Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System. / Sainudiin, Raazesh; Wong, Wendy Shuk Wan; Yogeeswaran, Krithika; Nasrallah, June B.; Yang, Ziheng; Nielsen, Rasmus.

In: Journal of Molecular Evolution, Vol. 60, No. 3, 2005, p. 315-326.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Sainudiin, R, Wong, WSW, Yogeeswaran, K, Nasrallah, JB, Yang, Z & Nielsen, R 2005, 'Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System', Journal of Molecular Evolution, vol. 60, no. 3, pp. 315-326. https://doi.org/10.1007/s00239-004-0153-1

APA

Sainudiin, R., Wong, W. S. W., Yogeeswaran, K., Nasrallah, J. B., Yang, Z., & Nielsen, R. (2005). Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System. Journal of Molecular Evolution, 60(3), 315-326. https://doi.org/10.1007/s00239-004-0153-1

Vancouver

Sainudiin R, Wong WSW, Yogeeswaran K, Nasrallah JB, Yang Z, Nielsen R. Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System. Journal of Molecular Evolution. 2005;60(3):315-326. https://doi.org/10.1007/s00239-004-0153-1

Author

Sainudiin, Raazesh ; Wong, Wendy Shuk Wan ; Yogeeswaran, Krithika ; Nasrallah, June B. ; Yang, Ziheng ; Nielsen, Rasmus. / Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System. In: Journal of Molecular Evolution. 2005 ; Vol. 60, No. 3. pp. 315-326.

Bibtex

@article{2a2bf45074c311dbbee902004c4f4f50,
title = "Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System",
abstract = "Models of codon substitution are developed that incorporate physicochemical properties of amino acids. When amino acid sites are inferred to be under positive selection, these models suggest the nature and extent of the physicochemical properties under selection. This is accomplished by first partitioning the codons on the basis of some property of the encoded amino acids. This partition is used to parametrize the rates of property-conserving and property-altering base substitutions at the codon level by means of finite mixtures of Markov models that also account for codon and transition:transversion biases. Here, we apply this method to two positively selected receptors involved in ligand-recognition: the class I alleles of the human major histocompatibility complex (MHC) of known structure and the S-locus receptor kinase (SRK) of the sporophytic self-incompatibility system (SSI) in cruciferous plants (Brassicaceae), whose structure is unknown. Through likelihood ratio tests we demonstrate that at some sites, the positively selected MHC and SRK proteins are under physicochemical selective pressures to alter polarity, volume, polarity and/or volume, and charge to various extents. An empirical Bayes approach is used to identify sites that may be important for ligand recognition in these proteins.",
author = "Raazesh Sainudiin and Wong, {Wendy Shuk Wan} and Krithika Yogeeswaran and Nasrallah, {June B.} and Ziheng Yang and Rasmus Nielsen",
note = "Keywords Codon-based Markov models - Likelihood ratio tests - MHC - Physicochemical selective pressures - SRK",
year = "2005",
doi = "10.1007/s00239-004-0153-1",
language = "English",
volume = "60",
pages = "315--326",
journal = "Journal of Molecular Evolution",
issn = "0022-2844",
publisher = "Springer",
number = "3",

}

RIS

TY - JOUR

T1 - Detecting Site-Specific Physicochemical Selective Pressures: Applications to the Class I HLA of the Human Major Histocompatibility Complex and the SRK of the Plant Sporophytic Self-Incompatibility System

AU - Sainudiin, Raazesh

AU - Wong, Wendy Shuk Wan

AU - Yogeeswaran, Krithika

AU - Nasrallah, June B.

AU - Yang, Ziheng

AU - Nielsen, Rasmus

N1 - Keywords Codon-based Markov models - Likelihood ratio tests - MHC - Physicochemical selective pressures - SRK

PY - 2005

Y1 - 2005

N2 - Models of codon substitution are developed that incorporate physicochemical properties of amino acids. When amino acid sites are inferred to be under positive selection, these models suggest the nature and extent of the physicochemical properties under selection. This is accomplished by first partitioning the codons on the basis of some property of the encoded amino acids. This partition is used to parametrize the rates of property-conserving and property-altering base substitutions at the codon level by means of finite mixtures of Markov models that also account for codon and transition:transversion biases. Here, we apply this method to two positively selected receptors involved in ligand-recognition: the class I alleles of the human major histocompatibility complex (MHC) of known structure and the S-locus receptor kinase (SRK) of the sporophytic self-incompatibility system (SSI) in cruciferous plants (Brassicaceae), whose structure is unknown. Through likelihood ratio tests we demonstrate that at some sites, the positively selected MHC and SRK proteins are under physicochemical selective pressures to alter polarity, volume, polarity and/or volume, and charge to various extents. An empirical Bayes approach is used to identify sites that may be important for ligand recognition in these proteins.

AB - Models of codon substitution are developed that incorporate physicochemical properties of amino acids. When amino acid sites are inferred to be under positive selection, these models suggest the nature and extent of the physicochemical properties under selection. This is accomplished by first partitioning the codons on the basis of some property of the encoded amino acids. This partition is used to parametrize the rates of property-conserving and property-altering base substitutions at the codon level by means of finite mixtures of Markov models that also account for codon and transition:transversion biases. Here, we apply this method to two positively selected receptors involved in ligand-recognition: the class I alleles of the human major histocompatibility complex (MHC) of known structure and the S-locus receptor kinase (SRK) of the sporophytic self-incompatibility system (SSI) in cruciferous plants (Brassicaceae), whose structure is unknown. Through likelihood ratio tests we demonstrate that at some sites, the positively selected MHC and SRK proteins are under physicochemical selective pressures to alter polarity, volume, polarity and/or volume, and charge to various extents. An empirical Bayes approach is used to identify sites that may be important for ligand recognition in these proteins.

U2 - 10.1007/s00239-004-0153-1

DO - 10.1007/s00239-004-0153-1

M3 - Journal article

C2 - 15871042

VL - 60

SP - 315

EP - 326

JO - Journal of Molecular Evolution

JF - Journal of Molecular Evolution

SN - 0022-2844

IS - 3

ER -

ID: 87617