AI Article Synopsis
- Heterochronic genes in C. elegans, such as let-7 and lin-4, play a role in determining the timing of cell fate by down-regulating lin-41 through their microRNA functions.
- Researchers have cloned and sequenced the lin-41 orthologs in mammals, finding conserved sites for let-7 and mir-125 in their 3'UTRs.
- Mouse lin-41 is expressed during embryonic development, particularly in limb buds, and is down-regulated when let-7c and mir-125 levels increase, indicating its role in controlling limb formation.
Article Abstract
In C. elegans, heterochronic genes control the timing of cell fate determination during development. Two heterochronic genes, let-7 and lin-4, encode microRNAs (miRNAs) that down-regulate a third heterochronic gene lin-41 by binding to complementary sites in its 3'UTR. let-7 and lin-4 are conserved in mammals. Here we report the cloning and sequencing of mammalian lin-41 orthologs. We find that mouse and human lin-41 genes contain predicted conserved complementary sites for let-7 and the lin-4 ortholog, mir-125, in their 3'UTRs. Mouse lin-41 (Mlin-41) is temporally expressed in developing mouse embryos, most dramatically in the limb buds. Mlin-41 is down-regulated during mid-embryogenesis at the time when mouse let-7c and mir-125 RNA levels are up-regulated. Our results suggest that mammalian lin-41 is temporally regulated by miRNAs in order to direct key developmental events such as limb formation.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2596717 | PMC |
| http://dx.doi.org/10.1002/dvdy.20599 | DOI Listing |
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