Applied and Environmental Microbiology, Volume 54, Pages 851-1642American Society for Microbiology, 1988 - Microbial ecology |
From inside the book
Results 1-3 of 64
Page 895
... Cellulose derivatives vary greatly in uniformity of substi- tution because derivatization is essentially a random process governed by the reactivity of the hydroxyl group and by the accessibility of the cellulose to derivatizing ...
... Cellulose derivatives vary greatly in uniformity of substi- tution because derivatization is essentially a random process governed by the reactivity of the hydroxyl group and by the accessibility of the cellulose to derivatizing ...
Page 1168
... cellulose degradation have produced conflicting results . DM ( 35 ) and cellulose ( 1 , 22 ) degradation in vitro are depressed more by para - coumaric acid ; however , ferulic acid was found to be more inhibitory to cellulose ...
... cellulose degradation have produced conflicting results . DM ( 35 ) and cellulose ( 1 , 22 ) degradation in vitro are depressed more by para - coumaric acid ; however , ferulic acid was found to be more inhibitory to cellulose ...
Page 1636
... cellulose hydrolysis by ru- minal bacteria by two mechanisms . First , the methylated cellulose derivatives are competitive inhibitors of enzyme activity . Second , the methylated derivatives are surfactants that alter protein structure ...
... cellulose hydrolysis by ru- minal bacteria by two mechanisms . First , the methylated cellulose derivatives are competitive inhibitors of enzyme activity . Second , the methylated derivatives are surfactants that alter protein structure ...
Other editions - View all
Common terms and phrases
acenaphthene acetate activity aerobic agar alghumin amino acids anaerobic analysis antibiotic Appl arginine aromatic assay ATCC bacteria Bacteriol bacteriophage bacterium Bacteroides Biol biomass broth buffer carbon carotovora cell wall cellulose chemical chromatography cloned coli colonies compounds concentration containing cremoris culture degradation denitrification detected determined digestion dilution effect Environ enzyme Escherichia coli ethanol fermentation ferulic acid filter fragment gene genetic glucose growth H₂ hybridization incubated infection inhibition inoculated inoculum isolated laboratory lactis lignin lividans medium metabolism metabolites methanogenic method methylcellulose microbial Microbiol microorganisms molecular mutant naphthalene nitrate obtained organic oxide phage phenanthrene phenol plasmid plates present production protein protoplast Pseudomonas resistance rhizobia Rhizobium rumen ruminal samples sediments Society for Microbiology soil solution species spores sterile strains Streptococcus Streptomyces substrate subtilis Table temperature tetracycline tion toxin transfer transformation xylanase yeast extract µg/ml