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dc.contributor.authorGroussin, Mathieu
dc.contributor.authorHobbs, Joanne K.
dc.contributor.authorSzöllősi, Gergely J.
dc.contributor.authorGribaldo, Simonetta
dc.contributor.authorArcus, Vickery L.
dc.contributor.authorGouy, Manolo
dc.date.accessioned2015-04-22T18:05:28Z
dc.date.available2015-04-22T18:05:28Z
dc.date.issued2014-11
dc.identifier.issn0737-4038
dc.identifier.issn1537-1719
dc.identifier.urihttp://hdl.handle.net/1721.1/96705
dc.description.abstractThe resurrection of ancestral proteins provides direct insight into how natural selection has shaped proteins found in nature. By tracing substitutions along a gene phylogeny, ancestral proteins can be reconstructed in silico and subsequently synthesized in vitro. This elegant strategy reveals the complex mechanisms responsible for the evolution of protein functions and structures. However, to date, all protein resurrection studies have used simplistic approaches for ancestral sequence reconstruction (ASR), including the assumption that a single sequence alignment alone is sufficient to accurately reconstruct the history of the gene family. The impact of such shortcuts on conclusions about ancestral functions has not been investigated. Here, we show with simulations that utilizing information on species history using a model that accounts for the duplication, horizontal transfer, and loss (DTL) of genes statistically increases ASR accuracy. This underscores the importance of the tree topology in the inference of putative ancestors. We validate our in silico predictions using in vitro resurrection of the LeuB enzyme for the ancestor of the Firmicutes, a major and ancient bacterial phylum. With this particular protein, our experimental results demonstrate that information on the species phylogeny results in a biochemically more realistic and kinetically more stable ancestral protein. Additional resurrection experiments with different proteins are necessary to statistically quantify the impact of using species tree-aware gene trees on ancestral protein phenotypes. Nonetheless, our results suggest the need for incorporating both sequence and DTL information in future studies of protein resurrections to accurately define the genotype–phenotype space in which proteins diversify.en_US
dc.description.sponsorshipEuropean Social Fund (framework of TAMOP 4.2.4. A/1-11-1-2012-0001 “National Excellence Program”)en_US
dc.description.sponsorshipEuropean Union (Albert Szent-Gyorgyi Call-Home Researcher Scholarship A1-SZGYA-FOK-13-0005)en_US
dc.description.sponsorshipEuropean Union (Marie Curie CIG 618438 “Genestory”)en_US
dc.description.sponsorshipFrance. Agence nationale de la recherche (Ancestrome project (ANR-10-BINF-01-01))en_US
dc.language.isoen_US
dc.publisherOxford University Pressen_US
dc.relation.isversionofhttp://dx.doi.org/10.1093/molbev/msu305en_US
dc.rightsCreative Commons Attributionen_US
dc.rights.urihttp://creativecommons.org/licenses/by-nc/4.0/en_US
dc.sourceOxford University Pressen_US
dc.titleToward More Accurate Ancestral Protein Genotype-Phenotype Reconstructions with the Use of Species Tree-Aware Gene Treesen_US
dc.typeArticleen_US
dc.identifier.citationGroussin, M., J. K. Hobbs, G. J. Szoll si, S. Gribaldo, V. L. Arcus, and M. Gouy. “Toward More Accurate Ancestral Protein Genotype-Phenotype Reconstructions with the Use of Species Tree-Aware Gene Trees.” Molecular Biology and Evolution 32, no. 1 (November 4, 2014): 13–22.en_US
dc.contributor.departmentMassachusetts Institute of Technology. Department of Biological Engineeringen_US
dc.contributor.mitauthorGroussin, Mathieuen_US
dc.relation.journalMolecular Biology and Evolutionen_US
dc.eprint.versionFinal published versionen_US
dc.type.urihttp://purl.org/eprint/type/JournalArticleen_US
eprint.statushttp://purl.org/eprint/status/PeerRevieweden_US
dspace.orderedauthorsGroussin, M.; Hobbs, J. K.; Szoll si, G. J.; Gribaldo, S.; Arcus, V. L.; Gouy, M.en_US
dc.identifier.orcidhttps://orcid.org/0000-0002-0942-7217
mit.licensePUBLISHER_CCen_US
mit.metadata.statusComplete


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