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Literature DB >> 10085236

ATPase activity associated with the magnesium-protoporphyrin IX chelatase enzyme of Synechocystis PCC6803: evidence for ATP hydrolysis during Mg2+ insertion, and the MgATP-dependent interaction of the ChlI and ChlD subunits.

Abstract

Insertion of Mg2+ into protoporphyrin IX catalysed by the three-subunit enzyme magnesium-protoporphyrin IX chelatase (Mg chelatase) is thought to be a two-step reaction, consisting of activation followed by Mg2+ chelation. The activation step requires ATP and two of the subunits, ChlI and ChlD (I and D respectively), and it has been speculated that this step results in the formation of an I-D-ATP complex. The subsequent step, in which Mg2+ is inserted into protoporphyrin, also requires ATP and the third subunit, H, in addition to ATP-activated I-D complex. In the present study, we examine the interaction of the I and D subunits of the Mg chelatase from the cyanobacterium Synechocystis PCC 6803. We demonstrate the purification of an I-D complex, and show that ATP and Mg2+ are absolute requirements for the formation of this complex, probably as MgATP. However, ATP may be replaced by the slowly hydrolysable analogue, adenosine 5'-[gamma-thio]triphosphate, and, to a minor extent, by ADP and the non-hydrolysable ATP analogue, adenosine 5'-[beta,gamma-imido]triphosphate, all of which suggests that ATP hydrolysis is not necessary for the formation of the ChlI-ChlD complex. A sensitive continuous assay was used to detect ATPase activity during Mg2+ chelation, and it was found that the maximum rate of ATP hydrolysis coincided with the maximum rate of Mg2+ insertion. The rate of ATP hydrolysis depended on factors that determined the rate of Mg2+ chelation, such as increasing the concentration of the H subunit and the concentration of protoporphyrin. Thus ATP hydrolysis has been identified as an absolute requirement for the chelation step. The I subunit possessed strong ATPase activity when assayed on its own, whereas the D subunit had no detectable activity, and when the I and D subunits were assayed in combination, the ATPase activity of the I subunit was repressed.

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Year: 1999 PMID： 10085236 PMCID： PMC1220136

Source DB: PubMed Journal: Biochem J ISSN： 0264-6021 Impact factor: 3.857

21 in total

1. Magnesium chelatase: association with ribosomes and mutant complementation studies identify barley subunit Xantha-G as a functional counterpart of Rhodobacter subunit BchD.

Authors: C G Kannangara; U C Vothknecht; M Hansson; D von Wettstein
Journal: Mol Gen Genet Date: 1997-03-18

2. Mg-chelatase of tobacco: identification of a Chl D cDNA sequence encoding a third subunit, analysis of the interaction of the three subunits with the yeast two-hybrid system, and reconstitution of the enzyme activity by co-expression of recombinant CHL D, CHL H and CHL I.

Authors: J Papenbrock; S Gräfe; E Kruse; F Hänel; B Grimm
Journal: Plant J Date: 1997-11 Impact factor: 6.417

3. Expression of the chlI, chlD, and chlH genes from the Cyanobacterium synechocystis PCC6803 in Escherichia coli and demonstration that the three cognate proteins are required for magnesium-protoporphyrin chelatase activity.

Authors: P E Jensen; L C Gibson; K W Henningsen; C N Hunter
Journal: J Biol Chem Date: 1996-07-12 Impact factor: 5.157

4. Determinants of catalytic activity with the use of purified I, D and H subunits of the magnesium protoporphyrin IX chelatase from Synechocystis PCC6803.

Authors: P E Jensen; L C Gibson; C N Hunter
Journal: Biochem J Date: 1998-09-01 Impact factor: 3.857

5. Magnesium chelatase from Rhodobacter sphaeroides: initial characterization of the enzyme using purified subunits and evidence for a BchI-BchD complex.

Authors: L C Gibson; P E Jensen; C N Hunter
Journal: Biochem J Date: 1999-01-15 Impact factor: 3.857

6. Magnesium-protoporphyrin chelatase of Rhodobacter sphaeroides: reconstitution of activity by combining the products of the bchH, -I, and -D genes expressed in Escherichia coli.

Authors: L C Gibson; R D Willows; C G Kannangara; D von Wettstein; C N Hunter
Journal: Proc Natl Acad Sci U S A Date: 1995-03-14 Impact factor: 11.205

7. A continuous spectrophotometric assay for inorganic phosphate and for measuring phosphate release kinetics in biological systems.

Authors: M R Webb
Journal: Proc Natl Acad Sci U S A Date: 1992-06-01 Impact factor: 11.205

8. The effect of N-methylprotoporphyrin IX on the synthesis of photosynthetic pigments in Cyanidium caldarium. Further evidence for the role of haem in the biosynthesis of plant billins.

Authors: S B Brown; J A Holroyd; D I Vernon; R F Troxler; K M Smith
Journal: Biochem J Date: 1982-11-15 Impact factor: 3.857

9. Bovine ferrochelatase. Kinetic analysis of inhibition by N-methylprotoporphyrin, manganese, and heme.

Authors: H A Dailey; J E Fleming
Journal: J Biol Chem Date: 1983-10-10 Impact factor: 5.157

10. Distantly related sequences in the alpha- and beta-subunits of ATP synthase, myosin, kinases and other ATP-requiring enzymes and a common nucleotide binding fold.

Authors: J E Walker; M Saraste; M J Runswick; N J Gay
Journal: EMBO J Date: 1982 Impact factor: 11.598

31 in total

1. Three semidominant barley mutants with single amino acid substitutions in the smallest magnesium chelatase subunit form defective AAA+ hexamers.

Authors: A Hansson; R D Willows; T H Roberts; M Hansson
Journal: Proc Natl Acad Sci U S A Date: 2002-09-30 Impact factor: 11.205

2. The chlorophyll-deficient golden leaf mutation in cucumber is due to a single nucleotide substitution in CsChlI for magnesium chelatase I subunit.

Authors: Meiling Gao; Liangliang Hu; Yuhong Li; Yiqun Weng
Journal: Theor Appl Genet Date: 2016-07-19 Impact factor: 5.699

3. Mutational analysis of three bchH paralogs in (bacterio-)chlorophyll biosynthesis in Chlorobaculum tepidum.

Authors: Aline Gomez Maqueo Chew; Niels-Ulrik Frigaard; Donald A Bryant
Journal: Photosynth Res Date: 2009-07-01 Impact factor: 3.573

4. Chlorophyll biosynthesis. Expression of a second chl I gene of magnesium chelatase in Arabidopsis supports only limited chlorophyll synthesis.

Authors: Heather M Rissler; Eva Collakova; Dean DellaPenna; James Whelan; Barry J Pogson
Journal: Plant Physiol Date: 2002-02 Impact factor: 8.340

5. Catalytic turnover triggers exchange of subunits of the magnesium chelatase AAA+ motor unit.

Authors: Joakim Lundqvist; Ilka Braumann; Marzena Kurowska; André H Müller; Mats Hansson
Journal: J Biol Chem Date: 2013-07-08 Impact factor: 5.157

6. ATPase activity associated with the magnesium chelatase H-subunit of the chlorophyll biosynthetic pathway is an artefact.

Authors: Nick Sirijovski; Ulf Olsson; Joakim Lundqvist; Salam Al-Karadaghi; Robert D Willows; Mats Hansson
Journal: Biochem J Date: 2006-12-15 Impact factor: 3.857