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Selection of Rodent Species Appropriate for mtDNA Transfer to Generate Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects
Previous reports have shown that transmitochondrial mito-mice with nuclear DNA from Mus musculus and mtDNA from M. spretus do not express respiration defects, whereas those with mtDNA from Rattus norvegicus cannot be generated from ES cybrids with mtDNA from R. norvegicus due to inducing significant...
| Autores principales: | , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
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Japanese Association for Laboratory Animal Science
2014
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4160931/ https://www.ncbi.nlm.nih.gov/pubmed/24521860 http://dx.doi.org/10.1538/expanim..21 |
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| author | Enoki, Shunkei Shimizu, Akinori Hayashi, Chisato Imanishi, Hirotake Hashizume, Osamu Mekada, Kazuyuki Suzuki, Hitoshi Hashimoto, Tetsuo Nakada, Kazuto Hayashi, Jun-Ichi |
| author_facet | Enoki, Shunkei Shimizu, Akinori Hayashi, Chisato Imanishi, Hirotake Hashizume, Osamu Mekada, Kazuyuki Suzuki, Hitoshi Hashimoto, Tetsuo Nakada, Kazuto Hayashi, Jun-Ichi |
| author_sort | Enoki, Shunkei |
| collection | PubMed |
| description | Previous reports have shown that transmitochondrial mito-mice with nuclear DNA from Mus musculus and mtDNA from M. spretus do not express respiration defects, whereas those with mtDNA from Rattus norvegicus cannot be generated from ES cybrids with mtDNA from R. norvegicus due to inducing significant respiration defects and resultant losing multipotency. Here, we isolated transmitochondrial cybrids with mtDNA from various rodent species classified between M. spretus and R. norvegicus, and compared the O(2) consumption rates. The results showed a strong negative correlation between phylogenetic distance and reduction of O(2) consumption rates, which would be due to the coevolution of nuclear and mitochondrial genomes and the resultant incompatibility between the nuclear genome from M. musculus and the mitochondrial genome from the other rodent species. These observations suggested that M. caroli was an appropriate mtDNA donor to generate transmitochondrial mito-mice with nuclear DNA from M. musculus. Then, we generated ES cybrids with M. caroli mtDNA, and found that these ES cybrids expressed respiration defects without losing multipotency and can be used to generate transmitochondrial mito-mice expressing mitochondrial disorders. |
| format | Online Article Text |
| id | pubmed-4160931 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2014 |
| publisher | Japanese Association for Laboratory Animal Science |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-41609312014-10-21 Selection of Rodent Species Appropriate for mtDNA Transfer to Generate Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects Enoki, Shunkei Shimizu, Akinori Hayashi, Chisato Imanishi, Hirotake Hashizume, Osamu Mekada, Kazuyuki Suzuki, Hitoshi Hashimoto, Tetsuo Nakada, Kazuto Hayashi, Jun-Ichi Exp Anim Original Previous reports have shown that transmitochondrial mito-mice with nuclear DNA from Mus musculus and mtDNA from M. spretus do not express respiration defects, whereas those with mtDNA from Rattus norvegicus cannot be generated from ES cybrids with mtDNA from R. norvegicus due to inducing significant respiration defects and resultant losing multipotency. Here, we isolated transmitochondrial cybrids with mtDNA from various rodent species classified between M. spretus and R. norvegicus, and compared the O(2) consumption rates. The results showed a strong negative correlation between phylogenetic distance and reduction of O(2) consumption rates, which would be due to the coevolution of nuclear and mitochondrial genomes and the resultant incompatibility between the nuclear genome from M. musculus and the mitochondrial genome from the other rodent species. These observations suggested that M. caroli was an appropriate mtDNA donor to generate transmitochondrial mito-mice with nuclear DNA from M. musculus. Then, we generated ES cybrids with M. caroli mtDNA, and found that these ES cybrids expressed respiration defects without losing multipotency and can be used to generate transmitochondrial mito-mice expressing mitochondrial disorders. Japanese Association for Laboratory Animal Science 2014-02-07 2014 /pmc/articles/PMC4160931/ /pubmed/24521860 http://dx.doi.org/10.1538/expanim..21 Text en ©2014 Japanese Association for Laboratory Animal Science http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives (by-nc-nd) License. |
| spellingShingle | Original Enoki, Shunkei Shimizu, Akinori Hayashi, Chisato Imanishi, Hirotake Hashizume, Osamu Mekada, Kazuyuki Suzuki, Hitoshi Hashimoto, Tetsuo Nakada, Kazuto Hayashi, Jun-Ichi Selection of Rodent Species Appropriate for mtDNA Transfer to Generate Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title | Selection of Rodent Species Appropriate for mtDNA Transfer to Generate
Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title_full | Selection of Rodent Species Appropriate for mtDNA Transfer to Generate
Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title_fullStr | Selection of Rodent Species Appropriate for mtDNA Transfer to Generate
Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title_full_unstemmed | Selection of Rodent Species Appropriate for mtDNA Transfer to Generate
Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title_short | Selection of Rodent Species Appropriate for mtDNA Transfer to Generate
Transmitochondrial Mito-Mice Expressing Mitochondrial Respiration Defects |
| title_sort | selection of rodent species appropriate for mtdna transfer to generate
transmitochondrial mito-mice expressing mitochondrial respiration defects |
| topic | Original |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4160931/ https://www.ncbi.nlm.nih.gov/pubmed/24521860 http://dx.doi.org/10.1538/expanim..21 |
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