期刊文献+

蛋白质来源对瘤胃细菌和原虫群体结构的影响 被引量:14

Effects of Dietary Protein Sources on Bacterial and Protozoal Community Structure in Goat Rumen
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摘要 以4只瘘管山羊为试验动物,采用4×4拉丁方设计,使用克隆测序、遗传指纹以及细胞显微计数等技术,研究以羽毛粉(A)、玉米蛋白粉(B)、豆粕(C)和鱼粉(D)4种蛋白补充料分别配合的混合日粮对瘤胃细菌和原虫群体结构的影响。结果表明:细菌的R.flavefaciens、R.bromii、R-7、Roseburia faecalis、Uncultured T33H60F48、Uncultured GRANT42及1个尚不能定性的类群在组间存在显著差异(P<0.05);原虫的内毛虫、前毛虫、头毛虫、等毛虫4个类群在处理间差异显著(P<0.05)。综上可见,蛋白质源对瘤胃细菌和原虫类群结构有显著影响。 The objectives of this paper were to investigate the effect of protein sources on rumen microbial population,including bacteria and protozoa.Four goats fitted with rumen cannulas,were used in a 4×4 Latin square design.And formula diets were divided into 4 groups according to their nitrogen sources,which was feather meal(A),corn gluten meal(B),soybean meal(C),and fish meal(D),respectively.The cloning and sequence analysis,SSCP fingerprint,and cell-counting techniques were applied in this study.The results showed that significant differences were found in several kinds of bacteria,such as R.flavefaciens,R.bromii,R-7,Roseburia faecalis,Uncultured T33H60F48,Uncultured GRANT42,and an unknown group,and also,there were marked differences in 4 protozoal genuses,such as Entodinium,Epidinium,Ophryoscolex,and Isotrichidae,among protein sources.In conclusion,the protein sources had important effects on ruminal bacterial and protozoal community structure.
出处 《中国畜牧杂志》 CAS 北大核心 2011年第3期35-40,共6页 Chinese Journal of Animal Science
基金 国家自然科学基金项目(30771567)
关键词 蛋白质源 瘤胃 细菌 原虫 类群结构 山羊 protein sources rumen bacteria protozoa community structure goat
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参考文献12

  • 1Ipharraguerre I R, Clark J H. Impacts of the source and amount of crude protein on the intestinal supply of nitrogen fractions and performance of dairy cows[J]. J Da ry Sci, 2005, 88:E22-E37.
  • 2Zhou J, Bruns M A, Tiedje J M. DNA recovery from soils of diverse composition[J]. Appl Enviro Microbiol, 1996, 62(2):316-322.
  • 3Lane D J. 165/235 rRNA sequencing [M]. // Stackebrandt E, Goodfellow M. eds. NY: John Wiley & Sons: Nucleic Acid Techniques in Bacterial Systematics, 1st ed. Chichester, 1991 : 115-175.
  • 4Ovreas L, Forney L, Daae F L, et al. Distribution of bacterioplankton in meromictic Lake Saelevannet, as determined by denaturing gradient gel electrophoresis of PCR-amplified gene fragments coding for 16S rRNA[J]. Appl Enviro Microbiol, 1997, 63:3367-3373.
  • 5王梦芝,王洪荣,曹恒春,李国祥,张洁.特定氨基酸缺省底物对体外培养混合瘤胃微生物及其发酵的影响[J].中国农业科学,2008,41(7):2136-2142. 被引量:14
  • 6Schmalenberger A, Tebbe C C. Bacterial diversity in maize rhizospheres: conclusions on the use of genetic profiles based on PCR-amplified partial small subunit rRNA genes in ecological studies[J]. Mol Ecol, 2003, 12:251-262.
  • 7Carriqo J A, Pinto F R, Simas C, et al. Assessment of band- based similarity coefficients for automatic type and subtype classi- fication of microbial isolates analyzed by pulsed-field gel electrophoresis[J]. J Clin Microbial, 2005, 43(11):5483-5490.
  • 8冯宗慈,高民.通过比色测定瘤胃液氨氮含量方法的改进[J].内蒙古畜牧科学,1993(4):40-41. 被引量:422
  • 9Hristov A N, Ivan M, Rode L M, etal. Fermentation characteristics and ruminal ciliate prolozoal populations in cattle fed mediumor high-concentrate barley-based diets?[J]. J Anita Sci, 2001, 79: 515-524.
  • 10Ivan M, Neill L, Forster R, et al. Effects of Isotricha, Dasytricha, on ruminal fermentation and duodenal in wethers fed different diets[J]. ] Dairy Sci, 2000, 83:776-787.

二级参考文献21

  • 1杨胜.饲料分析及饲料质量检测技术.北京:北京农业大学出版社,1996.171-172
  • 2Clark J H, Klusmeyer T H, Cameron M R. Symposium: Nitrogen metabolism and amino acid nutrition in dairy cattle. Journal of Dairy Science, 1992, 75: 2304-2323.
  • 3Stem M D, Varga G A, Clark J H, Firkins J L, Huber J T, Palmquist D L. Evaluation of chemical and physical properties of feeds that affect protein metabolism in the rumen. Journal of Dairy Science, 1994, 77: 2762-2786.
  • 4Kajikawa H, Mitsumori M, Ohmomo S. Stimulatory and inhibitory effects of protein amino acids on growth rate and efficiency of mixed ruminal bacteria. Journal of Dairy Science, 2002, 85: 2015-2022.
  • 5Abdulrazak S A, Fujihara T. Animal Nutrition: A Laboratory Manual. KASHIWAGI Printing Co. Mvatsue-shi, Japan, 1999:15-20.
  • 6Martin-Orue S M, Balcells J. Quantification and chemical composition of mixed bacteria harvested from solid fractions ofrumen digesta: effect of detachment procedure. Animal Feed Science and Technology, 1998, 4: 269-282.
  • 7Ranilla M J, Carro M D. Diet and procedures used to detach particle-associated microbes from ruminal digesta influence chemical composition of microbes and estimation of microbial growth in Rusitec fermenters. Journal of Animal Science, 2003, 81 : 537-544
  • 8Zhou J, Bruns M A, Tiedje J M. DNA Recovery from soils of diverse composition. Applied and Environmental Microbiology, 1996, 62: 316-322.
  • 9Muyzer G, deWaal E C, Uitterlinden A G. Profiling of complex microbial populations by denaturing gradient gel electrophoresis analysis of polymerase chain reaction-amplified genes encoding for 16SrRNA. Applied and Environmental Microbiology, 1993, 59: 695-700.
  • 10Henning P H, Steyn D G, Mrissner H H. Effect of synchronization of energy and nitrogen supply on animal characteristics and microbial growth. Journal of Animal Science, 1993, 71 : 2516-2528.

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