Dustin Haskell scite author profile

Dustin Haskell

5Publications

4Citation Statements Received

136Citation Statements Given

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Kansas State University

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KH domain containing RNA-binding proteins coordinate with microRNAs to regulate Caenorhabditis elegans development

Haskell

Zinovyeva

2021

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microRNAs (miRNAs) and RNA binding proteins (RBPs) regulate gene expression at the post-transcriptional level, but the extent to which these key regulators of gene expression coordinate their activities and the precise mechanisms of this coordination are not well understood. RNA binding proteins often have recognizable RNA binding domains that correlate with specific protein function. Recently, several RBPs containing K Homology (KH) RNA binding domains were shown to work with miRNAs to regulate gene expression, raising the possibility that KH domains may be important for coordinating with miRNA pathways in gene expression regulation. To ascertain whether additional KH domain proteins functionally interact with miRNAs during Caenorhabditis elegans development, we knocked down twenty-four genes encoding KH-domain proteins in several miRNA sensitized genetic backgrounds. Here, we report that a majority of the KH domain-containing genes genetically interact with multiple miRNAs and Argonaute alg-1. Interestingly, two KH domain genes, predicted splicing factors sfa-1 and asd-2, genetically interacted with all of the miRNA mutants tested, while other KH domain genes exhibited genetic interactions only with specific miRNAs. Our domain architecture and phylogenetic relationship analyses of the C. elegans KH domain-containing proteins revealed potential groups that may share both structure and function. Collectively, we show that many C. elegans KH domain RBPs functionally interact with miRNAs, suggesting direct or indirect coordination between these two classes of post-transcriptional gene expression regulators.

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KH domain containing RNA-binding proteins coordinate with microRNAs to regulateCaenorhabditis elegansdevelopment

Haskell

Zinovyeva

2020

Preprint

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microRNAs (miRNAs) and RNA binding proteins (RBPs) regulate gene expression at the post-transcriptional level, but the extent to which these key regulators of gene expression coordinate and the precise mechanisms of their coordination are not well understood. RNA binding proteins often have recognizable RNA binding domains that correlate with specific protein function. Recently, several RBPs containing K Homology (KH) RNA binding domains were shown to work with miRNAs to regulate gene expression, raising the possibility that KH domains may be important for coordinating with miRNA pathways in gene expression regulation. To ascertain whether additional KH domain proteins functionally interact with miRNAs during Caenorhabditis elegans development, we knocked down twenty-four genes encoding KH-domain proteins in several miRNA sensitized genetic backgrounds. Here, we report that a majority of the KH domain-containing genes genetically interact with multiple miRNAs and Argonaute alg-1. Interestingly, two KH domain genes, predicted splicing factors sfa- and asd-2, genetically interacted with all of the miRNA mutants tested, while other KH domain genes exhibited functional interactions only with specific miRNAs. Our domain architecture and phylogenetic relationship analyses of the C. elegans KH domain-containing proteins revealed potential groups that may share both structure and function. Collectively, we show that many C. elegans KH domain RBPs functionally interact with miRNAs, suggesting direct or indirect coordination between these two classes of post-transcriptional gene expression regulators.

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Two new CRISPR-generated alleles in the C. elegans mir-1022 gene.

Horn

Sholl

Haskell

et al. 2020

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Two Deletion Alleles in the C. elegans mir-49 gene.

Dillon

Winans

et al. 2020

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Two novel alleles in C. elegans mir-1822 gene.

Anderson

Mash

Haskell

et al. 2020

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Dustin Haskell

KH domain containing RNA-binding proteins coordinate with microRNAs to regulate Caenorhabditis elegans development

KH domain containing RNA-binding proteins coordinate with microRNAs to regulateCaenorhabditis elegansdevelopment

Two new CRISPR-generated alleles in the C. elegans mir-1022 gene.

Two Deletion Alleles in the C. elegans mir-49 gene.

Two novel alleles in C. elegans mir-1822 gene.

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