Propionyl-CoA and adenosylcobalamin metabolism in Caenorhabditis elegans: Evidence for a role of methylmalonyl-CoA epimerase in intermediary metabolism

Chandler, Randy J.; Aswani, Vijay; Tsai, Matthew; Falk, Marni J.; Wehrli, Natasha E.; Stabler, Sally P.; Allen, Robert H.; Sedensky, Margaret M.; Kazazian, Haig H.; Venditti, Charles P.

doi:10.1016/j.ymgme.2006.06.001

Cited by 25 publications

(21 citation statements)

References 33 publications

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“…Mut and wild-type murine embryonic fibroblasts have been described[24,25] and were isolated after a timed mating between mice carrying a targeted deletion of the Mut gene.…”

Section: Methodsmentioning

confidence: 99%

“…A murine methylmalonyl-CoA mutase cDNA that contained a consensus Kozak sequence and minimal untranslated regions was isolated from C57/BL6 liver RNA after RT-PCR, sequenced and tested for enzymatic activity after expression in yeast using the succinate-thiokinase linked assay[25]. The gene was then cloned as an EcoRI fragment into the polylinker of pShuttle between the CMV promoter and the Sv40 polyadenylation signal (ViraQuest Inc., North Liberty, IA).…”

Section: Methodsmentioning

confidence: 99%

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Adenoviral-mediated correction of methylmalonyl-CoA mutase deficiency in murine fibroblasts and human hepatocytes

et al. 2007

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Background: Methylmalonic acidemia (MMA), a common organic aciduria, is caused by deficiency of the mitochondrial localized, 5'deoxyadenosylcobalamin dependent enzyme, methylmalonyl-CoA mutase (MUT). Liver transplantation in the absence of gross hepatic dysfunction provides supportive therapy and metabolic stability in severely affected patients, which invites the concept of using cell and gene delivery as future treatments for this condition.

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“…Mut and wild-type murine embryonic fibroblasts have been described[24,25] and were isolated after a timed mating between mice carrying a targeted deletion of the Mut gene.…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Adenoviral-mediated correction of methylmalonyl-CoA mutase deficiency in murine fibroblasts and human hepatocytes

et al. 2007

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“…MMCE catalyzes the conversion of (2R)-methylmalonyl-CoA to (2S)-methylmalonyl-CoA, the substrate for the B 12 -dependent methylmalonyl-CoA mutase. MMCE is widely found and essential in the breakdown of odd-chain fatty acids and branched amino acids [33][34][35]. The Propionibacteriumshermanii enzyme is activated to the greatest extent by Co 2+ , but also by Ni 2+ , Mn 2+ , and Zn 2+ , and the rat liver enzyme by Fe 2+ , Mn 2+ , and Co 2+ [36,37].…”

Section: Isomerase Family: Glyoxalase I Methylmalonyl-coa Epimerasementioning

confidence: 99%

Structural and mechanistic comparisons of the metal-binding members of the vicinal oxygen chelate (VOC) superfamily

Moran

2011

Journal of Inorganic Biochemistry

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“…In addition, we selected three genes known to encode propionyl Coenzyme A (PCCB), methylmalonyl CoA epimerase (MCEE), and methylmalonyl CoA mutase (MUT) respectively, which are involved in the essential process of conversion of propionyl-CoA to succinylCoA. A lesion at the epimerase step of methylmalonyl-CoA metabolism can cause malfunction of MCEE, which may cause methylmalonicacidemia in humans [6]. The last two candidate genes chosen in the propanoate metabolic pathway were ACSS1 and ACSS2, which are known to be highly expressed in the livers of mice to produce lipogenic enzymes that incorporate acetate into lipids [15,16].…”

Section: Selection Of Candidate Genes and Snpsmentioning

confidence: 99%

“…The regulatory mechanisms of the propanoate and fatty acid metabolic pathways have not been clarified. Reports have indicated that genes within the two essential pathways are directly involved with anabolism and catabolism, and they can therefore be speculated to have an effect on the growth of an organism [6][7][8].…”

mentioning

confidence: 99%

Associations between gene polymorphisms in two crucial metabolic pathways and growth traits in pigs

Yang

Wang

et al. 2012

Chin. Sci. Bull.

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Propanoate metabolism and fatty acid metabolism are crucial metabolic pathways in vivo that have been studied extensively and have shown a significant influence on the growth and diseases of animals. In order to identify the essential genes significantly associated with porcine growth traits at the pathway level, we selected 14 candidate genes with 58 SNPs, including 24 tag SNPs and 34 predicted SNPs, in the two essential pathways to test using the SNaPshot mini-sequencing method. Association analysis was performed using both static and dynamic phenotypic records. The results showed that four SNPs, respectively in SUCLA2, SUCLG2, ACADS, and ALDH1B1, were significantly associated with growth in pigs. In addition, an exciting finding was that the change of transcription factor binding site that resulted from alteration of the bases in SUCLG2 brought out a transcription factor binding site for POU1F1a, which is the product of a notable marker gene for growth of animals. Growth traits, including total feed intake, daily feed intake, feed conversion ratio and daily weight gain, have a direct impact on production efficiency in the swine industry. Studies on the relationship between noted growth-related genes and growth traits have attracted a great deal of attention for decades. Unfortunately, despite the fact that numerous studies have been performed, few of them have demonstrated the nature and mechanism of genetic variation that underlies the quantitative traits. The methods for studying quantitative traits should be reconsidered, because the use of only SNPs as the basic units of association analysis has shown several limitations. The functions of SNPs and genes are usually carried out through intricate pathways of reactions and interactions [1]. Therefore, studies based on the candidate pathways approach may not only provide us with the possibility to gain more extensive insight into the functional basis of association but also facilitate and unravel the detailed genetic control mechanisms of complex phenotypes. Previous study in our laboratory has shown that the propanoate and fatty acid metabolic pathways exhibit significant down-regulation under PPARα knockout conditions in the livers of mice, which was detected by the analysis of mouse PPARα dependent or independent datasets by GSEA (Gene Set Enrichment Analysis) [2]. The propanoate and fatty acid metabolic processes are crucial metabolic pathways in vivo, and may be connected with the TCA (tricarboxylic acid cycle) cycle. Metabolism of fatty acids is essential for the organism because they are a major source of energy and the structural components of membranes. In addition, a variety of fatty acids perform key biological functions such as the regulation of lipid metabolism, cell division and inflammation [3][4][5]. The metabolism of propanoate (propionic acid) begins with its conversion to propionyl coenzyme A (propionyl-CoA), which is usually the first step in the metabolism of carboxylic acids. The regulatory mechanisms of the propanoate and fatty acid met...

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Propionyl-CoA and adenosylcobalamin metabolism in Caenorhabditis elegans: Evidence for a role of methylmalonyl-CoA epimerase in intermediary metabolism

Cited by 25 publications

References 33 publications

Adenoviral-mediated correction of methylmalonyl-CoA mutase deficiency in murine fibroblasts and human hepatocytes

Adenoviral-mediated correction of methylmalonyl-CoA mutase deficiency in murine fibroblasts and human hepatocytes

Structural and mechanistic comparisons of the metal-binding members of the vicinal oxygen chelate (VOC) superfamily

Associations between gene polymorphisms in two crucial metabolic pathways and growth traits in pigs

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