酿酒酵母的RPC31基因编码带有酸性尾巴的RNA聚合酶C（III）的一个亚基。

The RPC31 gene of Saccharomyces cerevisiae encodes a subunit of RNA polymerase C (III) with an acidic tail.

作者信息

Mosrin C, Riva M, Beltrame M, Cassar E, Sentenac A, Thuriaux P

机构信息

Service de Biochimie, Commissariat à l'Energie Atomique, Centre d'Etudes Nucléaries de Saclay, Gif sur Yvette, France.

出版信息

Mol Cell Biol. 1990 Sep;10(9):4737-43. doi: 10.1128/mcb.10.9.4737-4743.1990.

DOI:10.1128/mcb.10.9.4737-4743.1990

PMID:2201900

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC361073/

Abstract

The RPC31 gene encoding the C31 subunit of Saccharomyces cerevisiae RNA polymerase C (III) has been isolated, starting from a C-terminal fragment cloned on a lambda gt11 library. It is unique on the yeast genome and lies on the left arm of chromosome XIV, very close to a NotI site. Its coding sequence perfectly matches the amino acid sequence of two oligopeptides prepared from purified C31. It is also identical to the ACP2 gene previously described as encoding an HMG1-like protein (W. Haggren and D. Kolodrubetz, Mol. Cell. Biol. 8:1282-1289, 1988). Thus, ACP2 and RPC31 are allelic and encode a subunit of RNA polymerase C. The c31 protein has a highly acidic C-terminal tail also found in several other chromatin-interacting proteins, including animal HMG1. Outside this domain, however, there is no appreciable homology to any known protein. The growth phenotypes of a gene deletion, of insertions, and of nonsense mutations indicate that the C31 protein is strictly required for cell growth and that most of the acidic domain is essential for its function. Random mutagenesis failed to yield temperature-sensitive mutants, but a slowly growing mutant was constructed by partial suppression of a UAA nonsense allele of RPC31. Its reduced rate of tRNA synthesis in vivo relative to 5.8S rRNA supports the hypothesis that the C31 protein is a functional subunit of RNA polymerase C.

摘要

编码酿酒酵母RNA聚合酶C（III）的C31亚基的RPC31基因已从克隆于λgt11文库的C末端片段开始分离出来。它在酵母基因组中是唯一的，位于第十四号染色体的左臂上，非常靠近一个NotI位点。其编码序列与从纯化的C31制备的两个寡肽的氨基酸序列完全匹配。它也与先前描述为编码一种HMG1样蛋白的ACP2基因相同（W.哈格伦和D.科洛德鲁贝茨，《分子细胞生物学》8：1282 - 1289，1988）。因此，ACP2和RPC31是等位基因，编码RNA聚合酶C的一个亚基。C31蛋白有一个高度酸性的C末端尾巴，在其他几种与染色质相互作用的蛋白中也有发现，包括动物HMG1。然而，在这个结构域之外，与任何已知蛋白没有明显的同源性。基因缺失、插入和无义突变的生长表型表明，C31蛋白是细胞生长所严格必需的，并且大部分酸性结构域对其功能至关重要。随机诱变未能产生温度敏感突变体，但通过部分抑制RPC31的UAA无义等位基因构建了一个生长缓慢的突变体。其体内相对于5.8S rRNA的tRNA合成速率降低，支持了C31蛋白是RNA聚合酶C的一个功能亚基的假说。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dacd/361073/f6ed7da7ef48/molcellb00045-0311-a.jpg

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酿酒酵母的RPC31基因编码带有酸性尾巴的RNA聚合酶C（III）的一个亚基。

The RPC31 gene of Saccharomyces cerevisiae encodes a subunit of RNA polymerase C (III) with an acidic tail.

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