On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world?
This paper presents and discusses evidence suggesting how the diversity of domain folds in existence today might have evolved from peptide ancestors. We apply a structure similarity detection method to detect instances where localized regions of different protein folds contain highly similar sequenc...
Main Authors: | , , |
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Format: | Journal article |
Language: | English |
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2001
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author | Lupas, A Ponting, C Russell, R |
author_facet | Lupas, A Ponting, C Russell, R |
author_sort | Lupas, A |
collection | OXFORD |
description | This paper presents and discusses evidence suggesting how the diversity of domain folds in existence today might have evolved from peptide ancestors. We apply a structure similarity detection method to detect instances where localized regions of different protein folds contain highly similar sequences and structures. Results of performing an all-on-all comparison of known structures are described and compared with other recently published findings. The numerous instances of local sequence and structure similarities within different protein folds, together with evidence from proteins containing sequence and structure repeats, argues in favor of the evolution of modern single polypeptide domains from ancient short peptide ancestors (antecedent domain segments (ADSs)). In this model, ancient protein structures were formed by self-assembling aggregates of short polypeptides. Subsequently, and perhaps concomitantly with the evolution of higher fidelity DNA replication and repair systems, single polypeptide domains arose from the fusion of ADSs genes. Thus modern protein domains may have a polyphyletic origin. |
first_indexed | 2024-03-07T05:06:34Z |
format | Journal article |
id | oxford-uuid:da20e020-c819-4e99-8bf4-933dc36d7ac1 |
institution | University of Oxford |
language | English |
last_indexed | 2024-03-07T05:06:34Z |
publishDate | 2001 |
record_format | dspace |
spelling | oxford-uuid:da20e020-c819-4e99-8bf4-933dc36d7ac12022-03-27T09:00:54ZOn the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world?Journal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:da20e020-c819-4e99-8bf4-933dc36d7ac1EnglishSymplectic Elements at Oxford2001Lupas, APonting, CRussell, RThis paper presents and discusses evidence suggesting how the diversity of domain folds in existence today might have evolved from peptide ancestors. We apply a structure similarity detection method to detect instances where localized regions of different protein folds contain highly similar sequences and structures. Results of performing an all-on-all comparison of known structures are described and compared with other recently published findings. The numerous instances of local sequence and structure similarities within different protein folds, together with evidence from proteins containing sequence and structure repeats, argues in favor of the evolution of modern single polypeptide domains from ancient short peptide ancestors (antecedent domain segments (ADSs)). In this model, ancient protein structures were formed by self-assembling aggregates of short polypeptides. Subsequently, and perhaps concomitantly with the evolution of higher fidelity DNA replication and repair systems, single polypeptide domains arose from the fusion of ADSs genes. Thus modern protein domains may have a polyphyletic origin. |
spellingShingle | Lupas, A Ponting, C Russell, R On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title | On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title_full | On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title_fullStr | On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title_full_unstemmed | On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title_short | On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? |
title_sort | on the evolution of protein folds are similar motifs in different protein folds the result of convergence insertion or relics of an ancient peptide world |
work_keys_str_mv | AT lupasa ontheevolutionofproteinfoldsaresimilarmotifsindifferentproteinfoldstheresultofconvergenceinsertionorrelicsofanancientpeptideworld AT pontingc ontheevolutionofproteinfoldsaresimilarmotifsindifferentproteinfoldstheresultofconvergenceinsertionorrelicsofanancientpeptideworld AT russellr ontheevolutionofproteinfoldsaresimilarmotifsindifferentproteinfoldstheresultofconvergenceinsertionorrelicsofanancientpeptideworld |