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Publications by G. Ehrlich
Cellulosilyticum Ruminicola, a Newly Described Rumen Bacterium That Possesses Redundant Fibrolytic-Protein-Encoding Genes and Degrades Lignocellulose With Multiple Carbohydrate- Borne Fibrolytic Enzymes
Applied and Environmental Microbiology
Applied Microbiology
Biotechnology
Ecology
Food Science
Related publications
Metagenomic Insights Into the Fibrolytic Microbiome in Yak Rumen
PLoS ONE
Multidisciplinary
Digestion and Microbial Protein Synthesis in Sheep as Affected by Exogenous Fibrolytic Enzymes
South African Journal of Animal Sciences
Animal Science
Zoology
Cellulosilyticum Ruminicola Gen. Nov., Sp. Nov., Isolated From the Rumen of Yak, and Reclassification of Clostridium Lentocellum as Cellulosilyticum Lentocellum Comb. Nov.
International Journal of Systematic and Evolutionary Microbiology
Evolution
Ecology
Systematics
Microbiology
Behavior
Medicine
Effect of Sampling Site on Concentration and Fibrolytic Activity of Protozoa in Bovine Rumen Contents
Reproduction Nutrition Development
Hydrolysis of Leaf Fraction 1 Protein by the Proteolytic Rumen Bacterium Bacteroides Ruminicola R8/4
Microbiology
Microbiology
Bioprocessing of Crop Residues Using Fibrolytic Enzymes and Flavobacterium Bolustinum for Enriching Animal Feed
International Journal of Biotechnology for Wellness Industries
Response of Lactating Buffaloes to Fibrolytic Enzymes and Their Influence on Milk and Cheese Properties
Egyptian Journal of Nutrition and Feeds
Influence of Adding Fibrolytic Enzymes on the Ruminal Fermentation of Date Palm By-Products
Archiv für Tierzucht/Archives Animal Breeding
Genetics
Food Animals
Crop Science
Animal Science
Plant Science
Zoology
Agronomy
In Vitro Degradability of Coffee Husks Treated With Doses of Fibrolytic Enzymes for Use in Ruminant Nutrition
Semina:Ciencias Agrarias
Agricultural
Biological Sciences