October 24 - 28, 2011
Building 10 & Natcher Conference Center
- General Schedule of Events
- Opening Plenary Session
- Concurrent Symposia Sessions
- Improving Workplace Dynamics
- FARE Award Ceremony
- Poster Sessions
- Special Exhibits on Resources for Intramural Research
- TSA Research Festival Exhibit Show
- Research Festival Committees
- Past Research Festivals
2011 program
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Two forkhead transcription factors regulate the division of cardiac progenitor cells by a Polo-dependent pathway
| Monday, October 24, 2011 — Poster Session I | |||
|---|---|---|---|
Noon – 2:00 p.m. |
Natcher Conference Center |
NHLBI |
DEV-1 |
* FARE Award Winner
Authors
- SM Ahmad
- TR Tansey
- N Jeffries
- SS Gisselbrecht
- NM Rusan
- AM Michelson
Abstract
The development of a complex organ requires the specification of appropriate numbers of each of its constituent cell types, as well as their proper differentiation and correct positioning relative to each other. During Drosophila cardiogenesis, all three of these processes are controlled by jumeau (jumu) and Checkpoint suppressor homologue (CHES-1-like), two genes encoding forkhead transcription factors that we discovered utilizing an integrated genetic, genomic and computational strategy for identifying novel genes expressed in the developing Drosophila heart. Both jumu and CHES-1-like are required during asymmetric cell division for the derivation of two distinct cardiac cell types from their mutual precursor, and in symmetric cell divisions that produce yet a third type of heart cell. jumu and CHES-1-like control the division of cardiac progenitors by regulating the activity of Polo, a kinase involved in multiple steps of mitosis. This pathway demonstrates how transcription factors integrate diverse developmental processes during organogenesis.
