A novel member of the Swi6p family of fission yeast chromo domain-containing proteins associates with the centromere in vivo and affects chromosome segregation.

D Halverson, G Gutkin, L Clarke
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引用次数: 22

Abstract

We previously used a genetic approach to identify a new class of Schizosaccharomyces pombe genes (chromosome loss when overexpressed; clo genes) that, when present in elevated dosage, cause the loss of an otherwise stable cen1 linear minichromosome at high rates. Here we report the identities of two clo genes; one encodes histone H3.3 and the other, designated clo2, encodes a novel protein with significant homology to fission yeast Swi6p, human and Drosophila HP1 heterochromatin proteins, and other chromo domain-containing proteins. Members of this group have been shown to localize to heterochromatic DNA, including centromeres, and to play roles in chromatin formation and organization. The S. pombe Clo2 protein localizes to centromere DNA in vivo, and overexpression of clo2 leads to a dramatic increase in the rate of mitotic loss of an artificial chromosome. Clo2p is not essential for mitotic growth, however, even in cells that also lack Swi6p. Thus, fission yeast appears to utilize multiple, functionally redundant, HP1-related proteins for heterochromatin-associated activities at centromeres and perhaps elsewhere in the genome.

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裂变酵母含染色质结构域蛋白Swi6p家族的一个新成员在体内与着丝粒结合并影响染色体分离。
我们以前使用遗传方法鉴定了一类新的裂糖酵母pombe基因(染色体过表达时丢失;Clo基因),当剂量增加时,会导致原本稳定的cen1线性小染色体以高速率丢失。在这里,我们报告了两个clo基因的身份;一个编码组蛋白H3.3,另一个编码clo2,编码一种新的蛋白,与裂变酵母Swi6p、人类和果蝇HP1异染色质蛋白以及其他含染色质结构域的蛋白具有显著的同源性。这一组的成员已被证明定位于异染色质DNA,包括着丝粒,并在染色质形成和组织中发挥作用。在体内,S. pombe Clo2蛋白定位于着丝粒DNA, Clo2的过度表达导致人工染色体有丝分裂损失率的急剧增加。然而,即使在同样缺乏Swi6p的细胞中,Clo2p也不是有丝分裂生长所必需的。因此,分裂酵母似乎利用多个功能冗余的hp1相关蛋白在着丝粒和基因组的其他地方进行异染色质相关活动。
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Simultaneous reduction of the activity of two related enzymes, involved in early steps of the polyamine biosynthetic pathway, by a single antisense cDNA in transgenic rice. Analysis of genes involved in 6-deoxyhexose biosynthesis and transfer in Saccharopolyspora erythraea. Identification of the initiation codon for the atpB gene in Chlamydomonas chloroplasts excludes translation of a precursor form of the beta subunit of the ATP synthase. A novel member of the Swi6p family of fission yeast chromo domain-containing proteins associates with the centromere in vivo and affects chromosome segregation. Phylogenetic analysis of the functional domains of mariner-like element (MLE) transposases.
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