Finding causal links between genotype and phenotype is a major issue in biology, even more in mitochondrial biology. First of all, mitochondria form complex networks, undergoing fission and fusion and we do not know how such dynamics influence the distribution of mtDNA variants across the mitochondrial network and how they affect the phenotype. Second, the non-Mendelian inheritance of mitochondrial genes can have sex-specific effects and the mechanism of mitochondrial inheritance is still poorly understood, so it is not clear how selection and/or drift act on mtDNA genetic variation in each generation. Third, we still do not know how mtDNA expression is regulated; there is growing evidence for a convo- luted mechanism that includes RNA editing, mRNA stability/turnover, post-transcriptional and post-translational modifications. Fourth, mitochon- drial activity differs across species as a result of several interacting processes such as drift, adaptation, genotype-by-environment interactions, mitonuc- lear coevolution and epistasis. This issue will cover several aspects of mitochondrial biology along the path from genotype to phenotype, and it is subdivided into four sections focusing on mitochondrial genetic variation, on the relationship among mitochondria, germ line and sex, on the role of mitochondria in adaptation and phenotypic plasticity, and on some future perspectives in mitochondrial research. This article is part of the theme issue ‘Linking the mitochondrial genotype to phenotype: a complex endeavour’.

Ghiselli, F., Milani, L. (2020). Linking the mitochondrial genotype to phenotype: a complex endeavour. PHILOSOPHICAL TRANSACTIONS - ROYAL SOCIETY. BIOLOGICAL SCIENCES, 375(1790), 1-8 [10.1098/rstb.2019.0169].

Linking the mitochondrial genotype to phenotype: a complex endeavour

Ghiselli, Fabrizio
;
Milani, Liliana
2020

Abstract

Finding causal links between genotype and phenotype is a major issue in biology, even more in mitochondrial biology. First of all, mitochondria form complex networks, undergoing fission and fusion and we do not know how such dynamics influence the distribution of mtDNA variants across the mitochondrial network and how they affect the phenotype. Second, the non-Mendelian inheritance of mitochondrial genes can have sex-specific effects and the mechanism of mitochondrial inheritance is still poorly understood, so it is not clear how selection and/or drift act on mtDNA genetic variation in each generation. Third, we still do not know how mtDNA expression is regulated; there is growing evidence for a convo- luted mechanism that includes RNA editing, mRNA stability/turnover, post-transcriptional and post-translational modifications. Fourth, mitochon- drial activity differs across species as a result of several interacting processes such as drift, adaptation, genotype-by-environment interactions, mitonuc- lear coevolution and epistasis. This issue will cover several aspects of mitochondrial biology along the path from genotype to phenotype, and it is subdivided into four sections focusing on mitochondrial genetic variation, on the relationship among mitochondria, germ line and sex, on the role of mitochondria in adaptation and phenotypic plasticity, and on some future perspectives in mitochondrial research. This article is part of the theme issue ‘Linking the mitochondrial genotype to phenotype: a complex endeavour’.
2020
Ghiselli, F., Milani, L. (2020). Linking the mitochondrial genotype to phenotype: a complex endeavour. PHILOSOPHICAL TRANSACTIONS - ROYAL SOCIETY. BIOLOGICAL SCIENCES, 375(1790), 1-8 [10.1098/rstb.2019.0169].
Ghiselli, Fabrizio; Milani, Liliana
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/707514
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