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一个受发育调控的基因ASI2是嗜热四膜虫大核原基内周期所必需的。

A developmentally regulated gene, ASI2, is required for endocycling in the macronuclear anlagen of Tetrahymena.

作者信息

Yin Lihui, Gater Susan T, Karrer Kathleen M

机构信息

Department of Biological Sciences, Marquette University, Milwaukee, WI 53201-1881, USA.

出版信息

Eukaryot Cell. 2010 Sep;9(9):1343-53. doi: 10.1128/EC.00089-10. Epub 2010 Jul 23.

DOI:10.1128/EC.00089-10
PMID:20656911
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2937337/
Abstract

Ciliated protozoa contain two types of nuclei, germ line micronuclei (Mic) and transcriptionally active macronuclei (Mac). During sexual reproduction, the parental Mac degenerates and a new Mac develops from a mitotic product of the zygotic Mic. Macronuclear development involves extensive endoreplication of the genome. The present study shows that endoreplication of macronuclear DNA in Tetrahymena is an example of endocyling, a variant of the mitotic cycle with alternating S and G phases in the absence of cell division. Thus, endocycling is conserved from ciliates to multicellular organisms. The gene ASI2 in Tetrahymena thermophila encodes a putative signal transduction receptor. ASI2 is nonessential for vegetative growth, but it is upregulated during development of the new Mac. Cells that lack ASI2 in the developing Mac anlagen are arrested in endoreplication of the DNA and die. This study shows that ASI2 is also transcribed in the parental Mac early in conjugation and that transcription of ASI2 in the parental Mac supports endoreplication of the DNA during early stages of development of the Mac anlagen. Other molecular events in Mac anlage development, including developmentally regulated DNA rearrangement, occur normally in matings between ASI2 knockouts, suggesting that ASI2 specifically regulates endocycling in Tetrahymena.

摘要

纤毛原生动物含有两种类型的细胞核,种系微核(Mic)和转录活跃的大核(Mac)。在有性生殖过程中,亲代大核退化,新的大核从合子微核的有丝分裂产物发育而来。大核发育涉及基因组的广泛核内复制。本研究表明,四膜虫中大核DNA的核内复制是核内循环的一个例子,核内循环是有丝分裂周期的一种变体,在没有细胞分裂的情况下,S期和G期交替出现。因此,从纤毛虫到多细胞生物,核内循环是保守的。嗜热四膜虫中的基因ASI2编码一种假定的信号转导受体。ASI2对营养生长不是必需的,但在新大核发育过程中会上调。在发育中的大核原基中缺乏ASI2的细胞在DNA核内复制时停滞并死亡。这项研究表明,ASI2在接合早期的亲代大核中也有转录,并且亲代大核中ASI2的转录在大核原基发育早期支持DNA的核内复制。大核原基发育中的其他分子事件,包括发育调控的DNA重排,在ASI2基因敲除品系之间的交配中正常发生,这表明ASI2在四膜虫中特异性地调节核内循环。

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