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Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context

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Zeitschriftentitel: Proceedings of the National Academy of Sciences
Personen und Körperschaften: Kim, Philip M., Korbel, Jan O., Gerstein, Mark B.
In: Proceedings of the National Academy of Sciences, 104, 2007, 51, S. 20274-20279
Format: E-Article
Sprache: Englisch
veröffentlicht:
Proceedings of the National Academy of Sciences
Schlagwörter:
Multidisciplinary
author_facet Kim, Philip M.
Korbel, Jan O.
Gerstein, Mark B.
Kim, Philip M.
Korbel, Jan O.
Gerstein, Mark B.
author Kim, Philip M.
Korbel, Jan O.
Gerstein, Mark B.
spellingShingle Kim, Philip M.
Korbel, Jan O.
Gerstein, Mark B.
Proceedings of the National Academy of Sciences
Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
Multidisciplinary
author_sort kim, philip m.
spelling Kim, Philip M. Korbel, Jan O. Gerstein, Mark B. 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.0710183104 <jats:p>Because of recent advances in genotyping and sequencing, human genetic variation and adaptive evolution in the primate lineage have become major research foci. Here, we examine the relationship between genetic signatures of adaptive evolution and network topology. We find a striking tendency of proteins that have been under positive selection (as compared with the chimpanzee) to be located at the periphery of the interaction network. Our results are based on the analysis of two types of genome evolution, both in terms of intra- and interspecies variation. First, we looked at single-nucleotide polymorphisms and their fixed variants, single-nucleotide differences in the human genome relative to the chimpanzee. Second, we examine fixed structural variants, specifically large segmental duplications and their polymorphic precursors known as copy number variants. We propose two complementary mechanisms that lead to the observed trends. First, we can rationalize them in terms of constraints imposed by protein structure: We find that positively selected sites are preferentially located on the exposed surface of proteins. Because central network proteins (hubs) are likely to have a larger fraction of their surface involved in interactions, they tend to be constrained and under negative selection. Conversely, we show that the interaction network roughly maps to cellular organization, with the periphery of the network corresponding to the cellular periphery (i.e., extracellular space or cell membrane). This suggests that the observed positive selection at the network periphery may be due to an increase of adaptive events on the cellular periphery responding to changing environments.</jats:p> Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context Proceedings of the National Academy of Sciences
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title Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_unstemmed Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_full Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_fullStr Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_full_unstemmed Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_short Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_sort positive selection at the protein network periphery: evaluation in terms of structural constraints and cellular context
topic Multidisciplinary
url http://dx.doi.org/10.1073/pnas.0710183104
publishDate 2007
physical 20274-20279
description <jats:p>Because of recent advances in genotyping and sequencing, human genetic variation and adaptive evolution in the primate lineage have become major research foci. Here, we examine the relationship between genetic signatures of adaptive evolution and network topology. We find a striking tendency of proteins that have been under positive selection (as compared with the chimpanzee) to be located at the periphery of the interaction network. Our results are based on the analysis of two types of genome evolution, both in terms of intra- and interspecies variation. First, we looked at single-nucleotide polymorphisms and their fixed variants, single-nucleotide differences in the human genome relative to the chimpanzee. Second, we examine fixed structural variants, specifically large segmental duplications and their polymorphic precursors known as copy number variants. We propose two complementary mechanisms that lead to the observed trends. First, we can rationalize them in terms of constraints imposed by protein structure: We find that positively selected sites are preferentially located on the exposed surface of proteins. Because central network proteins (hubs) are likely to have a larger fraction of their surface involved in interactions, they tend to be constrained and under negative selection. Conversely, we show that the interaction network roughly maps to cellular organization, with the periphery of the network corresponding to the cellular periphery (i.e., extracellular space or cell membrane). This suggests that the observed positive selection at the network periphery may be due to an increase of adaptive events on the cellular periphery responding to changing environments.</jats:p>
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author Kim, Philip M., Korbel, Jan O., Gerstein, Mark B.
author_facet Kim, Philip M., Korbel, Jan O., Gerstein, Mark B., Kim, Philip M., Korbel, Jan O., Gerstein, Mark B.
author_sort kim, philip m.
container_issue 51
container_start_page 20274
container_title Proceedings of the National Academy of Sciences
container_volume 104
description <jats:p>Because of recent advances in genotyping and sequencing, human genetic variation and adaptive evolution in the primate lineage have become major research foci. Here, we examine the relationship between genetic signatures of adaptive evolution and network topology. We find a striking tendency of proteins that have been under positive selection (as compared with the chimpanzee) to be located at the periphery of the interaction network. Our results are based on the analysis of two types of genome evolution, both in terms of intra- and interspecies variation. First, we looked at single-nucleotide polymorphisms and their fixed variants, single-nucleotide differences in the human genome relative to the chimpanzee. Second, we examine fixed structural variants, specifically large segmental duplications and their polymorphic precursors known as copy number variants. We propose two complementary mechanisms that lead to the observed trends. First, we can rationalize them in terms of constraints imposed by protein structure: We find that positively selected sites are preferentially located on the exposed surface of proteins. Because central network proteins (hubs) are likely to have a larger fraction of their surface involved in interactions, they tend to be constrained and under negative selection. Conversely, we show that the interaction network roughly maps to cellular organization, with the periphery of the network corresponding to the cellular periphery (i.e., extracellular space or cell membrane). This suggests that the observed positive selection at the network periphery may be due to an increase of adaptive events on the cellular periphery responding to changing environments.</jats:p>
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imprint_str_mv Proceedings of the National Academy of Sciences, 2007
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spelling Kim, Philip M. Korbel, Jan O. Gerstein, Mark B. 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.0710183104 <jats:p>Because of recent advances in genotyping and sequencing, human genetic variation and adaptive evolution in the primate lineage have become major research foci. Here, we examine the relationship between genetic signatures of adaptive evolution and network topology. We find a striking tendency of proteins that have been under positive selection (as compared with the chimpanzee) to be located at the periphery of the interaction network. Our results are based on the analysis of two types of genome evolution, both in terms of intra- and interspecies variation. First, we looked at single-nucleotide polymorphisms and their fixed variants, single-nucleotide differences in the human genome relative to the chimpanzee. Second, we examine fixed structural variants, specifically large segmental duplications and their polymorphic precursors known as copy number variants. We propose two complementary mechanisms that lead to the observed trends. First, we can rationalize them in terms of constraints imposed by protein structure: We find that positively selected sites are preferentially located on the exposed surface of proteins. Because central network proteins (hubs) are likely to have a larger fraction of their surface involved in interactions, they tend to be constrained and under negative selection. Conversely, we show that the interaction network roughly maps to cellular organization, with the periphery of the network corresponding to the cellular periphery (i.e., extracellular space or cell membrane). This suggests that the observed positive selection at the network periphery may be due to an increase of adaptive events on the cellular periphery responding to changing environments.</jats:p> Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context Proceedings of the National Academy of Sciences
spellingShingle Kim, Philip M., Korbel, Jan O., Gerstein, Mark B., Proceedings of the National Academy of Sciences, Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context, Multidisciplinary
title Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_full Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_fullStr Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_full_unstemmed Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_short Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
title_sort positive selection at the protein network periphery: evaluation in terms of structural constraints and cellular context
title_unstemmed Positive selection at the protein network periphery: Evaluation in terms of structural constraints and cellular context
topic Multidisciplinary
url http://dx.doi.org/10.1073/pnas.0710183104