Difference between revisions of "20.109(F20):Module 3"
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'''Lecturer:''' [http://be.mit.edu/directory/noreen-lyell Noreen Lyell]<br> | '''Lecturer:''' [http://be.mit.edu/directory/noreen-lyell Noreen Lyell]<br> | ||
| − | '''Instructors:''' [http://be.mit.edu/directory/noreen-lyell Noreen Lyell], [http://be.mit.edu/directory/leslie-mcclain Leslie McClain] and [http://be.mit.edu/directory/becky-meyer Becky Meyer]<br> | + | '''Instructors:''' [http://be.mit.edu/directory/noreen-lyell Noreen Lyell], [http://be.mit.edu/directory/leslie-mcclain Leslie McClain], and [http://be.mit.edu/directory/becky-meyer Becky Meyer]<br> |
'''TAs:''' <br> | '''TAs:''' <br> | ||
Revision as of 13:41, 21 July 2020
Contents
Module 3
Lecturer: Noreen Lyell
Instructors: Noreen Lyell, Leslie McClain, and Becky Meyer
TAs:
Overview
WRITE NEW PROJECT OVERVIEW
Lab links: day by day
M3D1: Research project scope and experimental strategy
M3D2: Align gRNA sequences with genomic targets
M3D3: Analyze ethanol yield data
M3D4: Examine genomic features in gRNA-targeted sequences
M3D5: Design optimized gRNA sequence for enhanced ethanol production
Assignments
Research proposal presentation
Mini-report
References
CRISPR interference (CRISPRi) for sequence-specific control of gene expression. Nature Methods. (2013) 8: 2180-2196.
Metabolic engineering of Escherichia coli for production of mixed-acid fermentation end products. Frontiers in Bioengineering and Biotechnology. (2014) 2:1-12.
