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Literature DB >> 7076619

Properties of oxaloacetate decarboxylase from Veillonella parvula.

Abstract

Oxaloacetate decarboxylase was purified to 136-fold from the oral anaerobe Veillonella parvula. The purified enzyme was substantially free of contaminating enzymes or proteins. Maximum activity of the enzyme was exhibited at pH 7.0 for both carboxylation and decarboxylation. At this pH, the Km values for oxaloacetate and Mg2+ were at 0.06 and 0.17 mM, respectively, whereas the Km values for pyruvate, CO2, and Mg2+ were 3.3, 1.74, and 1.85 mM, respectively. Hyperbolic kinetics were observed with all of the aforementioned compounds. The Keq' was 2.13 X 10(-3) mM-1 favoring the decarboxylation of oxaloacetate. In the carboxylation step, avidin, acetyl coenzyme A, biotin, and coenzyme A were not required. ADP and NADH had no effect on either the carboxylation or decarboxylation step, but ATP inhibited the carboxylation step competitively and the decarboxylation step noncompetitively. These types of inhibition fitted well with the overall lactate metabolism of the non-carbohydrate-fermenting anaerobe.

Entities: Chemical Species

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Year: 1982 PMID： 7076619 PMCID： PMC216347 DOI： 10.1128/jb.150.3.1252-1258.1982

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

13 in total

1. OXALOACETATE 4-CARBOXY-LYASE FROM PSEUDOMONAS OVALIS CHESTER.

Authors: A A HORTON; H L KORNBERG
Journal: Biochim Biophys Acta Date: 1964-08-26

2. A selective medium for the isolation and enumeration of the veillonella from the oral cavity.

Authors: M ROGOSA
Journal: J Bacteriol Date: 1956-10 Impact factor: 3.490

3. The effect of inorganic salts on the ketone decomposition of oxaloacetic acid.

Authors: H A Krebs
Journal: Biochem J Date: 1942-04 Impact factor: 3.857

4. Protein measurement with the Folin phenol reagent.

Authors: O H LOWRY; N J ROSEBROUGH; A L FARR; R J RANDALL
Journal: J Biol Chem Date: 1951-11 Impact factor: 5.157

5. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding.

Authors: M M Bradford
Journal: Anal Biochem Date: 1976-05-07 Impact factor: 3.365

6. Gluconeogenesis by Veillonella parvula M4: evidence for the indirect conversion of pyruvate to P-enolpyruvate.

Authors: S K Ng; I R Hamilton
Journal: Can J Microbiol Date: 1974-01 Impact factor: 2.419

7. Novel enzymic machinery for the metabolism of oxalacetate, phosphoenolpyruvate, and pyruvate in Pseudomonas citronellolis.

Authors: R O'Brien; D T Chuang; B L Taylor; M F Utter
Journal: J Biol Chem Date: 1977-02-25 Impact factor: 5.157

8. Degradation of pyruvate by Micrococcus lactilyticus. III. Properties and cofactor requirements of the carbon dioxide-exchange reaction.

Authors: H R WHITELEY; N G McCORMICK
Journal: J Bacteriol Date: 1963-02 Impact factor: 3.490

9. Lactate metabolism by Veillonella parvula.

Authors: S K Ng; I R Hamilton
Journal: J Bacteriol Date: 1971-03 Impact factor: 3.490

10. OXALOACETATE DECARBOXYLATION AND OXALOACETATE-CARBON DIOXIDE EXCHANGE IN ACETOBACTER XYLINUM.

Authors: M BENZIMAN; N HELLER
Journal: J Bacteriol Date: 1964-12 Impact factor: 3.490

5 in total

1. The PEP-pyruvate-oxaloacetate node: variation at the heart of metabolism.

Authors: Jeroen G Koendjbiharie; Richard van Kranenburg; Servé W M Kengen
Journal: FEMS Microbiol Rev Date: 2021-05-05 Impact factor: 16.408

2. Expression, purification, crystallization and preliminary crystallographic analysis of Cg1458: a novel oxaloacetate decarboxylase from Corynebacterium glutamicum.

Authors: Tingting Ran; Yu Wang; Dongqing Xu; Weiwu Wang
Journal: Acta Crystallogr Sect F Struct Biol Cryst Commun Date: 2011-07-27