"The 21-Nucleotide let-7 RNA Regulates Developmental Timing in Caenorhabditis elegans."
Reinhart BJ, Slack FJ, Basson M, Pasquinelli AE, Bettinger JC, Rougvie AE, Horvitz HR, and Ruvkun G.
Department of Molecular Biology, Massachusetts General Hospital, and Harvard Medical School, Boston 02114, USA.
The C. elegans heterochronic gene pathway consists of a cascade of regulatory genes that are temporally controlled to specify the timing of developmental events. Mutations in heterochronic genes cause temporal transformations in cell fates in which stage-specific events are omitted or reiterated. Here we show that let-7 is a heterochronic switch gene. Loss of let-7 gene activity causes reiteration of larval cell fates during the adult stage, whereas increased let-7 gene dosage causes precocious expression of adult fates during larval stages. let-7 encodes a temporally regulated 21-nucleotide RNA that is complementary to elements in the 3' untranslated regions of the heterochronic genes lin-14, lin-28, lin-41, lin-42 and daf-12, indicating that expression of these genes may be directly controlled by let-7. A reporter gene bearing the lin-41 3' untranslated region is temporally regulated in a let-7-dependent manner. A second regulatory RNA, lin-4, negatively regulates lin-14 and lin-28 through RNA-RNA interactions with their 3' untranslated regions. We propose that the sequential stage-specific expression of the lin-4 and let-7 regulatory RNAs triggers transitions in the complement of heterochronic regulatory proteins to coordinate developmental timing.
Additional References:
0. "Conservation of the Sequence and Temporal Expression of let-7 Heterochronic Regulatory RNA".
1. "Mechanisms of Repression and De-Repression within Interphase Chromatin".
2. "A Model of Specific De-Repression within Interphase Chromatin".
3. "Selective Gene De-Repression by De-Repressor RNA".
4. "Nuclear RNA Species Activate DNA Transcription within Chromatin".
5. "Oncogenes as Molecular Targets within Active Chromatin".
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