Faculty Opinions recommendation of Rapid kinetic studies of acetyl-CoA synthesis: evidence supporting the catalytic intermediacy of a paramagnetic NiFeC species in the autotrophic Wood-Ljungdahl pathway.

2002 ◽  
Author(s):  
Mark Nelson
Keyword(s):  
Kinetic Studies ◽  
Acetyl Coa ◽  
Acetyl Coa Synthesis

scholarly journals Kinetic studies on two isoforms of acetyl-CoA carboxylase from maize leaves

1996 ◽  
Vol 318 (3) ◽  
pp. 997-1006 ◽  
Author(s):  
Derek HERBERT ◽  
Lindsey J PRICE ◽  
Claude ALBAN ◽  
Laure DEHAYE ◽  
Dominique JOB ◽  
...  
Keyword(s):  
Kinetic Studies ◽  
Product Inhibition ◽  
Hill Equation ◽  
Acetyl Coa Carboxylase ◽  
Acetyl Coa ◽  
Maize Leaves ◽  
Ic50 Values ◽  
A Minor ◽  
The Hill

The steady-state kinetics of two multifunctional isoforms of acetyl-CoA carboxylase (ACCase) from maize leaves (a major isoform, ACCase1 and a minor isoform, ACCase2) have been investigated with respect to reaction mechanism, inhibition by two graminicides of the aryloxyphenoxypropionate class (quizalofop and fluazifop) and some cellular metabolites. Substrate interaction and product inhibition patterns indicated that ADP and Pi products from the first partial reaction were not released before acetyl-CoA bound to the enzymes. Product inhibition patterns did not match exactly those predicted for an ordered Ter Ter or a random Ter Ter mechanism, but were close to those postulated for an ordered mechanism. ACCase2 was about 1/2000 as sensitive as ACCase1 to quizalofop but only about 1/150 as sensitive to fluazifop. Fitting inhibition data to the Hill equation indicated that binding of quizalofop or fluazifop to ACCase1 was non-cooperative, as shown by the Hill constant (napp) values of 0.86 and 1.16 for quizalofop and fluazifop respectively. Apparent inhibition constant values (K´ from the Hill equation) for ACCase1 were 0.054 µM for quizalofop and 21.8 µM for fluazifop. On the other hand, binding of quizalofop or fluazifop to ACCase2 exhibited positive co-operativity, as shown by the napp values of 1.85 and 1.59 for quizalofop and fluazifop respectively. K´ values for ACCase2 were 1.7 mM for quizalofop and 140 mM for fluazifop. Kinetic parameters for the co-operative binding of quizalofop to maize ACCase2 were close to those of another multifunctional ACCase of limited sensitivity to graminicide, ACC220 from pea. Inhibition of ACCase1 by quizalofop was mixed-type with respect to acetyl-CoA or ATP, but the concentration of acetyl-CoA had the greater effect on the level of inhibition. Neither ACCase1 nor ACCase2 was appreciably sensitive to CoA esters of palmitic acid (16:0) or oleic acid (18:1). Approximate IC50 values were 10 µM (ACCase2) and 50 µM (ACCase1) for both CoA esters. Citrate concentrations up to 1 mM had no effect on ACCase1 activity. Above this concentration, citrate was inhibitory. ACCase2 activity was slightly stimulated by citrate over a broad concentration range (0.25–10 mM). The significance of possible effects of acyl-CoAs or citrate in vivo is discussed.

scholarly journals Antimalarial pantothenamide metabolites target acetyl-CoA synthesis inPlasmodium falciparum

2018 ◽  
Author(s):  
Joost Schalkwijk ◽  
Erik L. Allman ◽  
Patrick A.M. Jansen ◽  
Laura E. de Vries ◽  
Suzanne Jackowski ◽  
...  
Keyword(s):  
Infection Model ◽  
Acetyl Coa ◽  
Human Malaria Parasite ◽  
Block Transmission ◽  
Drug Conjugates ◽  
Novel Drugs ◽  
Pharmacokinetic Properties ◽  
Acetyl Coa Synthesis ◽  
Malaria Eradication

AbstractMalaria eradication is critically dependent on novel drugs that target resistantPlasmodiumparasites and block transmission of the disease. Here we report the discovery of potent pantothenamide bioisosteres that are active against blood-stageP. falciparumand also block onward mosquito transmission. These compounds are resistant to degradation by serum pantetheinases, show favorable pharmacokinetic properties and clear parasites in a humanized rodent infection model. Metabolomics revealed that CoA biosynthetic enzymes convert pantothenamides into drug-conjugates that interfere with parasite acetyl-CoA anabolism.In vitrogenerated resistant parasites showed mutations in acetyl-CoA synthetase and acyl-CoA synthetase 11, confirming the key roles of these enzymes in the sensitivity to pantothenamides. These new pantothenamides provide a promising class of antimalarial drugs with a unique mode of action.One sentence summaryPantothenamides form antimetabolites that interfere with acetyl-CoA metabolism in the human malaria parasitePlasmodium falciparum

scholarly journals Butyrate metabolism upstream and downstream acetyl-CoA synthesis and growth control of human colon carcinoma cells

2000 ◽  
Vol 267 (21) ◽  
pp. 6435-6442 ◽  
Author(s):  
Xavier Leschelle ◽  
Serge Delpal ◽  
Marc Goubern ◽  
Hervé M Blottière ◽  
François Blachier
Keyword(s):  
Colon Carcinoma ◽  
Growth Control ◽  
Human Colon ◽  
Carcinoma Cells ◽  
Acetyl Coa ◽  
Colon Carcinoma Cells ◽  
Human Colon Carcinoma ◽  
Acetyl Coa Synthesis

The Regulation of Acetyl Coenzyme A Synthesis in Chloroplasts

1985 ◽  
Vol 40 (7-8) ◽  
pp. 496-502 ◽  
Author(s):  
Hans-Jürgen Treede ◽  
Klaus-Peter Heise
Keyword(s):  
Pyruvate Dehydrogenase Complex ◽  
Acetyl Coa ◽  
Ph Optimum ◽  
Spinach Chloroplasts ◽  
Branched Chain Amino Acid ◽  
Pea Seedlings ◽  
Low Concentrations ◽  
Acetyl Coa Synthesis ◽  
High Concentrations ◽  
Branched Chain

Abstract The enzymatic activities of the pyruvate dehydrogenase complex (PDC) and acetyl-CoA synthetase (ACS) have been compared in extracts of plastids isolated from spinach leaves and from both green and etiolated pea seedlings. A ll plastid preparations were shown to be capable of synthesizing acetyl-CoA, not only via acetyl-CoA synthetase, but also via the pyruvate dehydroge­ nase complex, though, with different activities. Both pathways are apparently under metabolic control. Thus, the substrate levels in photosynthetically active spinach chloroplasts appear to favor acetyl-CoA synthesis via ACS (apparent Km for acetate of 0.1 mм) , because calculated stromal pyruvate levels (0.1 m M) appear to limit its formation via the PDC (apparent Km for pyruvate of 0.2-0.3 nм) . In spinach chloroplasts, therefore, the PDC pathway seems to be predominantly involved in providing precursors for branched-chain amino acid biosynthesis (vali­ne, leucine and isoleucine). Acetyl-CoA, synthesized via ACS, may additionally function as an inhibitor of the chloroplast PD C , because, as in mitochondria, relatively low concentrations of the end products NADH and acetyl-CoA strongly inhibit the PD C in chloroplast extracts. On the other hand, comparatively high concentrations of MgATP, a cofactor for ACS, inhibited the PDC complex. The pH optimum of about 8 and the high Mg-requirement distinguishes both enzymes from mitochondrial PDC and reflects an accomodation to stromal conditions in photosynthetically active chloroplasts.

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