Manual of Methods for General Bacteriology |
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Page 70
... TEMPERATURE The temperature of incubation dramatically affects the growth rate of bacteria since it affects the rates of all cellular reactions . In addition , the temperature may affect the metabolic pat- tern , the nutritional ...
... TEMPERATURE The temperature of incubation dramatically affects the growth rate of bacteria since it affects the rates of all cellular reactions . In addition , the temperature may affect the metabolic pat- tern , the nutritional ...
Page 71
... temperatures above its optimum requires precise temperature control . To be safe , therefore , incubate a culture below its optimum to an extent determined by the variability of the incubator . The temperature within ordinary convection ...
... temperatures above its optimum requires precise temperature control . To be safe , therefore , incubate a culture below its optimum to an extent determined by the variability of the incubator . The temperature within ordinary convection ...
Page 114
... Temperature Incubation for Psychrophiles and Psychrotrophs ( 52 ) Low temperature will retard growth of bacte- ria other than psychrophiles and psychrotrophs , so incubate enrichment cultures at 0 to 5 ° C before attempting isolation ...
... Temperature Incubation for Psychrophiles and Psychrotrophs ( 52 ) Low temperature will retard growth of bacte- ria other than psychrophiles and psychrotrophs , so incubate enrichment cultures at 0 to 5 ° C before attempting isolation ...
Contents
Determinative Methods of Light Microscopy R N DOETSCH | 34 |
Cell Fractionation CARL A SCHNAITMAN | 52 |
RALPH N COSTILOW Editor | 63 |
Copyright | |
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acetate Add per liter Adjust agar amino acids anaerobic aqueous assay autoclaving bacteria bacterial cells Bacteriol bacterium biotin broth buffer calcium pantothenate carbon centrifuge chemical coli colonies column components compounds concentration containing cover slip culture described determine dilution Dissolve distilled water electron microscopy endospores enrichment enzyme Escherichia coli ethanol film filter filtration flask folic acid fraction glass glucose gradient gram-negative grid growth heat hydroxylapatite Incubate inoculated isolation laboratory lipids liquid measure medium membrane method mg/liter Microbiol microbiology mixture mutagens mutants NaCl nitrogen nutrient organisms oxidation oxygen pellet phage pipette plasmid plate prepared procedure protein reaction reagent remove salts sample slide sodium solution specific specimen staining standard sterile substrate sucrose surface suspension Table techniques temperature thiamine tion tube vials vitamin vitamin B12 vol/vol volume Wash wt/vol yeast extract