ライフサイエンスコーパス: RNA catalysis

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1 obases, that bind metal ions is important in RNA catalysis.

2 hioate linkage in studying the mechanisms of RNA catalysis.

3 cific translation system relying entirely on RNA catalysis.

4 cally, but have not yet been accomplished by RNA catalysis.

5 ific posttranscriptional RNA modification by RNA catalysis.

6 binding) by which a protein could facilitate RNA catalysis.

7 for metal ions and reactive intermediates in RNA catalysis.

8 d effective tools to study the mechanisms of RNA catalysis, allowing resolution of kinetic ambiguity

9 ral detail to a mechanistic understanding of RNA catalysis and binding functions, RNA backbone confor

10 in probing specific mechanistic questions in RNA catalysis and RNA structural analysis.

11 ented here provide quantitative insight into RNA catalysis and serve as a first step toward the const

12 up I ribozyme is a paradigm for the study of RNA catalysis, and previous work using atomic mutagenesi

13 functional roles of metal ions in promoting RNA catalysis are diverse.

14 clic phosphates and phosphoranes relevant to RNA catalysis are presented.

15 l-ion coordination, which is consistent with RNA catalysis by the spliceosome.

16 The principle of ligand-dependent RNA catalysis has now been extended to the cross-replica

17 understanding the molecular underpinnings of RNA catalysis have been achieved with advances in RNA st

18 tagging provides a unique approach to study RNA catalysis in mammalian cells.

19 ocess to evolve variants that are capable of RNA catalysis in the presence of Ca(2+) as the sole avai

20 y to evaluate and optimize the efficiency of RNA catalysis in vivo.

21 phering the role of individual metal ions in RNA catalysis is a tremendous challenge, as numerous met

22 unctional role of divalent ions in promoting RNA catalysis is manifold.

23 ase RNase E, which forms the core of a large RNA-catalysis machine termed the degradosome.

24 ects on organomercurial gel electrophoresis, RNA catalysis, RNA backbone stability, and the intrinsic

25 ther labs to argue that simple chemistry and RNA catalysis suffice to proceed from simple chemicals t

26 General mechanistic considerations for RNA catalysis suggest that the penalty for having genera

27 ding a new tool to ask basic questions about RNA catalysis, the trans-splicing model system will also

28 ntial of RNA has never ceased to amaze: from RNA catalysis, to RNA-mediated splicing, to RNA-based si

29 terize functional groups involved in RNase P RNA catalysis, we applied self-cleaving ribozyme-substra

30 xplore structural and functional dynamics in RNA catalysis, we have created a series of allosteric ha

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