Structural evidence for a two-metal-ion mechanism of group I intron splicing

Stahley MR; Strobel SA

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Structural evidence for a two-metal-ion mechanism of group I intron splicing

机译：第I组内含子剪接的双金属离子机理的结构证据

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We report the 3.4 angstrom crystal structure of a catalytically active group I intron splicing intermediate containing the complete intron, both exons, the scissile phosphate, and aft of the functional groups implicated in catalytic meta[ ion coordination, including the 2'-OH of the terminal guanosine. This structure suggests that, like protein phosphoryltransferases, an RNA phosphoryltransferase can use a two-metal-ion mechanism. Two Mg2+ ions are positioned 3.9 angstroms apart and are directly coordinated by all six of the biochemically predicted ligands. The evolutionary convergence of RNA and protein active sites on the same inorganic architecture highlights the intrinsic chemical capacity of the two-metal-ion catalytic mechanism for phosphoryl transfer.

机译：我们报告了含有完整内含子，外显子，易裂磷酸根和涉及催化间位离子配位的官能团的后部（包括2'-OH）的催化活性的I组内含子剪接中间体的3.4埃晶体结构末端鸟苷。该结构表明，与蛋白质磷酸基转移酶一样，RNA磷酸基转移酶可以使用双金属离子机制。两个Mg2 +离子之间的距离为3.9埃，并由所有六个生化预测的配体直接配位。 RNA和蛋白质活性位点在同一无机结构上的进化趋同突出了磷酰基转移的两种金属离子催化机制的内在化学容量。

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《Science》 |2005年第5740期|p. 1587-1590|共4页
作者
Stahley MR; Strobel SA;
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作者单位

Yale Univ, Dept Mol Biophys & Biochem, New Haven, CT 06520 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类自然科学总论;
关键词
TETRAHYMENA RIBOZYME REACTION; CATALYTIC METAL-ION; CRYSTAL-STRUCTURE; ACTIVE-SITE; ANGSTROM RESOLUTION; RNA; POLYMERASE; GUANOSINE; PRECURSOR; INSIGHTS;

机译：四膜虫核酶反应;催化金属离子;晶体结构;活性位;Angstrom拆分;RNA;聚合酶;鸟苷;前体;洞察力;
入库时间 2022-08-18 02:56:40

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Structural evidence for a two-metal-ion mechanism of group I intron splicing

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