Adaptation of a Diverse Simian Immunodeficiency Virus Population to a New Host Is Revealed through a Systematic Approach to Identify Amino Acid Sites under Selection

Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms charac...

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Published in	Molecular biology and evolution Vol. 24; no. 3; pp. 660 - 669
Main Authors	Vanderford, Thomas H., Demma, Linda J., Feinberg, Mark B., Staprans, Silvija I., Logsdon, John M.
Format	Journal Article
Language	English
Published	United States Oxford University Press 01.03.2007
Subjects	Adaptation Adaptation, Biological - genetics Amino Acid Sequence Amino acids Animals Base Sequence Cercocebus atys Codons Disease transmission Evolution, Molecular Evolutionary biology Genes, Viral - genetics Genetic Variation Genetics, Population Glycosylation HIV Human immunodeficiency virus Human immunodeficiency virus 2 Immune system Inoculum Likelihood Functions Macaca mulatta Molecular biology Molecular Sequence Data Monkeys & apes Phylogeny Population structure Selection, Genetic Sequence Analysis, DNA Simian immunodeficiency virus Simian Immunodeficiency Virus - genetics Species Specificity Virology Viruses Cercocebus atys SIV Macaca mulatta selection zoonosis quasispecies
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ISSN	0737-4038 1537-1719
DOI	10.1093/molbev/msl194

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Abstract	Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms characterizing a successful cross-species transmission event remain to be elucidated. Here, in addition to expanding and clarifying our previous description of the adaptation of a diverse, naturally occurring SIVsm inoculum to a new rhesus macaque host, we present an analytical framework for understanding the selective forces driving viral adaptation to a new host. A preliminary analysis of large-scale changes in virus population structure revealed that viruses replicating in the macaques were subject to increasing levels of selection through day 70 postinfection (p.i.), whereas contemporaneous viruses in the mangabeys remained similar to the source inoculum. Three different site-by-site methods were employed to identify the amino acid sites responsible for this macaque-specific selection. Of 124 amino acid sites analyzed, 3 codons in V2, a 2–amino acid shift in an N-linked glycosylation site, and variation at 2 sites in the highly charged region were consistently evolving under either directional or diversifying selection at days 40 and 70 p.i. This strong macaque-specific selection on the V2 loop underscores the importance of this region in the adaptation of SIVsm to rhesus macaques. Due to the extreme viral diversity already extant in the naturally occurring viral inoculum, we employed a broad range of phylogenetic and numerical tools in order to distinguish the signatures of past episodes of selection in viral sequences from more recent selection pressures.
AbstractList	Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms characterizing a successful cross-species transmission event remain to be elucidated. Here, in addition to expanding and clarifying our previous description of the adaptation of a diverse, naturally occurring SIVsm inoculum to a new rhesus macaque host, we present an analytical framework for understanding the selective forces driving viral adaptation to a new host. A preliminary analysis of large-scale changes in virus population structure revealed that viruses replicating in the macaques were subject to increasing levels of selection through day 70 postinfection (p.i.), whereas contemporaneous viruses in the mangabeys remained similar to the source inoculum. Three different site-by-site methods were employed to identify the amino acid sites responsible for this macaque-specific selection. Of 124 amino acid sites analyzed, 3 codons in V2, a 2–amino acid shift in an N-linked glycosylation site, and variation at 2 sites in the highly charged region were consistently evolving under either directional or diversifying selection at days 40 and 70 p.i. This strong macaque-specific selection on the V2 loop underscores the importance of this region in the adaptation of SIVsm to rhesus macaques. Due to the extreme viral diversity already extant in the naturally occurring viral inoculum, we employed a broad range of phylogenetic and numerical tools in order to distinguish the signatures of past episodes of selection in viral sequences from more recent selection pressures. Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms characterizing a successful cross-species transmission event remain to be elucidated. Here, in addition to expanding and clarifying our previous description of the adaptation of a diverse, naturally occurring SIVsm inoculum to a new rhesus macaque host, we present an analytical framework for understanding the selective forces driving viral adaptation to a new host. A preliminary analysis of large-scale changes in virus population structure revealed that viruses replicating in the macaques were subject to increasing levels of selection through day 70 postinfection (p.i.), whereas contemporaneous viruses in the mangabeys remained similar to the source inoculum. Three different site-by-site methods were employed to identify the amino acid sites responsible for this macaque-specific selection. Of 124 amino acid sites analyzed, 3 codons in V2, a 2-amino acid shift in an N-linked glycosylation site, and variation at 2 sites in the highly charged region were consistently evolving under either directional or diversifying selection at days 40 and 70 p.i. This strong macaque-specific selection on the V2 loop underscores the importance of this region in the adaptation of SIVsm to rhesus macaques. Due to the extreme viral diversity already extant in the naturally occurring viral inoculum, we employed a broad range of phylogenetic and numerical tools in order to distinguish the signatures of past episodes of selection in viral sequences from more recent selection pressures.Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms characterizing a successful cross-species transmission event remain to be elucidated. Here, in addition to expanding and clarifying our previous description of the adaptation of a diverse, naturally occurring SIVsm inoculum to a new rhesus macaque host, we present an analytical framework for understanding the selective forces driving viral adaptation to a new host. A preliminary analysis of large-scale changes in virus population structure revealed that viruses replicating in the macaques were subject to increasing levels of selection through day 70 postinfection (p.i.), whereas contemporaneous viruses in the mangabeys remained similar to the source inoculum. Three different site-by-site methods were employed to identify the amino acid sites responsible for this macaque-specific selection. Of 124 amino acid sites analyzed, 3 codons in V2, a 2-amino acid shift in an N-linked glycosylation site, and variation at 2 sites in the highly charged region were consistently evolving under either directional or diversifying selection at days 40 and 70 p.i. This strong macaque-specific selection on the V2 loop underscores the importance of this region in the adaptation of SIVsm to rhesus macaques. Due to the extreme viral diversity already extant in the naturally occurring viral inoculum, we employed a broad range of phylogenetic and numerical tools in order to distinguish the signatures of past episodes of selection in viral sequences from more recent selection pressures. Simian immunodeficiency viruses (SIV) have had considerable success at crossing species barriers; both human immunodeficiency virus (HIV)-1 and HIV-2 have been transmitted on multiple occasions from SIV-infected natural host species. However, the precise evolutionary and ecological mechanisms characterizing a successful cross-species transmission event remain to be elucidated. Here, in addition to expanding and clarifying our previous description of the adaptation of a diverse, naturally occurring SIVsm inoculum to a new rhesus macaque host, we present an analytical framework for understanding the selective forces driving viral adaptation to a new host. A preliminary analysis of large-scale changes in virus population structure revealed that viruses replicating in the macaques were subject to increasing levels of selection through day 70 postinfection (p.i.), whereas contemporaneous viruses in the mangabeys remained similar to the source inoculum. Three different site-by-site methods were employed to identify the amino acid sites responsible for this macaque-specific selection. Of 124 amino acid sites analyzed, 3 codons in V2, a 2-amino acid shift in an N-linked glycosylation site, and variation at 2 sites in the highly charged region were consistently evolving under either directional or diversifying selection at days 40 and 70 p.i. This strong macaque-specific selection on the V2 loop underscores the importance of this region in the adaptation of SIVsm to rhesus macaques. Due to the extreme viral diversity already extant in the naturally occurring viral inoculum, we employed a broad range of phylogenetic and numerical tools in order to distinguish the signatures of past episodes of selection in viral sequences from more recent selection pressures. [PUBLICATION ABSTRACT]
Author	Vanderford, Thomas H. Feinberg, Mark B. Demma, Linda J. Staprans, Silvija I. Logsdon, John M.
AuthorAffiliation	Roy J. Carver Center for Comparative Genomics, Department of Biological Sciences, University of Iowa Department of Medicine, Emory University Program in Population Biology, Evolution, and Ecology, Emory University Emory Vaccine Center, Emory University Department of Microbiology and Immunology, Emory University
AuthorAffiliation_xml	– name: Department of Microbiology and Immunology, Emory University – name: Department of Medicine, Emory University – name: Roy J. Carver Center for Comparative Genomics, Department of Biological Sciences, University of Iowa – name: Program in Population Biology, Evolution, and Ecology, Emory University – name: Emory Vaccine Center, Emory University
Author_xml	– sequence: 1 givenname: Thomas H. surname: Vanderford fullname: Vanderford, Thomas H. organization: Program in Population Biology, Evolution, and Ecology, Emory University – sequence: 2 givenname: Linda J. surname: Demma fullname: Demma, Linda J. organization: Program in Population Biology, Evolution, and Ecology, Emory University – sequence: 3 givenname: Mark B. surname: Feinberg fullname: Feinberg, Mark B. organization: †Emory Vaccine Center, Emory University – sequence: 4 givenname: Silvija I. surname: Staprans fullname: Staprans, Silvija I. organization: †Emory Vaccine Center, Emory University – sequence: 5 givenname: John M. surname: Logsdon fullname: Logsdon, John M. email: john-logsdon@uiowa.edu organization: Program in Population Biology, Evolution, and Ecology, Emory University
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Copyright	The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org 2007 The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org.
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Keywords	Cercocebus atys SIV Macaca mulatta selection zoonosis quasispecies
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Notes	SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 14 ObjectType-Article-1 ObjectType-Feature-2 content type line 23 ObjectType-Article-2 Present Address: Centers for Disease Control and Prevention, Division of Bacterial and Mycotic Diseases, Atlanta, Georgia. Edward Holmes, Associate Editor Present Address: Merck Vaccine Division, Merck and Company, Inc., West Point, Pennsylvania.
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SubjectTerms	Adaptation Adaptation, Biological - genetics Amino Acid Sequence Amino acids Animals Base Sequence Cercocebus atys Codons Disease transmission Evolution, Molecular Evolutionary biology Genes, Viral - genetics Genetic Variation Genetics, Population Glycosylation HIV Human immunodeficiency virus Human immunodeficiency virus 2 Immune system Inoculum Likelihood Functions Macaca mulatta Molecular biology Molecular Sequence Data Monkeys & apes Phylogeny Population structure Selection, Genetic Sequence Analysis, DNA Simian immunodeficiency virus Simian Immunodeficiency Virus - genetics Species Specificity Virology Viruses
Title	Adaptation of a Diverse Simian Immunodeficiency Virus Population to a New Host Is Revealed through a Systematic Approach to Identify Amino Acid Sites under Selection
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