The structure-function dilemma of the hammerhead ribozyme.

Kenneth F Blount, Olke C Uhlenbeck
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引用次数: 137

Abstract

A powerful approach to understanding protein enzyme catalysis is to examine the structural context of essential amino acid side chains whose deletion or modification negatively impacts catalysis. In principle, this approach can be even more powerful for RNA enzymes, given the wide variety and subtlety of functionally modified nucleotides now available. Numerous recent success stories confirm the utility of this approach to understanding ribozyme function. An anomaly, however, is the hammerhead ribozyme, for which the structural and functional data do not agree well, preventing a unifying view of its catalytic mechanism from emerging. To delineate the hammerhead structure-function comparison, we have evaluated and distilled the large body of biochemical data into a consensus set of functional groups unambiguously required for hammerhead catalysis. By examining the context of these functional groups within available structures, we have established a concise set of disagreements between the structural and functional data. The number and relative distribution of these inconsistencies throughout the hammerhead reaffirms that an extensive conformational rearrangement from the fold observed in the crystal structure must be necessary for cleavage to occur. The nature and energetic driving force of this conformational isomerization are discussed.

锤头核酶的结构-功能困境。
了解蛋白质酶催化的一个有力方法是检查必需氨基酸侧链的结构背景,其缺失或修饰会对催化产生负面影响。原则上,考虑到现在可用的功能修饰核苷酸的多样性和微妙性,这种方法对RNA酶可能更有效。最近的许多成功案例证实了这种方法在理解核酶功能方面的实用性。然而,锤头核酶是一个异常,其结构和功能数据不太一致,阻碍了其催化机制的统一观点的出现。为了描述双髻鲨的结构-功能比较,我们对大量的生化数据进行了评估和提炼,得出了双髻鲨催化所需要的一系列功能基团。通过检查可用结构中这些官能团的上下文,我们在结构和功能数据之间建立了一套简明的分歧。这些不一致在锤头中的数量和相对分布再次证实,在晶体结构中观察到的褶皱的广泛构象重排是发生解理所必需的。讨论了这种构象异构化的性质和能量驱动力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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