Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes

Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes

Among tRNA modification enzymes there is a correlation between specificity for multiple tRNA substrates and heteromultimerization. In general, enzymes that modify a conserved residue in different tRNA sequences adopt a heterodimeric structure. Presumably, such changes in the oligomeric state of enzy...

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Main Authors: Sameer Dixit, Jeremy C. Henderson, Juan D. Alfonzo
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-02-01
Series:Frontiers in Genetics
Subjects:
translation
tRNA modification
mitochondria
inosine
deaminase
methylation
Online Access:https://www.frontiersin.org/article/10.3389/fgene.2019.00104/full
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spelling doaj-d742a7690fe24ad995424da23728aabd2020-11-24T21:16:08ZengFrontiers Media S.A.Frontiers in Genetics1664-80212019-02-011010.3389/fgene.2019.00104440199Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation EnzymesSameer DixitJeremy C. HendersonJuan D. AlfonzoAmong tRNA modification enzymes there is a correlation between specificity for multiple tRNA substrates and heteromultimerization. In general, enzymes that modify a conserved residue in different tRNA sequences adopt a heterodimeric structure. Presumably, such changes in the oligomeric state of enzymes, to gain multi-substrate recognition, are driven by the need to accommodate and catalyze a particular reaction in different substrates while maintaining high specificity. This review focuses on two classes of enzymes where the case for multimerization as a way to diversify molecular recognition can be made. We will highlight several new themes with tRNA methyltransferases and will also discuss recent findings with tRNA editing deaminases. These topics will be discussed in the context of several mechanisms by which heterodimerization may have been achieved during evolution and how these mechanisms might impact modifications in different systems.https://www.frontiersin.org/article/10.3389/fgene.2019.00104/fulltranslationtRNA modificationmitochondriainosinedeaminasemethylation
collection DOAJ
language English
format Article
sources DOAJ
author Sameer Dixit
Jeremy C. Henderson
Juan D. Alfonzo
spellingShingle Sameer Dixit
Jeremy C. Henderson
Juan D. Alfonzo
Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
Frontiers in Genetics
translation
tRNA modification
mitochondria
inosine
deaminase
methylation
author_facet Sameer Dixit
Jeremy C. Henderson
Juan D. Alfonzo
author_sort Sameer Dixit
title Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
title_short Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
title_full Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
title_fullStr Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
title_full_unstemmed Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes
title_sort multi-substrate specificity and the evolutionary basis for interdependence in trna editing and methylation enzymes
publisher Frontiers Media S.A.
series Frontiers in Genetics
issn 1664-8021
publishDate 2019-02-01
description Among tRNA modification enzymes there is a correlation between specificity for multiple tRNA substrates and heteromultimerization. In general, enzymes that modify a conserved residue in different tRNA sequences adopt a heterodimeric structure. Presumably, such changes in the oligomeric state of enzymes, to gain multi-substrate recognition, are driven by the need to accommodate and catalyze a particular reaction in different substrates while maintaining high specificity. This review focuses on two classes of enzymes where the case for multimerization as a way to diversify molecular recognition can be made. We will highlight several new themes with tRNA methyltransferases and will also discuss recent findings with tRNA editing deaminases. These topics will be discussed in the context of several mechanisms by which heterodimerization may have been achieved during evolution and how these mechanisms might impact modifications in different systems.
topic translation
tRNA modification
mitochondria
inosine
deaminase
methylation
url https://www.frontiersin.org/article/10.3389/fgene.2019.00104/full
work_keys_str_mv AT sameerdixit multisubstratespecificityandtheevolutionarybasisforinterdependenceintrnaeditingandmethylationenzymes
AT jeremychenderson multisubstratespecificityandtheevolutionarybasisforinterdependenceintrnaeditingandmethylationenzymes
AT juandalfonzo multisubstratespecificityandtheevolutionarybasisforinterdependenceintrnaeditingandmethylationenzymes
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