Chemical Microbiology |
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Page 219
... genetic code and of the ways in which the DNA in micro- organisms is subject to variation . The Genetic Code The Sequence Hypothesis ( page 172 ) states that the amino acid sequence in a polypeptide is determined by the sequence of ...
... genetic code and of the ways in which the DNA in micro- organisms is subject to variation . The Genetic Code The Sequence Hypothesis ( page 172 ) states that the amino acid sequence in a polypeptide is determined by the sequence of ...
Page 220
... genetic methods , the order of these mutations on the genetic map . The results showed that the two orders were the same ; moreover , sites close together on the polypeptide chain were also close together on the genetic map . Brenner ...
... genetic methods , the order of these mutations on the genetic map . The results showed that the two orders were the same ; moreover , sites close together on the polypeptide chain were also close together on the genetic map . Brenner ...
Page 224
... genetic material - Another way in which the composition of the genetic material in a micro - organism can be changed is by the transfer of a portion of DNA into the micro - organism and the incorporation or recombination of this DNA ...
... genetic material - Another way in which the composition of the genetic material in a micro - organism can be changed is by the transfer of a portion of DNA into the micro - organism and the incorporation or recombination of this DNA ...
Contents
4 | 54 |
General Considerations on Microbial Metabolism | 102 |
Permeation of Solutes | 108 |
Copyright | |
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6-phosphate Academic Press acetyl-CoA activity aerobic algae amino acids amoebae anaerobic antibiotics antimicrobial auxotrophic Bacillus Bact bacteria bacterium biochemical Biochemistry biogenesis biosynthesis carbon dioxide catabolism cell wall CHâ‚‚ CH2 CH2 chain chemical chlorophylls compounds concentration contain COOH culture cytochrome cytoplasmic membrane electron electron-transport end-product endospore energy environment enzyme Escherichia coli example fatty acids Figure flagella formation formed fungi gene genetic glucose glycerol glycopeptide grown Gunsalus hydrogen I. C. and Stanier inhibition intermediates intracellular involved ions known leading to synthesis lipid m-RNA mechanism medium metabolic micro micro-organisms microbial Microbiol Microbiology mitochondria molecular weight molecules nitrogen nucleotides nutrients organelles organisms oxidation oxygen Pathways leading peptide permease phosphate phosphorylation pigment polysaccharide protein protoplast protozoa purine pyrimidine pyruvate radiation replication ribosomes Saccharomyces cerevisiae shown solute specific spore strains structure studies substrate sugars t-RNA TCA cycle teichoic acids temperature transport types usually yeast