C. elegans sym-1 is a downstream target of the hunchback-like-1 developmental timing transcription factor.

Niwa, Ryusuke, Kazumasa Hada, Kouichi Moliyama, Ryosuke L Ohniwa, Yi-Meng Tan, Katherine Olsson-Carter, Woo Chi, Valerie Reinke, and Frank J Slack. 2009. “C. Elegans Sym-1 Is a Downstream Target of the Hunchback-Like-1 Developmental Timing Transcription Factor.”. Cell Cycle (Georgetown, Tex.) 8 (24): 4147-54.

Abstract

In the nematode Caenorhabditis elegans, the let-7 microRNA (miRNA) and its family members control the timing of key developmental events in part by directly regulating expression of hunchback-like-1 (hbl-1). C. elegans hbl-1 mutants display multiple developmental timing deficiencies, including cell cycle defects during larval development. While hbl-1 is predicted to encode a transcriptional regulator, downstream targets of HBL-1 have not been fully elucidated. Here we report using microarray analysis to uncover genes downstream of HBL-1. We established a transgenic strain that overexpresses hbl-1 under the control of a heat shock promoter. Heat shock-induced hbl-1 overexpression led to retarded hypodermal structures at the adult stage, opposite to the effect seen in loss of function (lf) hbl-1 mutants. The microarray screen identified numerous potential genes that are upregulated or downregulated by HBL-1, including sym-1, which encodes a leucine-rich repeat protein with a signal sequence. We found an increase in sym-1 transcription in the heat shock-induced hbl-1 overexpression strain, while loss of hbl-1 function caused a decrease in sym-1 expression levels. Furthermore, we found that sym-1(lf) modified the hypodermal abnormalities in hbl-1 mutants. Given that SYM-1 is a protein secreted from hypodermal cells to the surrounding cuticle, we propose that the adult-specific cuticular structures may be under the temporal control of HBL-1 through regulation of sym-1 transcription.

Last updated on 10/18/2024
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