ZIB

1

Electronic Resource

Bromopyruvate inactivation of 2-keto-3-deoxy-6-phosphogalactonate aldolase of Pseudomonas saccharophila. Kinetics and stereochemistry (1975)

Meloche, H. Paul ; Monti, Claire T.

s.l. : American Chemical Society

Biochemistry 14 (1975), S. 3682-3687

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00687a026

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2

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Isolation and properties of the principal liver protein conjugate of a hepatic carcinogen (1974)

Sorof, Sam ; Sani, Brahma P. ; Kish, Valerie M. ; [et al.]

s.l. : American Chemical Society

Biochemistry 13 (1974), S. 2612-2620

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00709a022

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3

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Bromopyruvate Inactivation of 2-Keto-3-deoxy-6-phosphogluconic Aldolase. I. Kinetic Evidence for Active Site Specificity* (1967)

Meloche, H. Paul

s.l. : American Chemical Society

Biochemistry 6 (1967), S. 2273-2280

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00860a002

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4

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Reaction of the substrate analog bromopyruvate with two active-site conformers of 2-keto-3-deoxy-6 phosphogluconic aldolase (1970)

Meloche, H. Paul

s.l. : American Chemical Society

Biochemistry 9 (1970), S. 5050-5055

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00828a002

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5

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On the interaction of 2-keto-3-deoxygalactonate-6P with 2-keto-3-deoxygluconate-6P aldolase ofPseudomonas putida. Evidence for enzyme-mediated, noncatalytic C-C bond turnover (1983)

Meloche, H. Paul ; O'Connell, Edward L.

Springer

The protein journal 2 (1983), S. 399-410

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ISSN: 1573-4943

Keywords: mechanism ; aldolases ; stereochemical control ; Schiff's base catalysis

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract 2-Keto-3-deoxygluconate-6P (KDPG) aldolase ofPseudomonas putida mediates the cleavage of, as well as the condensation of, pyruvate andd-glyceraldehyde-3P (GaP) yielding, 2-keto-3-deoxygalactonate-6P (KDPGal) as side reactions of normal catalysis. These are visualized at high levels of aldolase. KDPGal cleavage occurs with aV max that is 1/5000 that for KDPG cleavage. TheKm for KDPGal is 0.2 mM, with aK i of 0.85 mM. The E-KDPGal complex is reductively inactivated having aKd of 0.55 mM. TheV/K value for KDPG cleavage is 2.0×108 sec−1, while the value for KDPGal cleavage is 1220 sec−1. The difference in first-order rate constants of 164,000-fold argues that a step in the cleavage of KDPGal mediated by the enzyme is uncatalyzed. The enzyme is reductively inactivated by trapping the E-pyruvate, E-KDPG, or E-KDPGal complex. The enzyme can also be inactivated by reductive trapping of a catalytically nonproductive E-glyceraldehyde-3P complex. This latter occurs with aKd for GaP of 20 mM and a rate constant equivalent to a limiting half-time of 1110 sec at 1 mM cyanoborohydride. Reductive inactivation half-times in the presence of high GaP/KDPG ratios were the sum of both E-GaP and E-KDPG trapping by cyanoborohydride so that the inactivation rate due to KDPG could be determined. It was found at 1 mM cyanoborohydride that the limiting half-time for the E-KDPG complex was 2382 sec. The corresponding value for the E-KDPGal complex was 215 sec. Consequently, the E-KDPGal complex is 11 times more sensitive to reductive derivativation than is the E-KDPG complex. This is interpreted to show that the enzyme binds the KDPGal in a “normal” step forming a ketimine. However, turnover to the eneamine with resultant C-C bond cleavage is uncatalyzed. For the case of KDPGal synthesized by KDPG aldolase, it is argued that the pyruvate eneamine is bound to the active site, which can be attacked by GaP with its aldehyde carbon in the catalytically nonproductive conformation as a side reaction, presumably forming a tertiary complex. Spontaneous protonation of the resultant alcoholate anion would generate KDPGal. The data are interpreted to support an argument that catalytic proton turnover at the OH of C-4 of KDPG is required for normal catalysis, and that this step, which catalytically interconverts ketimine/eneamine, imposes steric constraints controlling the overall stereochemistry of the reaction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01025238

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6

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On the interaction of tritiated 2-ketobutyrate with 2-keto-3-deoxygluconate-6P aldolase ofPseudomonas putida. Evidence suggesting enzyme-mediated, uncatalyzed tritium exchange (1983)

Meloche, H. Paul ; Parekh, Barbara A. ; O'Connell, Edward

Springer

The protein journal 2 (1983), S. 411-423

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ISSN: 1573-4943

Keywords: mechanism ; aldolases ; stereochemical control ; Schiff's base controls

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract 2-Keto-3-deoxygluconate-6P aldolase ofPseudomonas putida mediates exchange between hydrogen isotope at the methylene carbon of 2-ketobutyrate and water. This occurs with aK m of 20 mM, 100 times the corresponding value for pyruvate, and a Vmax approximating 1/710 that of KDPG cleavage. Ketobutyrate is competitive with both pyruvate and 2-keto-3-deoxygluconate-6P for the enzyme. In addition, there is no evidence for C-C synthesis between ketobutyrate andd-glyceraldehyde-3P. A comparison of relativeV/K values for hydrogen exchange shows pyruvate to be 17,600 times better as a substrate than ketobutyrate. The detritiation of [3-3H]ketobutyrate is stereochemically random. In addition, the reaction proceeds with ak H/k T isotope effect of 15.3, consistent with C-H bond turnover being rate-determining. The E-ketobutyrate complex is reductively trapped, inactivating the enzyme. Reductive inactivation kinetics of E-ketobutyrate compared to E-pyruvate suggests more of the complex may be partitioned to ketimine in the ketobutyrate case than in the pyruvate case. A mechanism is considered in which ketobutyrate is bound as a ketimine in an orientation such that the active site acid/basic group cannot mediate catalytic ketimine/eneamine interconversion. Thus, exchange would result from hydrogen ionization at C-3′ of the ketimine, a slow spontaneous step compared to overall complex turnover. This noncatalyzed deprotonation would explain dissymmetry in exchange, the poorV/K compared to pyruvate, and a large tritium isotope effect.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01025239

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7

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The interaction of bromopyruvate with the active site of 2-keto-3-deoxygluconate-6-phosphate aldolase ofPseudomonas saccharophila: Kinetics and stereochemistry (1983)

Meloche, H. Paul ; Monti, Claire T. ; Sparks, Guy R. ; [et al.]

Springer

The protein journal 2 (1983), S. 187-193

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ISSN: 1573-4943

Keywords: aldolase mechanism ; stereochemistry ; affinity labeling

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The interaction of bromopyruvate with the active site of 2-keto-3-deoxygluconate-6-P aldolase ofPseudomonas saccharophila was investigated. The reagent inactivates the enzyme, exhibiting saturation kinetics and competition with pyruvate. The minimal inactivation half-time was 6 min, equivalent to a first-order rate constant of 0.115 min−1. The concentration of bromopyruvate giving the half-maximal inactivation rateK inact was 50 mM. TheK s value of pyruvate as a competitive inhibitor was 0.85 mM. The enzyme asymmetrically detritiates (3RS)-[3− 3H 2 ]bromopyruvate, forming, in water, (3S)-[3-3H,H]bromopyruvate. This stereochemistry is also exhibited by 2-keto-6-deoxygalactonate-6-P aldolase isolated from the same organism as well as the 2-keto-3-deoxygluconate-5-P aldolase ofP. putida. Over a range of [3-3H]bromopyruvate concentrations affecting the inactivation rate, the ratio of nanomoles reagent catalytically turned over per unit of enzyme inactivated remained constant at 14:1, providing evidence that both catalysis and alkylation occur at the same protein site.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01025353

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