Growth of Aerobacter aerogenes on d-Arabinose: Origin of the Enzyme Activities
Oliver, Eugene J., Mortlock, Robert P.
Mutants of Aerobacter aerogenes can be selected which are capable of utilizing d-arabinose as a sole source of carbon and energy for growth. Mutants can also be selected which are capable of using...
Metabolism of d-Arabinose by Aerobacter aerogenes: Purification of the Isomerasea
Oliver, Eugene J., Mortlock, Robert P.
In Aerobacter aerogenes, the mutational event permitting the utilization of d-arabinose as a source of carbon and energy is a regulatory mutation resulting in the constitutive synthesis of certain...
Metabolism of d-Arabinose: Origin of a d-Ribulokinase Activity in Escherichia coli1
LeBlanc, Donald J., Mortlock, Robert P.
The kinase responsible for the phosphorylation of d-ribulose was purified 45.5-fold from a strain of Escherichia coli K-12 capable of growth on d-arabinose with no separation of d-ribulo- or...
Metabolism of d-Arabinose: a New Pathway in Escherichia coli1
LeBlanc, Donald J., Mortlock, Robert P.
Several growth characteristics of Escherichia coli K-12 suggest that growth on l-fucose results in the synthesis of all the enzymes necessary for growth on d-arabinose. Conversely, when a mutant of...
Bisson, Theresa M., Mortlock, Robert P.
Induction studies on Aerobacter aerogenes strain PRL-R3, using ribitol as the inducer-substrate, indicated that two enzymes of ribitol catabolism, ribitol dehydrogenase and d-ribulokinase, are...
Regulation of Pentitol Metabolism by Aerobacter aerogenes II. Induction of the Ribitol Pathway
Bisson, Theresa M., Oliver, Eugene J., Mortlock, Robert P.
The incubation of Aerobacter aerogenes PRL-R3 with ribitol resulted in the induction of ribitol dehydrogenase and d-ribulokinase, coordinately controlled enzymes of the pathway of ribitol catabolism....
GLUCONATE METABOLISM OF PASTEURELLA PESTIS
Mortlock, R. P. (U.S. Army Chemical Corps, Frederick, Md.). Gluconate metabolism of Pasteurella pestis. J. Bacteriol. 84:53–59. 1962.—During a study of gluconate metabolism by a virulent strain...
Growth of Aerobacter aerogenes on d-Arabinose: Origin of the Enzyme Activities
Oliver, Eugene J., Mortlock, Robert P.
Mutants of Aerobacter aerogenes can be selected which are capable of utilizing d-arabinose as a sole source of carbon and energy for growth. Mutants can also be selected which are capable of using...
Metabolism of d-Arabinose by Aerobacter aerogenes: Purification of the Isomerasea
Oliver, Eugene J., Mortlock, Robert P.
In Aerobacter aerogenes, the mutational event permitting the utilization of d-arabinose as a source of carbon and energy is a regulatory mutation resulting in the constitutive synthesis of certain...
Metabolism of d-Arabinose: Origin of a d-Ribulokinase Activity in Escherichia coli1
LeBlanc, Donald J., Mortlock, Robert P.
The kinase responsible for the phosphorylation of d-ribulose was purified 45.5-fold from a strain of Escherichia coli K-12 capable of growth on d-arabinose with no separation of d-ribulo- or...
Metabolism of d-Arabinose: a New Pathway in Escherichia coli1
LeBlanc, Donald J., Mortlock, Robert P.
Several growth characteristics of Escherichia coli K-12 suggest that growth on l-fucose results in the synthesis of all the enzymes necessary for growth on d-arabinose. Conversely, when a mutant of...
Bisson, Theresa M., Mortlock, Robert P.
Induction studies on Aerobacter aerogenes strain PRL-R3, using ribitol as the inducer-substrate, indicated that two enzymes of ribitol catabolism, ribitol dehydrogenase and d-ribulokinase, are...
Regulation of Pentitol Metabolism by Aerobacter aerogenes II. Induction of the Ribitol Pathway
Bisson, Theresa M., Oliver, Eugene J., Mortlock, Robert P.
The incubation of Aerobacter aerogenes PRL-R3 with ribitol resulted in the induction of ribitol dehydrogenase and d-ribulokinase, coordinately controlled enzymes of the pathway of ribitol catabolism....
GLUCONATE METABOLISM OF PASTEURELLA PESTIS
Mortlock, R. P. (U.S. Army Chemical Corps, Frederick, Md.). Gluconate metabolism of Pasteurella pestis. J. Bacteriol. 84:53–59. 1962.—During a study of gluconate metabolism by a virulent strain...