Post-transcriptional Repression of CFP-1 Expands the Regulatory Repertoire of LIN-41/TRIM71

Overview

Journal Nucleic Acids Res

Publisher Oxford University Press

Specialty Biochemistry

Date 2023 Sep 6

PMID 37670562

Authors

Pooja Kumari

Lars Harald Thuestad

Rafal Ciosk

Affiliations

Soon will be listed here.

Abstract

The Caenorhabditis elegans LIN-41/TRIM71 is a well-studied example of a versatile regulator of mRNA fate, which plays different biological functions involving distinct post-transcriptional mechanisms. In the soma, LIN-41 determines the timing of developmental transitions between larval stages. The somatic LIN-41 recognizes specific mRNAs via LREs (LIN-41 Recognition Elements) and elicits either mRNA decay or translational repression. In the germline, LIN-41 controls the oocyte-to-embryo transition (OET), although the relevant targets and regulatory mechanisms are poorly understood. The germline LIN-41 was suggested to regulate mRNAs indirectly by associating with another RNA-binding protein. We show here that LIN-41 can also regulate germline mRNAs via the LREs. Through a computational-experimental analysis, we identified the germline mRNAs potentially controlled via LREs and validated one target, the cfp-1 mRNA, encoding a conserved chromatin modifier. Our analysis suggests that cfp-1 may be a long-sought target whose LIN-41-mediated regulation during OET facilitates the transcriptional reprogramming underlying the switch from germ- to somatic cell identity.

Citing Articles

Impaired primitive erythropoiesis and defective vascular development in Trim71-KO embryos.

Beckroge T, Jux B, Seifert H, Theobald H, De Domenico E, Paulusch S Life Sci Alliance. 2025; 8(4).

PMID: 39909558 PMC: 11799773. DOI: 10.26508/lsa.202402956.

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