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Features Common to All Transfer Processes
Some Future Prospects
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Acad acceptor acetate activity aerobic aerogenes aeruginosa amidase amino acids anaerobic assimilation bacteria bacterial cell bacteriocin Bacteriol Biochem Biol Biophys butyramide Calvin cycle carbon catabolic catalyzed Chem chemostat chromatophore chromosome coli colicin ColV compounds COOH cultures cytochrome cytochrome c2 D-arabinose Dagley degradation dehydrogenase electron energy enzyme evolution Falkow fermentation fission formation fumarate function gene genetic glucose growth substrate Helinski hydroxyl induced inhibition isolated isomerase Konisky L-fucose lactose McFadden mechanism medium membrane metabolism methanol Microbiol molar growth yield mole molecular molecules Mortlock mutants NADH Natl Nature London nitrate occur one-carbon organisms oxidative phosphorylation oxygen pathway phage phosphate photosynthetic plasmid Proc production protein proton Pseudomonas purified putida pyruvate Quayle reaction center receptor recombination redox reduction replication replicon ribitol RuBP RuBP carboxylase selection sequence serine shown specific Stouthamer strain structure studies subunits succinate suggested synthesis Tabita tion transfer transport transposon utilize wild-type xylitol YATP