The crucial role of CTCF in mitotic progression during early development of sea urchin

IF 1.7 4区 生物学 Q4 CELL BIOLOGY
Kaichi Watanabe, Megumi Fujita, Kazuko Okamoto, Hajime Yoshioka, Miki Moriwaki, Hideki Tagashira, Akinori Awazu, Takashi Yamamoto, Naoaki Sakamoto
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引用次数: 1

Abstract

CCCTC-binding factor (CTCF), an insulator protein with 11 zinc fingers, is enriched at the boundaries of topologically associated domains (TADs) in eukaryotic genomes. In this study, we isolated and analyzed the cDNAs encoding HpCTCF, the CTCF homolog in the sea urchin Hemicentrotus pulcherrimus, to investigate its expression patterns and functions during the early development of sea urchin. HpCTCF contains nine zinc fingers corresponding to fingers 2–10 of the vertebrate CTCF. Expression pattern analysis revealed that HpCTCF mRNA was detected at all developmental stages and in the entire embryo. Upon expressing the HpCTCF-GFP fusion protein in early embryos, we observed its uniform distribution within interphase nuclei. However, during mitosis, it disappeared from the chromosomes and subsequently reassembled on the chromosome during telophase. Moreover, the morpholino-mediated knockdown of HpCTCF resulted in mitotic arrest during the morula to blastula stage. Most of the arrested chromosomes were not phospholylated at serine 10 of histone H3, indicating that mitosis was arrested at the telophase by HpCTCF depletion. Furthermore, impaired sister chromatid segregation was observed using time-lapse imaging of HpCTCF-knockdown embryos. Thus, HpCTCF is essential for mitotic progression during the early development of sea urchins, especially during the telophase-to-interphase transition. However, the normal development of pluteus larvae in CRISPR-mediated HpCTCF-knockout embryos suggests that disruption of zygotic HpCTCF expression has little effect on embryonic and larval development.

CTCF在海胆早期发育过程中有丝分裂进程中的关键作用。
CTCT结合因子(CTCF)是一种具有11个锌指的绝缘体蛋白,在真核生物基因组中的拓扑相关结构域(TADs)边界富集。在本研究中,我们分离并分析了海胆中CTCF同源物HpCTCF的cDNA,以研究其在海胆早期发育过程中的表达模式和功能。HpCTCF包含9个锌指,对应于脊椎动物CTCF的指2-10。表达模式分析显示,HpCTCFmRNA在所有发育阶段和整个胚胎中都能检测到。在早期胚胎中表达HpCTCF-GFP融合蛋白后,我们观察到其在间期细胞核内的均匀分布。然而,在有丝分裂过程中,它从染色体上消失,随后在末期重新组装在染色体上。此外,吗啉介导的HpCTCF的敲除导致桑椹胚至囊胚期有丝分裂停滞。大多数停滞的染色体在组蛋白H3的丝氨酸10处没有磷酸化,这表明有丝分裂在HpCTCF耗竭的末期停滞。此外,使用HpCTCF敲除胚胎的延时成像观察到姐妹染色单体分离受损。因此,HpCTCF对海胆早期发育过程中的有丝分裂进展至关重要,尤其是在末期到间期的过渡过程中。然而,冥王星幼虫在CRISPR介导的HpCTCF敲除胚胎中的正常发育表明,合子HpCTCF表达的破坏对胚胎和幼虫发育几乎没有影响。
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来源期刊
Development Growth & Differentiation
Development Growth & Differentiation 生物-发育生物学
CiteScore
4.60
自引率
4.00%
发文量
62
审稿时长
6 months
期刊介绍: Development Growth & Differentiation (DGD) publishes three types of articles: original, resource, and review papers. Original papers are on any subjects having a context in development, growth, and differentiation processes in animals, plants, and microorganisms, dealing with molecular, genetic, cellular and organismal phenomena including metamorphosis and regeneration, while using experimental, theoretical, and bioinformatic approaches. Papers on other related fields are also welcome, such as stem cell biology, genomics, neuroscience, Evodevo, Ecodevo, and medical science as well as related methodology (new or revised techniques) and bioresources. Resource papers describe a dataset, such as whole genome sequences and expressed sequence tags (ESTs), with some biological insights, which should be valuable for studying the subjects as mentioned above. Submission of review papers is also encouraged, especially those providing a new scope based on the authors’ own study, or a summarization of their study series.
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