Continuous Culture 6: Applications and New FieldsA. C. R. Dean Society of Chemical Industry, London, 1976 - 364 pagine Chichester, England: Published for the Society of Chemical Industry, London, by Ellis Horwood, 1976. |
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Pagina 16
... important product CO2 or we may write : CO2 formed moles Y 2 S = mole substrate used CO Y 2 C moles CO2 formed g.atom substrate - C used ( 8 ) ( 9 ) Like yo , y2 is important in the derivation of elementary balance equations ( see ...
... important product CO2 or we may write : CO2 formed moles Y 2 S = mole substrate used CO Y 2 C moles CO2 formed g.atom substrate - C used ( 8 ) ( 9 ) Like yo , y2 is important in the derivation of elementary balance equations ( see ...
Pagina 56
... important that the scope of the practical work should not become irrelevant to the lecture courses . Also it is important that the practical work should become progressively more complex and demanding as the students ' skills develop ...
... important that the scope of the practical work should not become irrelevant to the lecture courses . Also it is important that the practical work should become progressively more complex and demanding as the students ' skills develop ...
Pagina 57
... important aim of demonstrating the utility of continuous culture systems , compared with closed culture systems , as a tool in physiological experimentation . At this point we consciously refrain from complicating the issues by asking ...
... important aim of demonstrating the utility of continuous culture systems , compared with closed culture systems , as a tool in physiological experimentation . At this point we consciously refrain from complicating the issues by asking ...
Sommario
Stoicheiometric Aspects of Microbial Growth | 7 |
Definition of a Mole of Microorganism | 13 |
Effect of Dilution Rate on Respiration and Yield | 20 |
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2-oxogluconate acetate activity of B-galactosidase aeruginosa amino acids ammonia assimilation autotrophic bacteria Bacteriol batch culture Biochem Biol biomass Biophys Biotechnol carbon source carbon-limited cell yield cellulose Chem chemostat chemostat cultures ciliates concentration continuous culture decreased dilution rate dissolved oxygen effect Ellwood energy source enzyme equations Escherichia coli exoenzyme experiments extracellular feed feedstock fermentation FIGURE formation GDH-NADP glucose isomerase glucose-limited glutamate dehydrogenase glutamine synthetase glycerol GOGAT grown Hyphomicrobium increased inducer inhibition lactate maximum mechanism medium metabolism metabolites methanol microbial Microbiol microorganisms mixed culture mixotrophic mutant nitrite reductase nitrogen source nitrogen-limited obtained organisms oxygen limitation pathway periphyton phage phosphatase phosphate population present production protease protein repression SCP processes shown specific activity specific growth rate staphylokinase steady strain Strep studies substrate subtilis Table Tank teichoic acid temperature Tempest tion transport systems tryptophanase uptake utilis values wort yeast