Effect of Disodium Fumarate on In vitro Rumen Fermentation of Different Substrates and Rumen Bacterial Communities as Revealed by Denaturing Gradient Gel Electrophoresis Analysis of 16S Ribosomal DNA
S. Y. Mao, G. Zhang, W. Y. Zhu
Asian-Australas J Anim Sci. 2007;20(4):543-549.   Published online 2007 Jan 24     DOI: https://doi.org/10.5713/ajas.2007.543
Citations to this article as recorded by Crossref logo
Effects of Disodium Fumarate on In Vitro Rumen Fermentation, The Production of Lipopolysaccharide and Biogenic Amines, and The Rumen Bacterial Community
Wei Jin, Chunxu Xue, Junhua Liu, Yuyang Yin, Weiyun Zhu, Shengyong Mao
Current Microbiology.2017; 74(11): 1337.     CrossRef
Impairment of rumen biohydrogenation and bacteria of theButyrivibriogroup in the rumen of goats through a 20:5n-3 (EPA) rich supplement
Xuejiao Lv, Shengyong Mao, Weiyun Zhu
Journal of the Science of Food and Agriculture.2016; 96(2): 474.     CrossRef
Effect of supplementation of rice bran and fumarate alone or in combination onin vitrorumen fermentation, methanogenesis and methanogens
Arfan Abrar, Makoto Kondo, Tasuku Kitamura, Tomomi Ban-Tokuda, Hiroki Matsui
Animal Science Journal.2016; 87(3): 398.     CrossRef
Quantification of organic acids in ruminal in vitro batch culture fermentation supplemented with fumarate using a herb mix as a substrate
J. Pisarčíková, Z. Váradyová, K. Mihaliková, S. Kišidayová, J. Plaizier
Canadian Journal of Animal Science.2016; 96(1): 60.     CrossRef
Dose and time response of ruminally infused algae on rumen fermentation characteristics, biohydrogenation and Butyrivibrio group bacteria in goats
Honglong Zhu, Veerle Fievez, Shengyong Mao, Wenbo He, Weiyun Zhu
Journal of Animal Science and Biotechnology.2016;[Epub]     CrossRef
Effects of Acarbose Addition on Ruminal Bacterial Microbiota, Lipopolysaccharide Levels and Fermentation Characteristics In vitro
Yu-yang Yin, Yu-jie Liu, Wei-yun Zhu, Sheng-yong Mao
Asian-Australasian Journal of Animal Sciences.2014; 27(12): 1726.     CrossRef
Effect of Gynosaponin on Rumen <i>In vitro</i> Methanogenesis under Different Forage-Concentrate Ratios
Bakhetgul Manatbay, Yanfen Cheng, Shengyong Mao, Weiyun Zhu
Asian-Australasian Journal of Animal Sciences.2014; 27(8): 1088.     CrossRef
Impact of subacute ruminal acidosis (SARA) adaptation on rumen microbiota in dairy cattle using pyrosequencing
S.Y. Mao, R.Y. Zhang, D.S. Wang, W.Y. Zhu
Anaerobe.2013; 24: 12.     CrossRef
Molecular tools for deciphering the microbial community structure and diversity in rumen ecosystem
Sunil Kumar Sirohi, Nasib Singh, Sumit Singh Dagar, Anil Kumar Puniya
Applied Microbiology and Biotechnology.2012; 95(5): 1135.     CrossRef
Evaluation of complementary effects of 9,10-anthraquinone and fumaric acid on methanogenesis and ruminal fermentationin vitro
Seyed Hadi Ebrahimi, Madhu Mohini, Kamal Kishore Singhal, Vahideh Heidarian Miri, Amrish Kumar Tyagi
Archives of Animal Nutrition.2011; 65(4): 267.     CrossRef
Effect of Total Mixed Ration with Fermented Feed on Ruminal In vitro Fermentation, Growth Performance and Blood Characteristics of Hanwoo Steers
S. H. Kim, M. J. Alam, M. J. Gu, K. W. Park, C. O. Jeon, Jong K. Ha, K. K. Cho, S. S. Lee
Asian-Australasian Journal of Animal Sciences.2011; 25(2): 213.     CrossRef
The use of molecular techniques based on ribosomal RNA and DNA for rumen microbial ecosystem studies: a review
Weidong Deng, Dongmei Xi, Huaming Mao, Metha Wanapat
Molecular Biology Reports.2008; 35(2): 265.     CrossRef