期刊文献+

Sequence Comparison of MHCClassⅡβ(Exon 2)and Phylogenetic Relation-ship Between Poultry and Mammalian 被引量:1

Sequence Comparison of MHCClassⅡβ(Exon 2)and Phylogenetic Relation-ship Between Poultry and Mammalian
下载PDF
导出
摘要 A fragment spanning over exon 2 and intron 2 of major histocompatibility complex B-LB Ⅱ genes was amplified using PCR, cloned and sequenced in 13 individuals from eight Chinese indigenous chicken breeds and one introduced breed. Another 41 sequences of MHC class Ⅱ β from ten vertebrate species were cited from the NCBI GenBank. Thirteen new B-LB Ⅱ alleles were found in the chicken breeds sampled. Alignment of the exon 2 sequences revealed 91.1-97.8% similarity to each other within the chickens sampled, and the chickens shared 84.1-87.0% homology to Phasianus colchicus, 78.5-81.5% similarity to Coturnix japonica. The sequences in poultry showed 62.6-68.1% identity to HLA-DRB1, 50-61.5% similarity to DQB (HLA-, SLA- and H2-BB), 53.7-60% to HLA-DPB and 53.3-57.8% similarity to HLA-DOB. The frequency of nonsynonymous substitutions of nucleotide was higher than that of synonymous substitutions, and the frequencies of nonsynonymous and synonymous substitutions in poultry B-LB Ⅱ genes were lower than those observed in mammalian DRB1 and DQB1 genes. The deduced amino acid sequences of MHC class Ⅱ β1 domain exhibited extreme difference in conversed region and variable region patterns among the various species, but the two conserved cysteines forming disulfide-bond were shown consistent in poultry with that in mammalian species; and the carbohydrate attachment site was found more conserved in chicken, Homo sapiens, Bos taurus, Ovis aries and Capra hircus than in Sus scrofa and rodent animals. Compared with exon 2 of DQB1 genes of Homo sapiens, ruminant species and Sus scrofa, the differentia that the deletion of six nucleotides at position195 to 200 of exon 2 of DQB1 genes, and insertion of three nucleotides at position 247 to 249 of the exon 2 existed in rodent species were found, which led to the absence of three AA residues at position 65, 66, and 67 within β1 domain of DQB1 chain, and the insertion of one AA residue at position 85. The difference of the deletion of six nucleotides at position 72 to 77 of exon 2 of DPB1 genes was observed with Homo sapiens DQB1, which caused absence of three AA residues at position 24, 25, and 26 of β1 domain of DPB1 chain. The phylogenetic tree revealed that the B-LB Ⅱ sequences from poultry are not orthologous to the class Ⅱ MHC β-chain genes of mammalian species. The tree indicated that genetic evolutionary relationship of chickens with Phasianus colchicus was much closer than with Coturnix japonica, and the DQB and DPB clusters are more tightly related to each other than to the remaining clusters. A fragment spanning over exon 2 and intron 2 of major histocompatibility complex B-LB Ⅱ genes was amplified using PCR, cloned and sequenced in 13 individuals from eight Chinese indigenous chicken breeds and one introduced breed. Another 41 sequences of MHC class Ⅱ β from ten vertebrate species were cited from the NCBI GenBank. Thirteen new B-LB Ⅱ alleles were found in the chicken breeds sampled. Alignment of the exon 2 sequences revealed 91.1-97.8% similarity to each other within the chickens sampled, and the chickens shared 84.1-87.0% homology to Phasianus colchicus, 78.5-81.5% similarity to Coturnix japonica. The sequences in poultry showed 62.6-68.1% identity to HLA-DRB1, 50-61.5% similarity to DQB (HLA-, SLA- and H2-BB), 53.7-60% to HLA-DPB and 53.3-57.8% similarity to HLA-DOB. The frequency of nonsynonymous substitutions of nucleotide was higher than that of synonymous substitutions, and the frequencies of nonsynonymous and synonymous substitutions in poultry B-LB Ⅱ genes were lower than those observed in mammalian DRB1 and DQB1 genes. The deduced amino acid sequences of MHC class Ⅱ β1 domain exhibited extreme difference in conversed region and variable region patterns among the various species, but the two conserved cysteines forming disulfide-bond were shown consistent in poultry with that in mammalian species; and the carbohydrate attachment site was found more conserved in chicken, Homo sapiens, Bos taurus, Ovis aries and Capra hircus than in Sus scrofa and rodent animals. Compared with exon 2 of DQB1 genes of Homo sapiens, ruminant species and Sus scrofa, the differentia that the deletion of six nucleotides at position195 to 200 of exon 2 of DQB1 genes, and insertion of three nucleotides at position 247 to 249 of the exon 2 existed in rodent species were found, which led to the absence of three AA residues at position 65, 66, and 67 within β1 domain of DQB1 chain, and the insertion of one AA residue at position 85. The difference of the deletion of six nucleotides at position 72 to 77 of exon 2 of DPB1 genes was observed with Homo sapiens DQB1, which caused absence of three AA residues at position 24, 25, and 26 of β1 domain of DPB1 chain. The phylogenetic tree revealed that the B-LB Ⅱ sequences from poultry are not orthologous to the class Ⅱ MHC β-chain genes of mammalian species. The tree indicated that genetic evolutionary relationship of chickens with Phasianus colchicus was much closer than with Coturnix japonica, and the DQB and DPB clusters are more tightly related to each other than to the remaining clusters.
出处 《Agricultural Sciences in China》 CAS CSCD 2005年第4期299-309,共11页 中国农业科学(英文版)
基金 This study was supported by"948"Project of China(2001-361) Key Project of National Basic Research and De-velopmental Plan(G2000016103)of China.
关键词 Major histocompatibility complex Class β-chain Phylogenetic relationship POULTRY MAMMALIAN Nucleotide deletion Major histocompatibility complex, Class Ⅱ β-chain, Phylogenetic relationship, Poultry, Mammalian, Nucleotide deletion
  • 相关文献

参考文献10

  • 1Sayoko Shimizu,Takashi Shiina,Kazuyoshi Hosomichi,Shinji Takahashi,Takumi Koyama,Takashi Onodera,Jerzy K. Kulski,Hidetoshi Inoko.MHC class?IIB gene sequences and expression in quails (Coturnix japonica) selected for high and low antibody responses[J].Immunogenetics.2004(4)
  • 2J. P. Jacob,S. Milne,S. Beck,J. Kaufman.The major and a minor class?II β-chain (B-LB?) gene flank the Tapasin gene in the B-F?/B-L region of the chicken major histocompatibility complex[J].Immunogenetics.2000(2)
  • 3Toyoyuki Takada,Yoshiaki Kikkawa,Hiromichi Yonekawa,T. Amano.Analysis of goat MHC class II DRA and DRB genes: identification of the expressed gene and new DRB alleles[J].Immunogenetics.1998(6)
  • 4M. Vestberg,Ulrica Brunsberg,Kristin Bergsteinsdottir,Mikael Karlsson,Kenth Gustafsson,Dirk Wedekind,Hans Hedrich,Rikard Holmdahl.Limited polymorphism in the first domain of the rat MHC class II RT1-D molecule[J].Immunogenetics.1998(5)
  • 5G. T. Pharr,Jerry B. Dodgson,Henry D. Hunt,L. D. Bacon.Class II MHC cDNAs in 15I5 B-congenic chickens[J].Immunogenetics.1998(5)
  • 6George C. Russel,Karen L. Marello,Angela Gallagher,Declan J. McKeever,Roger L. Spooner.Amplification and sequencing of expressed DRB second exons from Bos indicus[J].Immunogenetics.1994(6)
  • 7W. Elwood Briles,Ronald M. Goto,Charles Auffray,Marcia M. Miller.A polymorphic system related to but genetically independent of the chicken major histocompatibility complex[J].Immunogenetics.1993(6)
  • 8Peter C. Scott,Jillian F. Maddox,Kathryn J. Gogolin-Ewens,Malcolm R. Brandon.The nucleotide sequence and evolution of ovine MHC class II B genes: DQB and DRB[J].Immunogenetics.1991(2)
  • 9Leif Andersson,Kenth Gustafsson,Ann-Kristin Jonsson,Lars Rask.Concerted evolution in a segment of the first domain exon of polymorphic MHC class II β loci[J].Immunogenetics.1991(4)
  • 10Jack Gorski,Colleen E. Hayes.The I-J-disparate mouse strains B10.A(3R) and B10.A(5R) have identical Eβ sequences[J].Immunogenetics.1990(2)

引证文献1

二级引证文献2

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部