Synapse - Caveat mutator: Alanine substitutions for conserved amino acids in RNA ligase elicit unexpected rearrangements of the active site for lysine adenylylation

Caveat mutator: Alanine substitutions for conserved amino acids in RNA ligase elicit unexpected rearrangements of the active site for lysine adenylylation Journal Article

Authors:	Unciuleac, M. C.; Goldgur, Y.; Shuman, S.
Article Title:	Caveat mutator: Alanine substitutions for conserved amino acids in RNA ligase elicit unexpected rearrangements of the active site for lysine adenylylation
Abstract:	Naegleria gruberi RNA ligase (NgrRnl) exemplifies the Rnl5 family of adenosine triphosphate (ATP)-dependent polynucleotide ligases that seal 3'-OH RNA strands in the context of 3'-OH/5'-PO4 nicked duplexes. Like all classic ligases, NgrRnl forms a covalent lysyl-AMP intermediate. A two-metal mechanism of lysine adenylylation was established via a crystal structure of the NgrRnl•ATP•(Mn2+)2 Michaelis complex. Here we conducted an alanine scan of active site constituents that engage the ATP phosphates and the metal cofactors. We then determined crystal structures of ligase-defective NgrRnl-Ala mutants in complexes with ATP/Mn2+. The unexpected findings were that mutations K170A, E227A, K326A and R149A (none of which impacted overall enzyme structure) triggered adverse secondary changes in the active site entailing dislocations of the ATP phosphates, altered contacts to ATP, and variations in the numbers and positions of the metal ions that perverted the active sites into off-pathway states incompatible with lysine adenylylation. Each alanine mutation elicited a distinctive off-pathway distortion of the ligase active site. Our results illuminate a surprising plasticity of the ligase active site in its interactions with ATP and metals. More broadly, they underscore a valuable caveat when interpreting mutational data in the course of enzyme structure-function studies. © The Author(s) 2020. Published by Oxford University Press on behalf of Nucleic Acids Research.
Journal Title:	Nucleic Acids Research
Volume:	48
Issue:	10
ISSN:	0305-1048
Publisher:	Oxford University Press
Date Published:	2020-06-04
Start Page:	5603
End Page:	5615
Language:	English
DOI:	10.1093/nar/gkaa238
PUBMED:	32315072
PROVIDER:	scopus
PMCID:	PMC7261155
DOI/URL:	https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085713986&doi=10.1093%2fnar%2fgkaa238&partnerID=40&md5=9363390dfbc7c9c25535d8be37f52e7f
Notes:	Article -- Source: Scopus

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546 Shuman
19 Sandu
42 Goldgur

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