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Literature DB >> 202212

Active transport of oxalate by Pseudomonas oxalaticus OX1.

L Dijkhuizen, L Groen, W Harder, W N Konings.

Abstract

Membrane vesicles isolated from oxalate-grown cells of Pseudomonas oxalaticus accumulated oxalate by an inducible transport system in unmodified form against a concentration gradient. This accumulation was dependent on the presence of a suitable electron donor system such as ascorbate-phenazine-methosulphate. In the presence of this energy source, steady state levels of accumulation of oxalate were 10--20-fold higher than in its absence. The oxalate transport system involved showed a high affinity for oxalate (Km = 11 micron) and was highly specific. Oxalate transport was not affected by the presence of other dicarboxylic acids, such as malate, succinate and fumarate and only partly inhibited by acetate. The energy requirement for oxalate transport is discussed and it is concluded that this requirement is most likely equivalent to 1 mole of ATP per mole of oxalate.

Entities: Chemical Species

Mesh：

Substances：

Year: 1977 PMID： 202212 DOI： 10.1007/bf00406378

Source DB: PubMed Journal: Arch Microbiol ISSN： 0302-8933 Impact factor: 2.552

20 in total

1. L-serine transport in membrane vesicles of Bacillus subtilis energized by NADH or reduced phenazine methosulfate.

Authors: W N. Konings; E Freese
Journal: FEBS Lett Date: 1971-04-12 Impact factor: 4.124

2. The electrochemical proton gradient in Escherichia coli membrane vesicles.

Authors: S Ramos; H R Kaback
Journal: Biochemistry Date: 1977-03-08 Impact factor: 3.162

3. Electric charge stoicheiometry of calcium translocation in rat liver mitochondria.

Authors: J Moyle; P Mitchell
Journal: FEBS Lett Date: 1977-02-01 Impact factor: 4.124

4. Stoichiometric relationship between energy-dependent proton ejection and electron transport in mitochondria.

Authors: M D Brand; B Reynafarje; A L Lehninger
Journal: Proc Natl Acad Sci U S A Date: 1976-02 Impact factor: 11.205

Review 5. Vectorial chemistry and the molecular mechanics of chemiosmotic coupling: power transmission by proticity.

Authors: P Mitchell
Journal: Biochem Soc Trans Date: 1976 Impact factor: 5.407

6. Generation of an electrochemical proton gradient by nitrate respiration in membrane vesicles from anaerobically grown Escherichia coli.

Authors: J Boonstra; W N Konings
Journal: Eur J Biochem Date: 1977-09

7. Ubiquinone-mediated coupling of NADH dehydrogenase to active transport in membrane vesicles from Escherichia coli.

Authors: P Stroobant; H R Kaback
Journal: Proc Natl Acad Sci U S A Date: 1975-10 Impact factor: 11.205

8. The proton electrochemical gradient in Escherichia coli cells.

Authors: E Padan; D Zilberstein; H Rottenberg
Journal: Eur J Biochem Date: 1976-04-01

9. The electrochemical gradient of protons and its relationship to active transport in Escherichia coli membrane vesicles.

Authors: S Ramos; S Schuldiner; H R Kaback
Journal: Proc Natl Acad Sci U S A Date: 1976-06 Impact factor: 11.205

10. Laboratory fermenter with an improved magnetic drive.

Authors: W Harder; K Visser; J G Kuenen
Journal: Lab Pract Date: 1974-11

5 in total

1. Growth yields and the efficiency of oxidative phosphorylation during autotrophic growth of Paracoccus denitrificans on methanol and formate.

Authors: H W van Verseveld; A H Stouthamer
Journal: Arch Microbiol Date: 1978-07 Impact factor: 2.552