Redefining pseudokinases: A look at the untapped enzymatic potential of pseudokinases

Alex Pon; Adam Osinski; Anju Sreelatha

doi:10.1002/iub.2698

Redefining pseudokinases: A look at the untapped enzymatic potential of pseudokinases

Alex Pon, Adam Osinski, Anju Sreelatha

Research output: Contribution to journal › Review article › peer-review

2 Scopus citations

Abstract

Catalytically inactive kinases, known as pseudokinases, are conserved in all three domains of life. Due to the lack of catalytic residues, pseudokinases are considered to act as allosteric regulators and scaffolding proteins with no enzymatic function. However, since these “dead” kinases are conserved along with their active counterparts, a role for pseudokinases may have been overlooked. In this review, we will discuss the recently characterized pseudokinases Selenoprotein O, Legionella effector SidJ, and the SARS-CoV2 protein nsp12 which catalyze AMPylation, glutamylation, and RNAylation, respectively. These studies provide structural and mechanistic insight into the versatility and diversity of the kinase fold.

Original language	English (US)
Pages (from-to)	370-376
Number of pages	7
Journal	IUBMB life
Volume	75
Issue number	4
DOIs	https://doi.org/10.1002/iub.2698
State	Published - Apr 2023
Externally published	Yes

Keywords

AMPylation
Legionella
NiRAN
RNA capping
RNAylation
adenylylation
glutamylation
nsp12
oxidative stress
post-translational modification
selenoprotein O
sidJ

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Genetics
Clinical Biochemistry
Cell Biology

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10.1002/iub.2698

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title = "Redefining pseudokinases: A look at the untapped enzymatic potential of pseudokinases",

abstract = "Catalytically inactive kinases, known as pseudokinases, are conserved in all three domains of life. Due to the lack of catalytic residues, pseudokinases are considered to act as allosteric regulators and scaffolding proteins with no enzymatic function. However, since these “dead” kinases are conserved along with their active counterparts, a role for pseudokinases may have been overlooked. In this review, we will discuss the recently characterized pseudokinases Selenoprotein O, Legionella effector SidJ, and the SARS-CoV2 protein nsp12 which catalyze AMPylation, glutamylation, and RNAylation, respectively. These studies provide structural and mechanistic insight into the versatility and diversity of the kinase fold.",

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author = "Alex Pon and Adam Osinski and Anju Sreelatha",

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AU - Sreelatha, Anju

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AB - Catalytically inactive kinases, known as pseudokinases, are conserved in all three domains of life. Due to the lack of catalytic residues, pseudokinases are considered to act as allosteric regulators and scaffolding proteins with no enzymatic function. However, since these “dead” kinases are conserved along with their active counterparts, a role for pseudokinases may have been overlooked. In this review, we will discuss the recently characterized pseudokinases Selenoprotein O, Legionella effector SidJ, and the SARS-CoV2 protein nsp12 which catalyze AMPylation, glutamylation, and RNAylation, respectively. These studies provide structural and mechanistic insight into the versatility and diversity of the kinase fold.

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Redefining pseudokinases: A look at the untapped enzymatic potential of pseudokinases

Abstract

Keywords

ASJC Scopus subject areas

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