The following list was auto-generated 5 days ago.
- Slit/Robo signaling regulates cell fate decisions in the intestinal stem cell lineage of Drosophila. Cell Rep. 7, 1867-75. (2014 Jun 26).
- Misregulation of an adaptive metabolic response contributes to the age-related disruption of lipid homeostasis in Drosophila. Cell Rep. 4, 1250-61. (2013 Sep 26).
- Notch-mediated suppression of TSC2 expression regulates cell differentiation in the Drosophila intestinal stem cell lineage. PLoS Genet. 8, e1003045. (2012 Jan 01).
- Maintaining tissue homeostasis: dynamic control of somatic stem cell activity. Cell Stem Cell. 9, 402-11. (2011 Nov 04).
- Regulation of Drosophila lifespan by JNK signaling. Exp Gerontol. 46, 349-54. (2011 May 01).
- EGF signaling regulates the proliferation of intestinal stem cells in Drosophila. Development. 138, 1045-55. (2011 Mar 01).
- Peroxiredoxin stabilization of DE-cadherin promotes primordial germ cell adhesion. Dev Cell. 20, 233-43. (2011 Feb 15).
- Redox regulation by Keap1 and Nrf2 controls intestinal stem cell proliferation in Drosophila. Cell Stem Cell. 8, 188-99. (2011 Feb 04).
- Lifespan extension by preserving proliferative homeostasis in Drosophila. PLoS Genet. 6, e1001159. (2010 Oct 01).
- It's all about balance: p53 and aging. Aging (Albany NY). 1, 884-6. (2009 Nov 01).
- JNK activity in somatic stem cells causes loss of tissue homeostasis in the aging Drosophila gut. Cell Stem Cell. 3, 442-55. (2008 Oct 09).
- 14-3-3 Epsilon antagonizes FoxO to control growth, apoptosis and longevity in Drosophila. Aging Cell. 7, 688-99. (2008 Oct 01).
- The Arabidopsis thaliana sulfiredoxin is a plastidic cysteine-sulfinic acid reductase involved in the photooxidative stress response. Plant J. 49, 505-14. (2007 Feb 01).
- A cysteine-sulfinic acid in peroxiredoxin regulates H2O2-sensing by the antioxidant Pap1 pathway. Proc Natl Acad Sci U S A. 102, 8875-80. (2005 Jun 21).
- ERF nuclear shuttling, a continuous monitor of Erk activity that links it to cell cycle progression. Mol Cell Biol. 24, 1206-18. (2004 Feb 01).
- ATP-dependent reduction of cysteine-sulphinic acid by S. cerevisiae sulphiredoxin. Nature. 425, 980-4. (2003 Oct 30).