期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

PCR-DGGE技术分析蛋鸡MHC基因对肠道细菌种群结构的影响 被引量:14

Influence of MHC Genotype on the Bacterial Community in the Layer Gastrointestinal Tract Analyzed by PCR-DGGE
在线阅读 下载PDF
导出
摘要 【目的】研究蛋鸡MHC(Major Histocompatibility Complex,主要组织相容性复合物)基因对不同周龄和不同部位肠道细菌种群结构的影响。【方法】使用基于16S rDNA的PCR-DGGE技术,结合特异性和共性条带割胶回收DNA进行克隆和测序,对2,4,6和8周龄商品蛋鸡和15I5系蛋鸡嗉囊、十二指肠、空肠、回肠和盲肠内含物细菌群落的结构和多样性进行比较,鉴定8周龄蛋鸡部分特异性和共性群落成员。【结果】商品蛋鸡和15I5系蛋鸡盲肠细菌的多样性最高,其次是回肠和空肠,嗉囊和十二指肠的细菌多样性比较低,且随着蛋鸡周龄增加,各肠段细菌多样性呈上升趋势,MHC基因对细菌多样性无显著影响。DGGE图谱聚类分析表明,蛋鸡MHC基因对4、6周龄肠道细菌的影响最大,对2周龄影响最小;而且MHC基因对消化道前段细菌的影响小于对后段影响。序列分析发现,8周龄商品蛋鸡和15I5系蛋鸡均有大量的三得利乳杆菌(Lactobacillus suntoryeus),是蛋鸡消化道前段的优势细菌;商品蛋鸡空肠、回肠和盲肠中的特异性条带主要是Ochrobactrum spp,索氏梭菌(Clostridium sordellii),超巨巨单胞菌(Megamonas hypermegale)和大量不可培养的细菌;15I5系蛋鸡的特异性条带主要是不可培养的细菌。【结论】蛋鸡MHC基因可影响不同周龄、不同肠段细菌群落的结构。 [ Objective ] The purpose of this study was to investigate the influence of MHC(Major Histocompatibility Complex) gene on the predominant bacteria community in the layer gastrointestinal tract. [ Method ] The bacterial community and diversity in the crop, duodenal, jejunal, ileal and ceacal digesta at the age of 2, 4, 6 and 8 weeks of commercial layers and line 1515 layers was studied by using 16S rDNA-based denaturing gradient gel electrophoresis (DGGE) and identification of some common and special bands in DGGE profile at 8 weeks. [Result] The highest level of diversity was found in cecum of commercial layers and line 1515 layers, followed by ileum and jejunum, while the lowest levels of diversity were found in crop and duodenum. The diversity of bacteria increased with the age at every region of gastrointestinal (GI) tract. MHC gene didn't influence the diversity of bacteria. The dendrograms revealed that MHC gene heavily influenced the bacteria composition at the age of 4 weeks and 6 weeks, followed by 8 weeks, while the highest level of similarity was found in 2 weeks. At the same time significant differences were observed between two lines in the lower GI tract than that in the upper GI tract. In addition, some amplicons in the DGGE pattern of two layer lines were identified by cloning and sequence analysis. Lactobacillus suntoryeus were predominant in the upper GI tract of two layer lines. The special bacterial in jejunal, ileal and ceacal digesta of commercial layers were Ochrobactrum spp, Clostridium sordellii, Megamonas hypermegale and plenty of uncultured bacterial. Most of the special bacteria in 1515 layers were uncultured bacteria. [ Conclusion ] The results of this study indicate that MHC gene influence the composition of the dominant bacterial population in every region of GI tract of layers at different ages.
作者 倪学勤 Joshua Gong Hai Yu Shayan Sharif 曾东
机构地区 四川农业大学动物医学院 Food Research Program Department of Animal and Poultry Science
出处 《中国农业科学》 CAS CSCD 北大核心 2009年第7期2564-2571,共8页 Scientia Agricultura Sinica
基金 教育部长江学者和创新团队发展计划(IRT0555,IRT0848)
关键词 肠道菌群 MHC 变性梯度凝胶电泳 蛋鸡 microbiota MHC DGGE layer
分类号 S831 [农业科学—畜牧学]
  • 相关文献

参考文献24

  • 1Mackie R I,White B A,Isaacson R E.Gastrointestinal Microbiology.2.Gastrointestinal microbes and host interactions.New York:Chapman & Hall.1997
  • 2Barrow P.Probiotics for chickens.In:Fuller R Probiotics,the Scientific Basis.London:Chapman & Hall.1992:225-257.
  • 3Barnes E M,Mead G C,Barnum D A,Harry E G.The intestinal flora of the chicken in the pedod 2 to 6 weeks of age,with particular reference to the anaerobic bacteria.British Poultry Science,1972,13:311-326.
  • 4Hooper L V,Wong M H,Thelin A,Hansson L,Falk P G,Gordon J I.Molecular analysis of commeusal host-microbial relationships in the intestine.Science,2001,291:881-884.
  • 5Zoetendal E G,Akkermans A D L,de Vos W M.Temperature gradient gel electrophoresis analysis from human fecal samples reveals stable and host-specific communities of active bacteria.Applied and Environmental Microbiology,1998,64:3854-3859.
  • 6Konstantinov S R,Zhu W Y,Williams,B A,Tamminga S,Willem M.de Vos,Akkermans Antoon D L.Effect of fermentable carbohydrates on piglet faecal bacterial communities as revealed by denaturing gradient gel electrophoresis analysis of 16S ribosomal DNA.FEMS Microbiology Ecology,2003,43:225-235.
  • 7Zhu X Y,Zhong T,Pandya Y,Joerger R D.16S rRNA based analysis of microbiota from the cecum of broiler chickens.Applied and Environmental Microbiology,2002,68:124-137.
  • 8van der Wielen P W,Keuzenkamp D A,Lipman L J,van Knapen F,Biesterveld S.Spatial and temporal variation of the intestinal bacterial community in commercially raised broiler chickens during growth.Microbial Ecology,2002,44:286-293.
  • 9Van de Merwe JP,Stegeman J H,Hazenberg M P.The resident faecal flora is determined by genetic characteristics of the host.Implications for Crohn's disease?Antonie van Leeuwenhoek,1983,49:119-124.
  • 10Zoetendal E G,Akkermans A D L,Akkermans van-Vliet W M,de Visser J A G M.de Vos W M.The host genotype affects the bacterial community in the human gastrointestinal tract.Microbial Ecology in Health and Disease,2001,13:129-134.

二级参考文献77

  • 1Haeri M, Read L R, Wilkie B N and Sharif S. Identification of peptides associated with chicken major histocompatibility complex class Ⅱ molecules of B21 and B19 haplotypes, Immunogenetics, 2005,56:854-859.
  • 2Hansen H P, van Zandt N and Law G R J. Differences in susceptibility to Marek' s disease in chicken carrying two different B locus blood group alleles. Poultry Science, 1967,46:1268.
  • 3Heller E D, Uni Z and Bacon L D. Serological evidence for major histocompatibility complex (B complex) antigens in broilers selected for humoral immune response. Poultry Science, 1991,70:726-732.
  • 4Hepkema B G, Blankert J J, Albers G A A, Tilanus M G J, Egberts E, Van der Zijpp A J and Hensen E J. Mapping of susceptibility to Marek' s disease within the major histocompatibility (B) complex by refined typing of white leghorn chickens. Animal Genetics, 1993,24:283-287.
  • 5Hlozanek I, Corbel C and Dieterlen-Lievre F. The major histocompatibility complex of chickens controls the infection of early chicken embryos by MC29 virus. Virology, 1994,203 (1): 29-35.
  • 6Hunt H D, Lupiani B, Miller M M, Gimeno I, Lee L F and Parcells M S. Marek's disease virus down-regulates surface expression ofMHC (B complex) class Ⅰ (BF) glycoproteins during active but not latent infection of chicken cells. Virology, 2001,282(1): 198-205.
  • 7Jarosinski K W, Yunis R and Oconnell P H. Influence of genetic resistance of the chicken and virulence of Marek 's disease virus (MDV) on nitric oxide responses after MDV infection. Avian Disease, 2002,46:636-649.
  • 8Jeffcry K J and Bangham C R. Do infectious diseases drive MHC diversity. Microbes and Infection, 2000, 202: 1335-1341.
  • 9Kaiser P, Underwood G and Davison F. Differential cytokine responses following Marek" s disease virus infection of chickens differing in resistaace to Marek's disease. Joumal of Virology, 2003,77:762-768.
  • 10Kaufman J and Salomonsen J. The "minimal essential MHC" revisited: Both peptide - binding and cell surface expression level of MHC molecules are polymorphisms selected by pathogens in chickens. Hereditas, 1997,127(1-2):67-73.

共引文献58

同被引文献157

引证文献14

二级引证文献63

中国农业科学
2009年 第7期

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