The RNA helicase DDX5 is a reprogramming roadblock

Multisubunit cullin-RING ubiquitin ligase 4 (CRL4)-DCAF12 recognizes the C-terminal degron containing acidic amino acid residues. However, its physiological roles and substrates are largely unknown. Purification of CRL4-DCAF12 complexes revealed a wide range of potential substrates, including MOV10, an “ancient” RNA-induced silencing complex (RISC) complex RNA helicase. We show that DCAF12 controls the MOV10 protein level via its C-terminal motif in a proteasome- and CRL-dependent manner. Next, we generated Dcaf12 knockout mice and demonstrated that the DCAF12-mediated degradation of MOV10 is conserved in mice and humans. Detailed analysis of Dcaf12-deficient mice revealed that their testes produce fewer mature sperms, phenotype accompanied by elevated MOV10 and imbalance in meiotic markers SCP3 and γ-H2AX. Additionally, the percentages of splenic CD4+ T and natural killer T (NKT) cell populations were significantly altered. In vitro, activated Dcaf12-deficient T cells displayed inappropriately stabilized MOV10 and increased levels of activated caspases. In summary, we identified MOV10 as a novel substrate of CRL4-DCAF12 and demonstrated the biological relevance of the DCAF12-MOV10 pathway in spermatogenesis and T cell activation.

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RNA Helicase A Regulates the Replication of RNA Viruses

Viruses ◽

10.3390/v13030361 ◽

2021 ◽

Vol 13 (3) ◽

pp. 361

Author(s):

Rui-Zhu Shi ◽

Yuan-Qing Pan ◽

Li Xing

Keyword(s):

Virus Replication ◽

Rna Binding ◽

Rna Viruses ◽

Rna Helicase ◽

Rna Helicase A ◽

Double Stranded Rna ◽

Binding Domains ◽

N Terminus

The RNA helicase A (RHA) is a member of DExH-box helicases and characterized by two double-stranded RNA binding domains at the N-terminus. RHA unwinds double-stranded RNA in vitro and is involved in RNA metabolisms in the cell. RHA is also hijacked by a variety of RNA viruses to facilitate virus replication. Herein, this review will provide an overview of the role of RHA in the replication of RNA viruses.

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A complex containing the Sm protein CAR-1 and the RNA helicase CGH-1 is required for embryonic cytokinesis in Caenorhabditis elegans

The Journal of Cell Biology ◽

10.1083/jcb.200506124 ◽

2005 ◽

Vol 171 (2) ◽

pp. 267-279 ◽

Cited By ~ 156

Author(s):

Anjon Audhya ◽

Francie Hyndman ◽

Ian X. McLeod ◽

Amy S. Maddox ◽

John R. Yates ◽

...

Keyword(s):

Cell Division ◽

Caenorhabditis Elegans ◽

Rna Binding ◽

Rna Binding Protein ◽

Rna Helicase ◽

Aurora B ◽

Aurora B Kinase ◽

Daughter Cells ◽

Sm Protein ◽

Spindle Structure

Cytokinesis completes cell division and partitions the contents of one cell to the two daughter cells. Here we characterize CAR-1, a predicted RNA binding protein that is implicated in cytokinesis. CAR-1 localizes to germline-specific RNA-containing particles and copurifies with the essential RNA helicase, CGH-1, in an RNA-dependent fashion. The atypical Sm domain of CAR-1, which directly binds RNA, is dispensable for CAR-1 localization, but is critical for its function. Inhibition of CAR-1 by RNA-mediated depletion or mutation results in a specific defect in embryonic cytokinesis. This cytokinesis failure likely results from an anaphase spindle defect in which interzonal microtubule bundles that recruit Aurora B kinase and the kinesin, ZEN-4, fail to form between the separating chromosomes. Depletion of CGH-1 results in sterility, but partially depleted worms produce embryos that exhibit the CAR-1–depletion phenotype. Cumulatively, our results suggest that CAR-1 functions with CGH-1 to regulate a specific set of maternally loaded RNAs that is required for anaphase spindle structure and cytokinesis.

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