, Teamwork/Collaboration, Creativity/Innovation.

[ 4 cr.]

Offered: 2nd sem.

Prereq: CAS CH 421; or equivalent.

Undergraduate Prerequisites: First Year Writing Seminar (e.g., WR 100 or WR 120), (CASBI421 OR CASCH421) or equivalent. - Cell metabolism, with special emphasis on the uptake of food materials, the integration and regulation of catabolic, anabolic, and anaplerotic routes, and the generation and utilization of energy. Lectures include consideration of events in prokaryotic and eukaryotic organisms. Three hours lecture, one hour discussion, four hours lab. Effective Spring 2024, this course fulfills a single unit in each of the following BU Hub areas: Writing-Intensive Course, Research and Information Literacy, Teamwork/Collaboration, Creativity/Innovation.

[ 4 cr.]

Offered: 2nd sem.

Undergraduate Prerequisites: First Year Writing Seminar (e.g., WR 100 or WR 120), (CASBI421 OR CASCH421) or equivalent. - Cell metabolism, with special emphasis on the uptake of food materials, the integration and regulation of catabolic, anabolic, and anaplerotic routes, and the generation and utilization of energy. Lectures include consideration of events in prokaryotic and eukaryotic organisms. Three hours lecture, one hour discussion, four hours lab. Effective Spring 2024, this course fulfills a single unit in each of the following BU Hub areas: Writing-Intensive Course, Research and Information Literacy, Teamwork/Collaboration, Creativity/Innovation.

[ 4 cr.]

Offered: 2nd sem.

Grad Prereq: GRS CH 621; or equivalent or consent of instructor.

Undergraduate Prerequisites: First Year Writing Seminar (e.g., WR 100 or WR 120), (CASBI421 OR CASCH421) or equivalent. - Cell metabolism, with special emphasis on the uptake of food materials, the integration and regulation of catabolic, anabolic, and anaplerotic routes, and the generation and utilization of energy. Lectures include consideration of events in prokaryotic and eukaryotic organisms. Three hours lecture, one hour discussion, four hours lab. Effective Spring 2024, this course fulfills a single unit in each of the following BU Hub areas: Writing-Intensive Course, Research and Information Literacy, Teamwork/Collaboration, Creativity/Innovation.

[ 4 cr.]

Offered: 2nd sem.