FBF and Its Dual Control of Gld-1 Expression in the Caenorhabditis Elegans Germline

Overview

Journal Genetics

Publisher Oxford University Press

Specialty Genetics

Date 2009 Feb 18

PMID 19221201

Citations 88

Authors

Nayoung Suh

Sarah L Crittenden

Aaron Goldstrohm

Brad Hook

Beth Thompson

Marvin Wickens

Judith Kimble

Affiliations

Soon will be listed here.

Abstract

FBF, a PUF RNA-binding protein, is a key regulator of the mitosis/meiosis decision in the Caenorhabditis elegans germline. Genetically, FBF has a dual role in this decision: it maintains germ cells in mitosis, but it also facilitates entry into meiosis. In this article, we explore the molecular basis of that dual role. Previous work showed that FBF downregulates gld-1 expression to promote mitosis and that the GLD-2 poly(A) polymerase upregulates gld-1 expression to reinforce the decision to enter meiosis. Here we ask whether FBF can act as both a negative regulator and a positive regulator of gld-1 expression and also investigate its molecular mechanisms of control. We first show that FBF co-immunoprecipitates with gld-1 mRNA, a result that complements previous evidence that FBF directly controls gld-1 mRNA. Then we show that FBF represses gld-1 expression, that FBF physically interacts with the CCF-1/Pop2p deadenylase and can stimulate deadenylation in vitro, and that CCF-1 is partially responsible for maintaining low GLD-1 in the mitotic region. Finally, we show that FBF can elevate gld-1 expression, that FBF physically interacts with the GLD-2 poly(A) polymerase, and that FBF can enhance GLD-2 poly(A) polymerase activity in vitro. We propose that FBF can affect polyadenylation either negatively by its CCF-1 interaction or positively by its GLD-2 interaction.

Citing Articles

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The retinoic acid family-like nuclear receptor SmRAR identified by single-cell transcriptomics of ovarian cells controls oocyte differentiation in Schistosoma mansoni.

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The PUF RNA-binding protein, FBF-2, maintains stem cells without binding to RNA.

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PUF3 RNA binding protein of regulates mitochondrial morphology and function.

Mejia-Jaramillo A, Fernandez G, Ospina-Zapata H, Murillo A, Jimenez D, Gomez L Heliyon. 2024; 10(12):e32810.

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A higher order PUF complex is central to regulation of germline stem cells.

Qiu C, Crittenden S, Carrick B, Dillard L, Costa Dos Santos S, Dandey V bioRxiv. 2024; .

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