Expansion of type II CAAX proteases reveals evolutionary origin of γ-secretase subunit APH-1

Jimin Pei; Douglas A. Mitchell; Jack E. Dixon; Nick V. Grishin

doi:10.1016/j.jmb.2011.04.066

Expansion of type II CAAX proteases reveals evolutionary origin of γ-secretase subunit APH-1

Jimin Pei, Douglas A. Mitchell, Jack E. Dixon, Nick V. Grishin

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

Intramembrane proteases are responsible for a number of regulated proteolysis events occurring within or near the plasma and intracellular membranes. Members of one large and diverse family of putative intramembrane metalloproteases are widely distributed in all domains of life, including the type II CAAX prenyl proteases and their prokaryotic homologs with putative bacteriocin-related functions. We used sensitive sequence similarity searches to expand this large CPBP (CAAX proteases and bacteriocin-processing enzymes) family to include more than 5800 members and infer its homologous relationships to several other protein families, including the PrsW proteases, the DUF2324 (DUF, domain of unknown function) family and the γ-secretase subunit APH-1 proteins. They share four predicted core transmembrane segments and possess similar yet distinct sets of sequence motifs. Remote similarity between APH-1 and membrane proteases sheds light on APH-1's evolutionary origin and raises the possibility that APH-1 may possess proteolytic activity in the current or ancestral form of γ-secretase.

Original language	English (US)
Pages (from-to)	18-26
Number of pages	9
Journal	Journal of Molecular Biology
Volume	410
Issue number	1
DOIs	https://doi.org/10.1016/j.jmb.2011.04.066
State	Published - Jul 1 2011

Keywords

APH-1
DUF2324
PrsW
type II CAAX protease
γ-secretase

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1016/j.jmb.2011.04.066

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title = "Expansion of type II CAAX proteases reveals evolutionary origin of γ-secretase subunit APH-1",

abstract = "Intramembrane proteases are responsible for a number of regulated proteolysis events occurring within or near the plasma and intracellular membranes. Members of one large and diverse family of putative intramembrane metalloproteases are widely distributed in all domains of life, including the type II CAAX prenyl proteases and their prokaryotic homologs with putative bacteriocin-related functions. We used sensitive sequence similarity searches to expand this large CPBP (CAAX proteases and bacteriocin-processing enzymes) family to include more than 5800 members and infer its homologous relationships to several other protein families, including the PrsW proteases, the DUF2324 (DUF, domain of unknown function) family and the γ-secretase subunit APH-1 proteins. They share four predicted core transmembrane segments and possess similar yet distinct sets of sequence motifs. Remote similarity between APH-1 and membrane proteases sheds light on APH-1's evolutionary origin and raises the possibility that APH-1 may possess proteolytic activity in the current or ancestral form of γ-secretase.",

keywords = "APH-1, DUF2324, PrsW, type II CAAX protease, γ-secretase",

author = "Jimin Pei and Mitchell, {Douglas A.} and Dixon, {Jack E.} and Grishin, {Nick V.}",

note = "Funding Information: We would like to thank David Baker, Vladimir Yarov-Yarovoy and Gang Yu for helpful discussions and Lisa Kinch for critical reading of the manuscript. This work was supported in part by National Institutes of Health ( 1R01GM094575-01 to N.V.G. and 2R01GM090328-06A1 to J.E.D.) and the Welch Foundation ( I-1505 to N.V.G.). D.A.M. would like to thank the Department of Chemistry and the Institute for Genomic Biology at the University of Illinois at Urbana-Champaign for funding. ",

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N1 - Funding Information: We would like to thank David Baker, Vladimir Yarov-Yarovoy and Gang Yu for helpful discussions and Lisa Kinch for critical reading of the manuscript. This work was supported in part by National Institutes of Health ( 1R01GM094575-01 to N.V.G. and 2R01GM090328-06A1 to J.E.D.) and the Welch Foundation ( I-1505 to N.V.G.). D.A.M. would like to thank the Department of Chemistry and the Institute for Genomic Biology at the University of Illinois at Urbana-Champaign for funding.

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N2 - Intramembrane proteases are responsible for a number of regulated proteolysis events occurring within or near the plasma and intracellular membranes. Members of one large and diverse family of putative intramembrane metalloproteases are widely distributed in all domains of life, including the type II CAAX prenyl proteases and their prokaryotic homologs with putative bacteriocin-related functions. We used sensitive sequence similarity searches to expand this large CPBP (CAAX proteases and bacteriocin-processing enzymes) family to include more than 5800 members and infer its homologous relationships to several other protein families, including the PrsW proteases, the DUF2324 (DUF, domain of unknown function) family and the γ-secretase subunit APH-1 proteins. They share four predicted core transmembrane segments and possess similar yet distinct sets of sequence motifs. Remote similarity between APH-1 and membrane proteases sheds light on APH-1's evolutionary origin and raises the possibility that APH-1 may possess proteolytic activity in the current or ancestral form of γ-secretase.

AB - Intramembrane proteases are responsible for a number of regulated proteolysis events occurring within or near the plasma and intracellular membranes. Members of one large and diverse family of putative intramembrane metalloproteases are widely distributed in all domains of life, including the type II CAAX prenyl proteases and their prokaryotic homologs with putative bacteriocin-related functions. We used sensitive sequence similarity searches to expand this large CPBP (CAAX proteases and bacteriocin-processing enzymes) family to include more than 5800 members and infer its homologous relationships to several other protein families, including the PrsW proteases, the DUF2324 (DUF, domain of unknown function) family and the γ-secretase subunit APH-1 proteins. They share four predicted core transmembrane segments and possess similar yet distinct sets of sequence motifs. Remote similarity between APH-1 and membrane proteases sheds light on APH-1's evolutionary origin and raises the possibility that APH-1 may possess proteolytic activity in the current or ancestral form of γ-secretase.

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Expansion of type II CAAX proteases reveals evolutionary origin of γ-secretase subunit APH-1

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