|Certificates: Molecular Biophysics, Molecular Biophysics Minor, Integrated Design, Engineering & Applied Science Minor, Molecular Biophysics, Molecular Biophysics Minor|
|Course Cluster: Health Studies, Integrated Design, Engineering & Applied Science Minor|
This course aims to provide a framework for understanding three-dimensional structures of proteins, nucleic acids, and their complexes. The first half of the course emphasizes structural modules and topological patterns in major classes of proteins and nucleic acids. The second part of the course covers novel structural motifs, such as helix-turn-helix, zinc-finger, and leucine zipper, that are responsible for recognition of specific nucleotide sequences in nucleic acids by proteins. Analysis of structures using tools available on the Web and independent exploration of protein and nucleic acid databases are strongly encouraged.
||Gen Ed Area Dept:
|Course Format: Lecture / Discussion||Grading Mode: Student Option|
||Prerequisites: MB&B181 OR BIOL181
||Fulfills a Major Requirement for: (CHEM-MN)(CHEM-Track A)(CHEM-Track B)(CIS)(IDEA-MN)(INFO-MN)(MB&B)(MOBI-MN)
||Past Enrollment Probability: 90% or above
|SECTION 01 In-person only|
|Major Readings: Wesleyan RJ Julia Bookstore
Branden and Tooze, INTRODUCTION TO PROTEIN STRUCTURE Selected journal articles.
|Examinations and Assignments: |
Two midterm exams and final exam.
|Additional Requirements and/or Comments: |
This course is recommended for all students interested in structural biology, especially those majoring in biological chemistry, molecular biology and biochemistry, and molecular biophysics.
|Instructor(s): Russu,Irina M. Times: ..T.R.. 01:20PM-02:40PM; Location: SCIE58; |
|Total Enrollment Limit: 60||SR major: 15||JR major: 15|| || |
|Seats Available: 39||GRAD: 10||SR non-major: 10||JR non-major: 5||SO: 5||FR: 0|
|Drop/Add Enrollment Requests|
|Total Submitted Requests: 0||1st Ranked: 0||2nd Ranked: 0||3rd Ranked: 0||4th Ranked: 0||Unranked: 0|