Caoling Xu scite author profile

Caoling Xu

5Publications

36Citation Statements Received

252Citation Statements Given

How they've been cited

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250

Affiliations

University of Science and Technology of China, First Affiliated Hospital of Henan University of Science and Technology

Publications

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Maternal NAT10 orchestrates oocyte meiotic cell-cycle progression and maturation in mice

Jiang

Zhu

et al. 2023

Nat Commun

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In mammals, the production of mature oocytes necessitates rigorous regulation of the discontinuous meiotic cell-cycle progression at both the transcriptional and post-transcriptional levels. However, the factors underlying this sophisticated but explicit process remain largely unclear. Here we characterize the function of N-acetyltransferase 10 (Nat10), a writer for N4-acetylcytidine (ac4C) on RNA molecules, in mouse oocyte development. We provide genetic evidence that Nat10 is essential for oocyte meiotic prophase I progression, oocyte growth and maturation by sculpting the maternal transcriptome through timely degradation of poly(A) tail mRNAs. This is achieved through the ac4C deposition on the key CCR4-NOT complex transcripts. Importantly, we devise a method for examining the poly(A) tail length (PAT), termed Hairpin Adaptor-poly(A) tail length (HA-PAT), which outperforms conventional methods in terms of cost, sensitivity, and efficiency. In summary, these findings provide genetic evidence that unveils the indispensable role of maternal Nat10 in oocyte development.

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Building RNA-protein germ granules: insights from the multifaceted functions of DEAD-box helicase Vasa/Ddx4 in germline development

Cao

Bao

2021

Cell. Mol. Life Sci.

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The segregation and maintenance of a dedicated germline in multicellular organisms is essential for species propagation in the sexually reproducing metazoan kingdom. The germline is distinct from somatic cells in that it is ultimately dedicated to acquiring the "totipotency" and to regenerating the offspring after fertilization. The most striking feature of germ cells lies in the presence of characteristic membraneless germ granules that have recently proven to behave like liquid droplets resulting from liquid-liquid phase separation (LLPS). Vasa/Ddx4, a faithful DEAD-box family germline marker highly conserved across metazoan species, harbors canonical DEAD-box motifs and typical intrinsically disordered sequences at both the N-terminus and C-terminus. This feature enables it to serve as a primary driving force behind germ granule formation and helicase-mediated RNA metabolism (e.g., piRNA biogenesis). Genetic ablation of Vasa/Ddx4 or the catalytic-dead mutations abolishing its helicase activity led to sexually dimorphic germline defects resulting in either male or female sterility among diverse species. While recent efforts have discovered pivotal functions of Vasa/Ddx4 in somatic cells, especially in multipotent stem cells, we herein summarize the helicase-dependent and -independent functions of Vasa/Ddx4 in the germline, and discuss recent findings of Vasa/Ddx4-mediated phase separation, germ granule formation and piRNA-dependent retrotransposon control essential for germline development. Keywords DEAD-box helicase • Germline • Transposable elements (TE) • Phase separation • Spermatogenesis • Spermiogenesis • piRNA Cellular and Molecular Life Sciences * Jianqiang Bao

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Efficient precise integration of large DNA sequences with 3′-overhang dsDNA donors using CRISPR/Cas9

Han

Guo

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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CRISPR/Cas9 genome-editing tools have tremendously boosted our capability of manipulating the eukaryotic genomes in biomedical research and innovative biotechnologies. However, the current approaches that allow precise integration of gene-sized large DNA fragments generally suffer from low efficiency and high cost. Herein, we developed a versatile and efficient approach, termed LOCK ( L ong dsDNA with 3′- O verhangs mediated C RISPR K nock-in), by utilizing specially designed 3′-overhang double-stranded DNA (odsDNA) donors harboring 50-nt homology arm. The length of the 3′-overhangs of odsDNA is specified by the five consecutive phosphorothioate modifications. Compared with existing methods, LOCK allows highly efficient targeted insertion of kilobase-sized DNA fragments into the mammalian genomes with low cost and low off-target effects, yielding >fivefold higher knock-in frequencies than conventional homologous recombination-based approaches. This newly designed LOCK approach based on homology-directed repair is a powerful tool suitable for gene-sized fragment integration that is urgently needed for genetic engineering, gene therapies, and synthetic biology.

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Biallelic Variants inMAD2L1BP(p31^comet) Cause Female Infertility Characterized by Oocyte Maturation Arrest

Huang

Dai

et al. 2023

Preprint

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Human oocyte maturation arrest represents one of the severe conditions for female patients with primary infertility. However, the genetic factors underlying this human disease remain largely unknown. The spindle assembly checkpoint (SAC) is an intricate surveillance mechanism that ensures accurate segregation of chromosomes throughout cell cycles. Once the kinetochores of chromosomes are correctly attached to bipolar spindles and the SAC is satisfied, the MAD2L1BP, best known as p31comet, binds MAD2 and recruits the AAA+-ATPase TRIP13 to disassemble the mitotic checkpoint complex (MCC), leading to the cell cycle progression. In this study, by whole-exome sequencing (WES), we identified homozygous and compound heterozygous MAD2L1BP variants in three families with female patients diagnosed with primary infertility owing to oocyte metaphase I (MI) arrest. Functional studies revealed that the protein variants resulting from the C-terminal truncation of MAD2L1BP lost their binding ability to MAD2. cRNA microinjection of full-length or truncated MAD2L1BP uncovered their discordant roles in driving the extrusion of polar body 1 (PB1) in mouse oocytes. Furthermore, the patient's oocytes carrying the mutated MAD2L1BP variants resumed polar body extrusion (PBE) when rescued by microinjection of full-length MAD2L1BP cRNAs. Together, our studies identified and characterized novel biallelic variants in MAD2L1BP responsible for human oocyte maturation arrest at MI, and thus prompted new therapeutic avenues for curing female primary infertility.

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Author response: Biallelic variants in MAD2L1BP (p31comet) cause female infertility characterized by oocyte maturation arrest

Huang

Dai

et al. 2023

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Caoling Xu

Maternal NAT10 orchestrates oocyte meiotic cell-cycle progression and maturation in mice

Building RNA-protein germ granules: insights from the multifaceted functions of DEAD-box helicase Vasa/Ddx4 in germline development

Efficient precise integration of large DNA sequences with 3′-overhang dsDNA donors using CRISPR/Cas9

Biallelic Variants inMAD2L1BP(p31^comet) Cause Female Infertility Characterized by Oocyte Maturation Arrest

Author response: Biallelic variants in MAD2L1BP (p31comet) cause female infertility characterized by oocyte maturation arrest

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Caoling Xu

Maternal NAT10 orchestrates oocyte meiotic cell-cycle progression and maturation in mice

Building RNA-protein germ granules: insights from the multifaceted functions of DEAD-box helicase Vasa/Ddx4 in germline development

Efficient precise integration of large DNA sequences with 3′-overhang dsDNA donors using CRISPR/Cas9

Biallelic Variants inMAD2L1BP(p31comet) Cause Female Infertility Characterized by Oocyte Maturation Arrest

Author response: Biallelic variants in MAD2L1BP (p31comet) cause female infertility characterized by oocyte maturation arrest

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Biallelic Variants inMAD2L1BP(p31^comet) Cause Female Infertility Characterized by Oocyte Maturation Arrest