Malonyl-coa

Cross Reference

There are no associated biomedical information in the current reference collection.

Current reference collection contains 3249 references associated with Malonyl-coa in LipidPedia. Due to lack of full text of references or no associated biomedical terms are recognized in our current text-mining method, we cannot extract any biomedical terms related to diseases, pathways, locations, functions, genes, lipids, and animal models from the associated reference collection.

Users can download the reference list at the bottom of this page and read the reference manually to find out biomedical information.

Here are additional resources we collected from PubChem and MeSH for Malonyl-coa

Possible diseases from mapped MeSH terms on references

We collected disease MeSH terms mapped to the references associated with Malonyl-coa

MeSH term MeSH ID Detail
Placental Insufficiency D010927 6 associated lipids
Cytomegalovirus Infections D003586 7 associated lipids
Cleft Lip D002971 8 associated lipids
Myocardial Stunning D017682 10 associated lipids
Hypoglycemia D007003 13 associated lipids
Mitochondrial Myopathies D017240 13 associated lipids
Ketosis D007662 13 associated lipids
Angina Pectoris D000787 27 associated lipids
Hyperinsulinism D006946 27 associated lipids
Hypothyroidism D007037 32 associated lipids
Per page 10 20 | Total 20

PubChem Biomolecular Interactions and Pathways

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All references with Malonyl-coa

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Per page 10 20 50 100 | Total 927
Authors Title Published Journal PubMed Link
Revill WP et al. Purification of a malonyltransferase from Streptomyces coelicolor A3(2) and analysis of its genetic determinant. 1995 J. Bacteriol. pmid:7608065
Morishima N and Ikai A Active site organization of bacterial type I fatty acid synthetase. 1987 J. Biochem. pmid:3448090
Watanabe K et al. Fatty acid synthesis of an eicosapentaenoic acid-producing bacterium: de novo synthesis, chain elongation, and desaturation systems. 1997 J. Biochem. pmid:9378728
Kikuchi S and Kusaka T Purification of NADPH-dependent enoyl-CoA reductase involved in the malonyl-CoA dependent fatty acid elongation system of Mycobacterium smegmatis. 1984 J. Biochem. pmid:6501266
Ohashi K et al. Assay of fatty acid synthetase by mass fragmentography using [13C]malonyl-CoA. 1985 J. Biochem. pmid:4019438
Saito K et al. Steric course of deuterium incorporation from [2-2H2]malonyl-CoA into fatty acids by fatty acid synthetases. 1981 J. Biochem. pmid:7037760
Arai K et al. Propionyl-Coa induced synthesis of even-chain-length fatty acids by fatty acid synthetase from Brevibacterium ammoniagenes. 1982 J. Biochem. pmid:7068555
Kikuchi S and Kusaka T New malonyl-CoA-dependent fatty acid elongation system in Mycobacterium smegmatis. 1982 J. Biochem. pmid:7142122
Kawaguchi A et al. Substrate control of termination of fatty acid biosynthesis by fatty acid synthetase from Brevibacterium ammoniagenes. 1980 J. Biochem. pmid:7419496
Bortolami S et al. Long chain fatty acyl-CoA modulation of H(2)O (2) release at mitochondrial complex I. 2008 J. Bioenerg. Biomembr. pmid:18214656
McGarry JD et al. Hepatic malonyl-CoA levels of fed, fasted and diabetic rats as measured using a simple radioisotopic assay. 1978 J. Biol. Chem. pmid:711752
Li S et al. Molecular analysis of the role of tyrosine 224 in the active site of Streptomyces coelicolor RppA, a bacterial type III polyketide synthase. 2007 J. Biol. Chem. pmid:17331946
Campbell FM et al. A role for peroxisome proliferator-activated receptor alpha (PPARalpha ) in the control of cardiac malonyl-CoA levels: reduced fatty acid oxidation rates and increased glucose oxidation rates in the hearts of mice lacking PPARalpha are associated with higher concentrations of malonyl-CoA and reduced expression of malonyl-CoA decarboxylase. 2002 J. Biol. Chem. pmid:11734553
Fiol CJ and Bieber LL Sigmoid kinetics of purified beef heart mitochondrial carnitine palmitoyltransferase. Effect of pH and malonyl-CoA. 1984 J. Biol. Chem. pmid:6490647
Brown NF et al. Expression of a cDNA for rat liver carnitine palmitoyltransferase I in yeast establishes that catalytic activity and malonyl-CoA sensitivity reside in a single polypeptide. 1994 J. Biol. Chem. pmid:7929364
Mizuarai S et al. Identification of dicarboxylate carrier Slc25a10 as malate transporter in de novo fatty acid synthesis. 2005 J. Biol. Chem. pmid:16027120
Boren J et al. The stable isotope-based dynamic metabolic profile of butyrate-induced HT29 cell differentiation. 2003 J. Biol. Chem. pmid:12750369
Napal L et al. A single amino acid change (substitution of the conserved Glu-590 with alanine) in the C-terminal domain of rat liver carnitine palmitoyltransferase I increases its malonyl-CoA sensitivity close to that observed with the muscle isoform of the enzyme. 2003 J. Biol. Chem. pmid:12826662
Moon YA et al. Identification of a mammalian long chain fatty acyl elongase regulated by sterol regulatory element-binding proteins. 2001 J. Biol. Chem. pmid:11567032
McGarry JD et al. The role of malonyl-coa in the coordination of fatty acid synthesis and oxidation in isolated rat hepatocytes. 1978 J. Biol. Chem. pmid:711753