Difference between revisions of "Bay Area Yeast Meeting"
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* Venue: M106, Alway Building, Stanford Medical Center (intersection of Roth and Campus Dr) | * Venue: M106, Alway Building, Stanford Medical Center (intersection of Roth and Campus Dr) | ||
+ | * Searchable Map- http://campus-map.stanford.edu/ | ||
* Location: Stanford University, CA | * Location: Stanford University, CA | ||
* Date: April 19th, 2014 | * Date: April 19th, 2014 | ||
==Registration== | ==Registration== | ||
− | * | + | * Registration is free. Anybody is welcome to attend. |
− | |||
==Program== | ==Program== | ||
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*FRET-based assay for monitoring septin filament assembly | *FRET-based assay for monitoring septin filament assembly | ||
− | ::''Jeremy Thorner, UC Berkeley'' | + | ::''Elizabeth “Libby” Booth, Jeremy Thorner Lab, UC Berkeley'' |
− | * | + | *Yeast's evil relative: a fungus that swims, crawls, and kills vertebrates |
::''Tim Stearns, Stanford University'' | ::''Tim Stearns, Stanford University'' | ||
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*Re-replication of a centromere induces whole-chromosomal instability and aneuploidy | *Re-replication of a centromere induces whole-chromosomal instability and aneuploidy | ||
− | ::''Stacey | + | ::''Stacey Hanlon, Joachim J. Li Lab, UCSF'' |
*Heterozygote advantage in adapting diploids | *Heterozygote advantage in adapting diploids | ||
::''Diamantis Sellis, Dmitri Petrov Lab, Stanford University'' | ::''Diamantis Sellis, Dmitri Petrov Lab, Stanford University'' | ||
− | * | + | * A Metabolomics Approach to Study Chardonnay Wine Fermentation |
− | ::''Chandra Richter - | + | ::''Chandra Richter - Viticulture, Chemistry and Enology, E&J Gallo Winery'' |
12:00 - 1:45 Lunch and Posters (Courtyard outside M106)<br> | 12:00 - 1:45 Lunch and Posters (Courtyard outside M106)<br> | ||
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::''Daria Hekmat-Scafe, Martha Cyert and Tim Stearns Lab, Stanford University'' | ::''Daria Hekmat-Scafe, Martha Cyert and Tim Stearns Lab, Stanford University'' | ||
− | * | + | *Chromatin Remodeling as a Molecular Basis of Expression Noise |
::''Christopher Brown, Hinrich Boeger Lab, UC Santa Cruz'' | ::''Christopher Brown, Hinrich Boeger Lab, UC Santa Cruz'' | ||
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3:50 - 4:50 Keynote Speaker M106<br> | 3:50 - 4:50 Keynote Speaker M106<br> | ||
− | ::: | + | :::“Genes and proteins that control secretion and autophagy.” |
''Randy Schekman, Howard Hughes Investigator and Professor of Cell and Developmental Biology, UC Berkeley''<Br> | ''Randy Schekman, Howard Hughes Investigator and Professor of Cell and Developmental Biology, UC Berkeley''<Br> | ||
''Nobel Prize in Physiology or Medicine, 2013'' | ''Nobel Prize in Physiology or Medicine, 2013'' | ||
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4:50 - 5:30 Wine reception (Courtyard outside M106) | 4:50 - 5:30 Wine reception (Courtyard outside M106) | ||
− | [[media:Spring_Bay_Area_Yeast_Meeting_2014. | + | [[media:Spring_Bay_Area_Yeast_Meeting_2014(2).pdf|Printable Schedule]] |
==Keynote Speaker== | ==Keynote Speaker== | ||
− | Randy Schekman, UC Berkeley (Nobel Prize in Physiology or Medicine, 2013) | + | Genes and proteins that control secretion and autophagy. |
+ | <br> | ||
+ | ''Randy Schekman, UC Berkeley (Nobel Prize in Physiology or Medicine, 2013)'' | ||
==Maps & Parking== | ==Maps & Parking== |
Latest revision as of 08:31, 18 April 2014
Contents
Spring 2014 Bay Area Yeast Meeting Information
The Spring Bay Area Yeast Meeting is hosted by the Saccharomyces Genome Database group at Stanford University and UC Berkeley.
- Venue: M106, Alway Building, Stanford Medical Center (intersection of Roth and Campus Dr)
- Searchable Map- http://campus-map.stanford.edu/
- Location: Stanford University, CA
- Date: April 19th, 2014
Registration
- Registration is free. Anybody is welcome to attend.
Program
9:00 - 10:00 Coffee and Registration (Courtyard outside M106)
10:00 - 12:00 Research Talks M106
- FRET-based assay for monitoring septin filament assembly
- Elizabeth “Libby” Booth, Jeremy Thorner Lab, UC Berkeley
- Yeast's evil relative: a fungus that swims, crawls, and kills vertebrates
- Tim Stearns, Stanford University
- Number of Cln3 molecules determines budding probability in yeast
- Kurt Schmoller , J.M. Skotheim Lab, Stanford University
- Re-replication of a centromere induces whole-chromosomal instability and aneuploidy
- Stacey Hanlon, Joachim J. Li Lab, UCSF
- Heterozygote advantage in adapting diploids
- Diamantis Sellis, Dmitri Petrov Lab, Stanford University
- A Metabolomics Approach to Study Chardonnay Wine Fermentation
- Chandra Richter - Viticulture, Chemistry and Enology, E&J Gallo Winery
12:00 - 1:45 Lunch and Posters (Courtyard outside M106)
1:50 - 3:45 Research Talks M106
- Investigating the functional defects of human p53 mutations in a yeast model system: an introductory molecular biology laboratory course for undergraduates
- Daria Hekmat-Scafe, Martha Cyert and Tim Stearns Lab, Stanford University
- Chromatin Remodeling as a Molecular Basis of Expression Noise
- Christopher Brown, Hinrich Boeger Lab, UC Santa Cruz
- Insights into yeast gene regulation though high-throughput and precision RNA boundary mapping
- Aino Järvelin, Lars Steinmetz Lab, EMBL
- Transient expression of intrinsically disordered proteins heritably transforms the phenotypic landscape of S. cerevisiae
- Daniel Jarosz, Stanford University
- Accounting for biases in riboprofiling data indicates a major role for proline in stalling translation
- Carlo Artieri, Hunter B. Fraser Lab, Stanford University
- The role of nucleoporins specifically Nup2 during meiosis in budding yeast
- Daniel Chu, Sean Burgess Lab, UC Davis
3:50 - 4:50 Keynote Speaker M106
- “Genes and proteins that control secretion and autophagy.”
Randy Schekman, Howard Hughes Investigator and Professor of Cell and Developmental Biology, UC Berkeley
Nobel Prize in Physiology or Medicine, 2013
4:50 - 5:30 Wine reception (Courtyard outside M106)
Keynote Speaker
Genes and proteins that control secretion and autophagy.
Randy Schekman, UC Berkeley (Nobel Prize in Physiology or Medicine, 2013)
Maps & Parking
Parking is free during the weekend on Stanford campus.
Parking structure closest to M106 is at the intersection of Roth and Campus drive. Stanford University maps
Campus Shuttle (Marguerite)
Free campus shuttle from downtown Palo Alto is available. The Palo Alto Train Station is the closest stop to Stanford University. A variety of maps for the Marguerite Shuttle are available.
Realtime Shuttle Bus Service. The Stanford Marguerite Shuttle is free.
Sponsors
- Amyris Biotechnologies
- E&J Gallo Winery
- School of Medicine, Stanford University
Need help?
- If you have any questions please contact us at sgd-helpdesk