体外筛选具有低pH最适值的自我切割RNA。
In vitro selection of self-cleaving RNAs with a low pH optimum.
作者信息
Jayasena V K, Gold L
机构信息
Department of Molecular, Cellular and Developmental Biology, University of Colorado, Boulder, CO 80309-0347, USA.
出版信息
Proc Natl Acad Sci U S A. 1997 Sep 30;94(20):10612-7. doi: 10.1073/pnas.94.20.10612.
Abstract
RNAs that undergo a rapid site-specific cleavage at low pH have been selected by in vitro selection (the SELEX process). The cleavage does not require the addition of any divalent metal ions, and is in fact inhibited by divalent metal ions, spermine, or high concentrations of monovalent metal ions. This low pH catalyzed cleavage results in a 2',3'-cyclic phosphate at the 3' end and a free hydroxyl at the 5' end. The reaction proceeds with a calculated rate of 1.1 min-1 at room temperature in cacodylate buffer at pH 5.0. The rate of cleavage is dependent on the pH and shows an optimum around pH 4.0. The rate constant is independent of RNA concentration, indicating to an intramolecular reaction. Autocatalytic cleavage at low pH, in the absence of a metal ion requirement, adds to the reaction possibilities that may have existed on the prebiotic earth.
摘要
通过体外筛选(SELEX 过程)已选出在低 pH 下能快速进行位点特异性切割的 RNA。这种切割不需要添加任何二价金属离子,实际上还会受到二价金属离子、精胺或高浓度一价金属离子的抑制。这种低 pH 催化的切割在 3' 端产生 2',3'-环磷酸酯,在 5' 端产生游离羟基。在室温下,于 pH 5.0 的二甲胂酸盐缓冲液中,该反应以计算得出的 1.1 分钟⁻¹ 的速率进行。切割速率取决于 pH,在 pH 4.0 左右显示出最佳值。速率常数与 RNA 浓度无关,表明这是一个分子内反应。在没有金属离子需求的情况下,低 pH 下的自催化切割增加了可能存在于前生物地球的反应可能性。
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