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一种常见的转录激活因子位于两个依赖复制的小鼠组蛋白基因的编码区域。

A common transcriptional activator is located in the coding region of two replication-dependent mouse histone genes.

作者信息

Hurt M M, Bowman T L, Marzluff W F

机构信息

Program in Medical Sciences, Florida State University, Tallahassee 32306.

出版信息

Mol Cell Biol. 1991 Jun;11(6):2929-36. doi: 10.1128/mcb.11.6.2929-2936.1991.

DOI:10.1128/mcb.11.6.2929-2936.1991
PMID:2038312
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC360118/
Abstract

There is a region in the mouse histone H3 gene protein-encoding sequence required for high expression. The 110-nucleotide coding region activating sequence (CRAS) from codons 58 to 93 of the H3.2 gene restored expression when placed 520 nucleotides 5' of the start of transcription in the correct orientation. Since identical mRNA molecules are produced by transcription of the original deletion gene and the deletion gene with the CRAS at -520, effects of the deletions on mRNA stability or other posttranscriptional events are completely ruled out. Inversion of the CRAS sequence in its proper position in the H3 gene resulted in only a threefold increase in expression, and placing the CRAS sequence 5' of the deleted gene in the wrong orientation had no effect on expression. In-frame deletions in the coding region of an H2a.2 gene led to identification of a 105-nucleotide sequence in the coding region between amino acids 50 and 85 necessary for high expression of the gene. Additionally, insertion of the H3 CRAS into the deleted region of the H2a.2 gene restored expression of the H2a gene. Thus, the CRAS element has an orientation-dependent, position-independent effect. Gel mobility shift competition studies indicate that the same proteins interact with both the H3 and H2a CRAS elements, suggesting that a common factor is involved in expression of histone genes.

摘要

小鼠组蛋白H3基因的蛋白质编码序列中存在一个高表达所需的区域。当将H3.2基因第58至93密码子的110个核苷酸编码区激活序列(CRAS)以正确方向置于转录起始点上游520个核苷酸处时,可恢复表达。由于原始缺失基因和在 -520 处带有CRAS的缺失基因转录产生相同的mRNA分子,因此完全排除了缺失对mRNA稳定性或其他转录后事件的影响。将CRAS序列在H3基因中的正确位置进行反向,仅导致表达增加三倍,而将CRAS序列以错误方向置于缺失基因的上游对表达没有影响。H2a.2基因编码区的框内缺失导致鉴定出该基因高表达所需的位于第50至85位氨基酸之间编码区的105个核苷酸序列。此外,将H3 CRAS插入H2a.2基因的缺失区域可恢复H2a基因的表达。因此,CRAS元件具有方向依赖性、位置独立性效应。凝胶迁移率变动竞争研究表明,相同的蛋白质与H3和H2a CRAS元件相互作用,这表明组蛋白基因的表达涉及一个共同因子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a92/360118/e88f01517429/molcellb00140-0023-a.jpg

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