Functional fingerprints of folds: Evidence for correlated structure-function evolution

Boris E. Shakhnovich; Nikolay V. Dokholyan; Charles DeLisi; Eugene I. Shakhnovich

doi:10.1016/S0022-2836(02)01362-1

Functional fingerprints of folds: Evidence for correlated structure-function evolution

Boris E. Shakhnovich
, Nikolay V. Dokholyan
, Charles DeLisi
, Eugene I. Shakhnovich

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

45 Scopus citations

Abstract

Using structural similarity clustering of protein domains: protein domain universe graph (PDUG), and a hierarchical functional annotation: gene ontology (GO) as two evolutionary lenses, we find that each structural cluster (domain fold) exhibits a distribution of functions that is unique to it. These functional distributions are functional fingerprints that are specific to characteristic structural clusters and vary from cluster to cluster. Furthermore, as structural similarity threshold for domain clustering in the PDUG is relaxed we observe an influx of earlier-diverged domains into clusters. These domains join clusters without destroying the functional fingerprint. These results can be understood in light of a divergent evolution scenario that posits correlated divergence of structural and functional traits in protein domains from one or few progenitors.

Original language	English (US)
Pages (from-to)	1-9
Number of pages	9
Journal	Journal of Molecular Biology
Volume	326
Issue number	1
DOIs	https://doi.org/10.1016/S0022-2836(02)01362-1
State	Published - Feb 7 2003

All Science Journal Classification (ASJC) codes

Structural Biology
Molecular Biology

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10.1016/S0022-2836(02)01362-1

Cite this

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title = "Functional fingerprints of folds: Evidence for correlated structure-function evolution",

abstract = "Using structural similarity clustering of protein domains: protein domain universe graph (PDUG), and a hierarchical functional annotation: gene ontology (GO) as two evolutionary lenses, we find that each structural cluster (domain fold) exhibits a distribution of functions that is unique to it. These functional distributions are functional fingerprints that are specific to characteristic structural clusters and vary from cluster to cluster. Furthermore, as structural similarity threshold for domain clustering in the PDUG is relaxed we observe an influx of earlier-diverged domains into clusters. These domains join clusters without destroying the functional fingerprint. These results can be understood in light of a divergent evolution scenario that posits correlated divergence of structural and functional traits in protein domains from one or few progenitors.",

author = "Shakhnovich, \{Boris E.\} and Dokholyan, \{Nikolay V.\} and Charles DeLisi and Shakhnovich, \{Eugene I.\}",

note = "Funding Information: We would like to thank R. C. Berwick and J. E. Straub for critical reading and support during the preparation of the manuscript. EIS is supported by NIH (GM52126). NVD is supported by NIH NRSA Grant (GM20251-01).",

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T2 - Evidence for correlated structure-function evolution

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AU - Dokholyan, Nikolay V.

AU - DeLisi, Charles

AU - Shakhnovich, Eugene I.

N1 - Funding Information: We would like to thank R. C. Berwick and J. E. Straub for critical reading and support during the preparation of the manuscript. EIS is supported by NIH (GM52126). NVD is supported by NIH NRSA Grant (GM20251-01).

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N2 - Using structural similarity clustering of protein domains: protein domain universe graph (PDUG), and a hierarchical functional annotation: gene ontology (GO) as two evolutionary lenses, we find that each structural cluster (domain fold) exhibits a distribution of functions that is unique to it. These functional distributions are functional fingerprints that are specific to characteristic structural clusters and vary from cluster to cluster. Furthermore, as structural similarity threshold for domain clustering in the PDUG is relaxed we observe an influx of earlier-diverged domains into clusters. These domains join clusters without destroying the functional fingerprint. These results can be understood in light of a divergent evolution scenario that posits correlated divergence of structural and functional traits in protein domains from one or few progenitors.

AB - Using structural similarity clustering of protein domains: protein domain universe graph (PDUG), and a hierarchical functional annotation: gene ontology (GO) as two evolutionary lenses, we find that each structural cluster (domain fold) exhibits a distribution of functions that is unique to it. These functional distributions are functional fingerprints that are specific to characteristic structural clusters and vary from cluster to cluster. Furthermore, as structural similarity threshold for domain clustering in the PDUG is relaxed we observe an influx of earlier-diverged domains into clusters. These domains join clusters without destroying the functional fingerprint. These results can be understood in light of a divergent evolution scenario that posits correlated divergence of structural and functional traits in protein domains from one or few progenitors.

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Functional fingerprints of folds: Evidence for correlated structure-function evolution

Abstract

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