R M Egan scite author profile

R M Egan

5Publications

48Citation Statements Received

60Citation Statements Given

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Requirements for induction of the biodegradative threonine dehydratase in Escherichia coli

Egan¹,

Phillips²

1977

J Bacteriol

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Synthesis of the biodegradative L-threonine dehydratase in Escherichia coli, Crookes strain, was prevented by dissolved oxygen concentrations of 6 ,aM or greater. This effect was shown to be exerted solely on synthesis, rather than being the result of enzyme inactivation in vivo. In addition to an anaerobic environment, maximum enzyme synthesis was dependent upon the presence of a complete complement of amino acids, with omission of L-threonine, L-valine, or L-leucine producing the largest decreases in enzyme formation. L-Threonine, the most essential of the amino acid requirements, could be partially replaced by DL-allothreonine or a-ketobutyrate. Half-maximal stimulation of enzyme synthesis occurred with 0.4 mM threonine in the medium. The roles of anaerobiosis and amino acids are interpreted as being in accord with the concept that threonine dehydratase functions in anaerobic energy production under conditions of amino acid sufficiency.

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Control of biodegradative threonine dehydratase inducibility by cyclic AMP in energy-restricted Escherichia coli

Phillips¹,

Egan²,

Lewis³

1978

J Bacteriol

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To explain the requirement for anaerobic conditions in the induction of biodegradative L-threonine dehydratase in Escherichia coli, Crookes strain, measurements of cyclic AMP (cAMP) were made during aerobic and anaerobic growth and upon an aerobic-to-anaerobic transition. Internal cAMP levels were similar (5 to 10 pM) throughout exponential growth, whether aerobic or anaerobic, but only during anaerobiosis was threonine dehydratase synthesized. When an exponentially growing aerobic culture was made anaerobic, a sharp increase in internal cAMP was noted, reaching 300 FM within 10 min and declining thereafter to normal anaerobic levels. Threonine dehydratase synthesis was detected immediately after the attainment of peak cAMP levels and continued for several generations A similar pattern but with less accumulation of cAMP and less threonine dehydratase production was also noted upon treatment ofan aerobicaUy growing culture with KCN. Pyruvate addition at the time of anaerobic shock severely affected both cAMP accumulation and threonine dehydratase synthesis; *however, externally added cAMP could parially counter the pyruvate effect on enzyme synthesis. The conclusion was reached that conditions which resulted in a temporary energy deficit brought about the major accumulation of cAMP, and this elevated level served as a signal for initiation of teonine dehydratase synthesis to supply energy by the nonoxidative degradation of threonine.

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Mechanism of urocanase as studied by deuterium isotope effects and labeling patterns

Egan¹,

Matherly²,

Phillips³

1981

Biochemistry

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Nicotinamide adenine dinucleotide (NAD) dependent urocanase (4'-imidazolone-5'-propionate hydro-lyase, EC 4.2.1.49) from Pseudomonas putida was found to catalyze an exchange reaction between solvent and the 4'-hydrogen of urocanate or imidazolepropionate at a rate faster than that of overall deuterium was compared to unlabeled urocanate as a substrate, no isotope rate effect was noted. For examination of the possibility of an NAD+-mediated intramolecular hydride transfer of the 4'-hydrogen to a position on the side chain of oxoimidazolepropionate, the origins of hydrogen at positions 2 and 3 in the propionate chain were studied as a function of reaction time and extent of exchange of the 4'-hydrogen. No transfer of hydrogen from the 4' position to the side chain was observed, thereby eliminating mechanisms requiring hydride transfer via NADH between these positions. Catalytic rates in 1H2O vs. 2H2O revealed a 3-fold difference which was ascribed to a rate-limiting proton addition step. Similarly, a 5-fold decrease in Vmax was found for the reverse reaction when oxoimidazole[2,3-2H2]propionate was compared to unlabeled oxoimidazolepropionate. These data support a mechanism involving water addition across the conjugated double bond system of urocanate, rather than an internal oxidation--reduction process, yet NAD+ is required. A mechanism is proposed which uses electron delocalization in the imidazole nucleus, via an imidazole--NAD adduct, to facilitate water attack and subsequent formation of oxoimidazolepropionate.

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The active site of transketolase. Two arginine residues are essential for activity.

Kremer¹,

Egan²,

Sable³

1980

Journal of Biological Chemistry

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Transketolase kinetics. The slow reconstitution of the holoenzyme is due to rate-limiting dimerization of the subunits.

Egan¹,

Sable²

1981

Journal of Biological Chemistry

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R M Egan

Requirements for induction of the biodegradative threonine dehydratase in Escherichia coli

Control of biodegradative threonine dehydratase inducibility by cyclic AMP in energy-restricted Escherichia coli

Mechanism of urocanase as studied by deuterium isotope effects and labeling patterns

The active site of transketolase. Two arginine residues are essential for activity.

Transketolase kinetics. The slow reconstitution of the holoenzyme is due to rate-limiting dimerization of the subunits.

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