Role of Peptides in Rumen Microbial Metabolism - Review -
R. J. Wallace, C. Atasoglu, C. J. Newbold
Asian-Australas J Anim Sci. 1999;12(1):139-147.   Published online 1999 Feb 1     DOI: https://doi.org/10.5713/ajas.1999.139
Citations to this article as recorded by Crossref logo
In vitro investigation of the ruminal digestion kinetics of different nitrogen fractions of 15N-labelled timothy forage
M. Vaga, P. Huhtanen, Alex V. Chaves
PLOS ONE.2018; 13(9): e0203385.     CrossRef
Nitrogen fractionation of certain conventional- and lesser-known by-products for ruminants
M.S. Mahesh, Sudarshan S. Thakur, Rohit Kumar, Tariq A. Malik, Rajkumar Gami
Animal Nutrition.2017; 3(2): 186.     CrossRef
Distinctive microbiomes and metabolites linked with weight loss after gastric bypass, but not gastric banding
Zehra Esra Ilhan, John K DiBaise, Nancy G Isern, David W Hoyt, Andrew K Marcus, Dae-Wook Kang, Michael D Crowell, Bruce E Rittmann, Rosa Krajmalnik-Brown
The ISME Journal.2017; 11(9): 2047.     CrossRef
Characterization and comparison of the temporal dynamics of ruminal bacterial microbiota colonizing rice straw and alfalfa hay within ruminants
Junhua Liu, Mengling Zhang, Chunxu Xue, Weiyun Zhu, Shengyong Mao
Journal of Dairy Science.2016; 99(12): 9668.     CrossRef
Effect of Quebracho Tannin Extract on Soybean and Linseed Oil Biohydrogenation by Solid Associated Bacteria: Anin vitroStudy
Sara Minieri, Arianna Buccioni, Stefano Rapaccini, Antonio Pezzati, Doria Benvenuti, Andrea Serra, Marcello Mele
Italian Journal of Animal Science.2014; 13(3): 3267.     CrossRef
Effect of feed 15N incorporation into solid-associated bacteria on the in situ nitrogen degradability of 15N labelled Italian ryegrass
M. Kamoun, S. López, Y. Beckers, P. Lecomte, E. Francois, A. Théwis
Animal Feed Science and Technology.2007; 135(3-4): 353.     CrossRef
Evidence in support of a role for plant-mediated proteolysis in the rumens of grazing animals
A. H. Kingston-Smith, R. J. Merry, D. K. Leemans, H. Thomas, M. K. Theodorou
British Journal of Nutrition.2005; 93(1): 73.     CrossRef
Sources of Variation in Rates of in Vitro Ruminal Protein Degradation
G.A. Broderick, P. Udén, M.L. Murphy, A. Lapins
Journal of Dairy Science.2004; 87(5): 1345.     CrossRef
Effect of Inhibitor Concentration and End-Product Accumulation on Estimates of Ruminal in Vitro Protein Degradation
Glen A. Broderick, Michael L. Murphy, Peter Udén
Journal of Dairy Science.2004; 87(5): 1360.     CrossRef
Comparative dry matter intake and nutrient utilisation efficiency in lactating cattle and buffaloes
Shyam S Paul, Asit B Mandal, Alagarsamy Kannan, Guru P Mandal, Nitya N Pathak
Journal of the Science of Food and Agriculture.2003; 83(4): 258.     CrossRef
Does previous protein feeding affect the response of sheep towards foods that differ in their rumen availability, but not content, of nitrogen?
Georgios Arsenos, Ilias Kyriazakis
Physiology & Behavior.2001; 72(4): 533.     CrossRef
Influence of nitrogen source on the fermentation of fibre from barley straw and sugarbeet pulp by ruminal micro-organismsin vitro
M. J. Ranilla, M. D. Carro, S. López, C. J. Newbold, R. J. Wallace
British Journal of Nutrition.2001; 86(6): 717.     CrossRef
Purification and Properties of a Type II-like Dipeptidyl Peptidase from the Ruminal Peptidolytic Bacterium,Prevotella albensis M384
Hong-Dae Kim, Nicola D. Walker, Nest McKain, R. John Wallace
Anaerobe.2001; 7(6): 307.     CrossRef
Conditioned feeding responses of sheep towards flavoured foods associated with the administration of ruminally degradable and/or undegradable protein sources
G. Arsenos, I. Kyriazakis, B. J. Tolkamp
Animal Science.2000; 71(3): 597.     CrossRef
The need for nitrogen
C. Jamie Newbold
British Journal of Nutrition.1999; 82(2): 81.     CrossRef