| Susan Celniker |
Lawrence Berkeley National Laboratory |
D. melanogaster |
Identify and map protein coding and non-protein coding transcribed sequences using microarrays, high-throughput sequencing and computational predictions. |
| Steven Henikoff |
Fred Hutchinson Cancer Research Center |
C. elegans / D. melanogaster |
Identify sites of active chromatin by mapping core histone variants using a biotin-tagging system. |
| Gary Karpen |
Lawrence Berkeley National Laboratory |
D. melanogaster |
Map and analyze chromosomal proteins and histone modifications using ChIP-chip. |
| Eric Lai |
Memorial Sloan-Kettering Cancer Center |
D. melanogaster |
Characterize small RNAs using high-throughput sequencing. |
| Jason Lieb |
University of North Carolina at Chapel Hill |
C. elegans |
Map and analyze chromosomal protein targets by ChIP-chip. |
| David MacAlpine |
Duke University |
D. melanogaster |
Map origins of replication; determine replication timing; identify sites of pre-replicative complex formation using microarrays. |
| Fabio Piano |
New York University |
C. elegans |
Identify microRNA binding elements in 3'UTRs using microarrays and high-throughput sequencing. |
| Michael Snyder |
Yale University |
C. elegans |
Pilot effort to demonstrate feasibility of using a tagging strategy to map transcription factor binding sites by ChIP-chip |
| Robert Waterston |
University of Washington |
C. elegans |
Identify and functionally classify protein coding and non-protein coding transcribed sequencing, primarily using computational methods. |
| Kevin White |
University of Chicago |
D. melanogaster |
Map transcription factor binding sites using ChIP-chip. |
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