Stephen P. Bell

Steve Bell is a Professor of Biology in the Department of Biology at MIT and an HHMI Investigator. Steve and his lab study the regulation of eukaryotic replication using biochemical, genetic, and molecular biology approaches. He has received the institute-wide Everett Moore Baker Memorial Teaching Award as well as a School of Science Teaching Prize for Excellence in Undergraduate Education. Along with Tania, Steve co-authored a popular molecular biology textbook with James Watson.
More info here.

Filter Courses within "Stephen P. Bell" (Click to filter)
Reset Filters | Advanced Global Search
Molecular Biology - Part 1: DNA Replication and Repair (edX) EdX
MIT,MITx

Molecular Biology - Part 1: DNA Replication and Repair (edX)

Sci: Biology & Life Sciences

Embark on an enlightening journey through the world of molecular biology with 'Molecular Biology - Part 1: DNA Replication and Repair'. This course delves deep into the fundamental processes that allow life to persist—DNA replication and repair. Learn how cells meticulously copy their genetic material and safeguard it against mutations, ensuring the continuity and stability of the genome.

Apr 16th 2024
5-12 Weeks
Biology Genetics DNA
Details
Molecular Biology - Part 2: Transcription and Transposition (edX) EdX
MIT,MITx

Molecular Biology - Part 2: Transcription and Transposition (edX)

Sci: Biology & Life Sciences

Explore the fascinating world of molecular biology further by delving into transcription and transposition. This comprehensive course will guide you through the critical processes that underpin gene expression, starting with the conversion of DNA to RNA. Whether you're a student, researcher, or professional in life sciences, this course offers valuable insights and practical knowledge.

Self Paced
Self-Paced
Biology DNA RNA
Details
Molecular Biology – Part 3: RNA Processing and Translation (edX) EdX
MIT,MITx

Molecular Biology – Part 3: RNA Processing and Translation (edX)

Sci: Biology & Life Sciences

Embark on an enlightening journey through the fascinating processes of RNA Processing and Translation with this advanced online course. Delve deep into the mechanisms that govern mRNA's transformation into proteins, a fundamental step in the central dogma of molecular biology. This course is designed for those seeking to enhance their understanding of gene expression, RNA splicing, and turnover, all of which are pivotal processes influencing how genetic information is translated into functional products within cells.

Self Paced
Self-Paced
Biology Molecular Biology Translation
Details
Page 1