Mitochondrial inheritance in basidiomycete fungi
The mitochondrion is a vital organelle in eukaryotic cells. Unlike the inheritance of nuclear genes, that of mitochondrial DNA (mtDNA) does not follow Mendelian Laws. In the great majority of sexual plants and animals, mtDNA is uniparentally inherited from the maternal parent. However, there is a di...
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| Published in | Fungal biology reviews Vol. 29; no. 3-4; pp. 209 - 219 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.12.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1749-4613 1878-0253 |
| DOI | 10.1016/j.fbr.2015.02.001 |
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| Abstract | The mitochondrion is a vital organelle in eukaryotic cells. Unlike the inheritance of nuclear genes, that of mitochondrial DNA (mtDNA) does not follow Mendelian Laws. In the great majority of sexual plants and animals, mtDNA is uniparentally inherited from the maternal parent. However, there is a diversity of mtDNA inheritance patterns in basidiomycete fungi. In this commemorative review of mtDNA inheritance in basidiomycetes, we first summarize Dr. Lorna Casselton's pioneering contributions to the subject using Coprinopsis cinerea as a model organism. Using her findings as a benchmark, we then describe other mtDNA inheritance patterns found in basidiomycete fungi, both in laboratory crosses and in natural populations. We review recent research on the genes, molecular mechanisms, and environmental factors that impact mtDNA inheritance in basidiomycete fungi. The patterns and mechanisms of mitochondrial inheritance are compared between unicellular and filamentous basidiomycetes, and among basidiomycetes, ascomycetes and representatives from other groups of eukaryotes. Our analyses suggest that basidiomycetes can be excellent models for understanding the molecular, cellular, and evolutionary mechanisms governing mtDNA inheritance in eukaryotes.
•Dr. Casselton made pioneering contributions to mtDNA inheritance research.•Basidiomycete fungi show a diversity of mtDNA inheritance patterns.•Signatures of mtDNA recombination in nature is commonly observed in basidiomycetes.•Basidiomycetes can help understand mtDNA inheritance in other eukaryotes. |
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| AbstractList | The mitochondrion is a vital organelle in eukaryotic cells. Unlike the inheritance of nuclear genes, that of mitochondrial DNA (mtDNA) does not follow Mendelian Laws. In the great majority of sexual plants and animals, mtDNA is uniparentally inherited from the maternal parent. However, there is a diversity of mtDNA inheritance patterns in basidiomycete fungi. In this commemorative review of mtDNA inheritance in basidiomycetes, we first summarize Dr. Lorna Casselton's pioneering contributions to the subject using Coprinopsis cinerea as a model organism. Using her findings as a benchmark, we then describe other mtDNA inheritance patterns found in basidiomycete fungi, both in laboratory crosses and in natural populations. We review recent research on the genes, molecular mechanisms, and environmental factors that impact mtDNA inheritance in basidiomycete fungi. The patterns and mechanisms of mitochondrial inheritance are compared between unicellular and filamentous basidiomycetes, and among basidiomycetes, ascomycetes and representatives from other groups of eukaryotes. Our analyses suggest that basidiomycetes can be excellent models for understanding the molecular, cellular, and evolutionary mechanisms governing mtDNA inheritance in eukaryotes. The mitochondrion is a vital organelle in eukaryotic cells. Unlike the inheritance of nuclear genes, that of mitochondrial DNA (mtDNA) does not follow Mendelian Laws. In the great majority of sexual plants and animals, mtDNA is uniparentally inherited from the maternal parent. However, there is a diversity of mtDNA inheritance patterns in basidiomycete fungi. In this commemorative review of mtDNA inheritance in basidiomycetes, we first summarize Dr. Lorna Casselton's pioneering contributions to the subject using Coprinopsis cinerea as a model organism. Using her findings as a benchmark, we then describe other mtDNA inheritance patterns found in basidiomycete fungi, both in laboratory crosses and in natural populations. We review recent research on the genes, molecular mechanisms, and environmental factors that impact mtDNA inheritance in basidiomycete fungi. The patterns and mechanisms of mitochondrial inheritance are compared between unicellular and filamentous basidiomycetes, and among basidiomycetes, ascomycetes and representatives from other groups of eukaryotes. Our analyses suggest that basidiomycetes can be excellent models for understanding the molecular, cellular, and evolutionary mechanisms governing mtDNA inheritance in eukaryotes. •Dr. Casselton made pioneering contributions to mtDNA inheritance research.•Basidiomycete fungi show a diversity of mtDNA inheritance patterns.•Signatures of mtDNA recombination in nature is commonly observed in basidiomycetes.•Basidiomycetes can help understand mtDNA inheritance in other eukaryotes. |
| Author | Xu, Jianping Wang, Pengfei |
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| Keywords | Heteroplasmy Anisogamy mtDNA mosaics mtDNA recombination Mating type genes Isogamy Unilateral nuclear migration Bilateral nuclear migration |
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| SubjectTerms | animals Anisogamy Bilateral nuclear migration Coprinopsis cinerea crossing cytoplasmic inheritance environmental factors eukaryotic cells fungi genes Heteroplasmy Isogamy Mating type genes mitochondria mitochondrial DNA mtDNA mosaics mtDNA recombination plants (botany) Unilateral nuclear migration |
| Title | Mitochondrial inheritance in basidiomycete fungi |
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