2021
DOI: 10.3390/microorganisms9102044
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Learning from Yeast about Mitochondrial Carriers

Abstract: Mitochondria are organelles that play an important role in both energetic and synthetic metabolism of eukaryotic cells. The flow of metabolites between the cytosol and mitochondrial matrix is controlled by a set of highly selective carrier proteins localised in the inner mitochondrial membrane. As defects in the transport of these molecules may affect cell metabolism, mutations in genes encoding for mitochondrial carriers are involved in numerous human diseases. Yeast Saccharomyces cerevisiae is a traditional … Show more

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Cited by 5 publications
(4 citation statements)
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References 222 publications
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“…This includes genes encoding enzymes involved in the tricarboxylic acid (TCA) cycle, such as NADP + -specific isocitrate dehydrogenase (ICDH), succinate-CoA ligase, and fumarate hydratase (RHOT145845, -7009 and -5604, respectively), or in the synthesis of cofactors of mitochondrial enzymes, such as riboflavin (RHOT149252, 2556 and 2045), lipoic acid (by lipoyl synthase, RHOT145711) and thiamine pyrophosphate (TPP, by thiamine pyrophosphokinase, RHOT149040). Lipoic acid and TPP are cofactors of pyruvate dehydrogenase and α-keto glutarate dehydrogenase [41].…”
Section: Increased Protein Turnover and Energy Metabolism In Cghh Aft...mentioning
confidence: 99%
“…This includes genes encoding enzymes involved in the tricarboxylic acid (TCA) cycle, such as NADP + -specific isocitrate dehydrogenase (ICDH), succinate-CoA ligase, and fumarate hydratase (RHOT145845, -7009 and -5604, respectively), or in the synthesis of cofactors of mitochondrial enzymes, such as riboflavin (RHOT149252, 2556 and 2045), lipoic acid (by lipoyl synthase, RHOT145711) and thiamine pyrophosphate (TPP, by thiamine pyrophosphokinase, RHOT149040). Lipoic acid and TPP are cofactors of pyruvate dehydrogenase and α-keto glutarate dehydrogenase [41].…”
Section: Increased Protein Turnover and Energy Metabolism In Cghh Aft...mentioning
confidence: 99%
“…Even the yield per cell of the expressed protein remained the same as wt yeast and the TM6* strain produced about 2–3 times more biomass, thus increasing the amount of the target protein [ 147 ]. One of the areas in which S. cerevisiae has proven to be an especially fruitful model is the area of mitochondrial research [ 154 ]. Indeed, the high similarity between yeast and human mitochondrial biogenesis and function renders S. cerevisiae an excellent model for studying human mitochondrial physiopathology [ 154 , 155 , 156 , 157 ].…”
Section: Yeasts As a System For Heterologous Expression Of Human Slc ...mentioning
confidence: 99%
“…One of the areas in which S. cerevisiae has proven to be an especially fruitful model is the area of mitochondrial research [ 154 ]. Indeed, the high similarity between yeast and human mitochondrial biogenesis and function renders S. cerevisiae an excellent model for studying human mitochondrial physiopathology [ 154 , 155 , 156 , 157 ]. Systematic approaches have been performed to optimize S. cerevisiae for recombinant membrane protein production, with the specific goal of understanding the molecular barriers to achieve high yields [ 158 ].…”
Section: Yeasts As a System For Heterologous Expression Of Human Slc ...mentioning
confidence: 99%
“…Therefore, this metabolic flexibility found in yeast depends on the specific substrates available during growth conditions. In this respect, mitochondrial carrier proteins play a key role because they transport a variety of substrates across the inner membrane of the organelles, thus connecting mitochondria with cytosolic reactions [10][11][12]. Among other 2 of 15 substrates, citrate is a key metabolic intermediate involved in several pathways and, therefore, the flux of this molecule between different cellular compartments is strictly regulated.…”
Section: Introductionmentioning
confidence: 99%