The turquoise killifish: a genetically tractable model for the study of aging
Lifespan is a remarkably diverse trait in nature, ranging from just hours in adult mayflies to hundreds of years in the Greenland shark and quahog clam. Great disparities in lifespan are often observed even among somewhat closely related species; for example, in the laboratory, wild-derived strains...
| Published in: | Journal of Experimental Biology |
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| Language: | English |
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The Company of Biologists Ltd
2020
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| Online Access: | http://jeb.biologists.org/cgi/content/short/223/Suppl_1/jeb209296 https://doi.org/10.1242/jeb.209296 |
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fthighwire:oai:open-archive.highwire.org:jexbio:223/Suppl_1/jeb209296 2023-05-15T16:29:55+02:00 The turquoise killifish: a genetically tractable model for the study of aging Poeschla, Michael Valenzano, Dario R. 2020-02-07 01:17:27.0 text/html http://jeb.biologists.org/cgi/content/short/223/Suppl_1/jeb209296 https://doi.org/10.1242/jeb.209296 en eng The Company of Biologists Ltd http://jeb.biologists.org/cgi/content/short/223/Suppl_1/jeb209296 http://dx.doi.org/10.1242/jeb.209296 Copyright (C) 2020, Company of Biologists REVIEW TEXT 2020 fthighwire https://doi.org/10.1242/jeb.209296 2020-02-26T09:08:51Z Lifespan is a remarkably diverse trait in nature, ranging from just hours in adult mayflies to hundreds of years in the Greenland shark and quahog clam. Great disparities in lifespan are often observed even among somewhat closely related species; for example, in the laboratory, wild-derived strains of the common house mouse have a maximum observed lifespan of approximately 6 years, while a similarly sized rodent, the naked mole rat, can live for over 30 years. Comparative biology of aging across the tree of life provides a tremendous opportunity for understanding the molecular and genetic basis underlying lifespan and aging. However, a lack of molecular and laboratory tools has limited the ability of researchers to take full advantage of the incredible diversity of aging phenotypes in nature. Recent developments in genomic technology have made it increasingly possible to study non-canonical model organisms for aging. One promising new genetic model organism amenable to a range of experimental interventions is the turquoise killifish ( Nothobranchius furzeri ). This fish species has a naturally short lifespan and undergoes a wide range of aging-related transformations. These fish have a fully sequenced genome and transcriptome, and killifish embryos are accessible to transgenesis and genome editing. Furthermore, different killifish species and populations show striking differences in lifespan, providing the opportunity for comparative analysis of aging. This Review introduces the natural life history of the turquoise killifish, its emerging applicability as an aging model system, the genetic tools that have been developed to study aging for this species and a summary of recent studies facilitated by these new tools. Text Greenland HighWire Press (Stanford University) Greenland Journal of Experimental Biology 223 Suppl_1 |
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HighWire Press (Stanford University) |
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English |
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REVIEW |
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REVIEW Poeschla, Michael Valenzano, Dario R. The turquoise killifish: a genetically tractable model for the study of aging |
| topic_facet |
REVIEW |
| description |
Lifespan is a remarkably diverse trait in nature, ranging from just hours in adult mayflies to hundreds of years in the Greenland shark and quahog clam. Great disparities in lifespan are often observed even among somewhat closely related species; for example, in the laboratory, wild-derived strains of the common house mouse have a maximum observed lifespan of approximately 6 years, while a similarly sized rodent, the naked mole rat, can live for over 30 years. Comparative biology of aging across the tree of life provides a tremendous opportunity for understanding the molecular and genetic basis underlying lifespan and aging. However, a lack of molecular and laboratory tools has limited the ability of researchers to take full advantage of the incredible diversity of aging phenotypes in nature. Recent developments in genomic technology have made it increasingly possible to study non-canonical model organisms for aging. One promising new genetic model organism amenable to a range of experimental interventions is the turquoise killifish ( Nothobranchius furzeri ). This fish species has a naturally short lifespan and undergoes a wide range of aging-related transformations. These fish have a fully sequenced genome and transcriptome, and killifish embryos are accessible to transgenesis and genome editing. Furthermore, different killifish species and populations show striking differences in lifespan, providing the opportunity for comparative analysis of aging. This Review introduces the natural life history of the turquoise killifish, its emerging applicability as an aging model system, the genetic tools that have been developed to study aging for this species and a summary of recent studies facilitated by these new tools. |
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Text |
| author |
Poeschla, Michael Valenzano, Dario R. |
| author_facet |
Poeschla, Michael Valenzano, Dario R. |
| author_sort |
Poeschla, Michael |
| title |
The turquoise killifish: a genetically tractable model for the study of aging |
| title_short |
The turquoise killifish: a genetically tractable model for the study of aging |
| title_full |
The turquoise killifish: a genetically tractable model for the study of aging |
| title_fullStr |
The turquoise killifish: a genetically tractable model for the study of aging |
| title_full_unstemmed |
The turquoise killifish: a genetically tractable model for the study of aging |
| title_sort |
turquoise killifish: a genetically tractable model for the study of aging |
| publisher |
The Company of Biologists Ltd |
| publishDate |
2020 |
| url |
http://jeb.biologists.org/cgi/content/short/223/Suppl_1/jeb209296 https://doi.org/10.1242/jeb.209296 |
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Greenland |
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Greenland |
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Greenland |
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Greenland |
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http://jeb.biologists.org/cgi/content/short/223/Suppl_1/jeb209296 http://dx.doi.org/10.1242/jeb.209296 |
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Copyright (C) 2020, Company of Biologists |
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https://doi.org/10.1242/jeb.209296 |
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Journal of Experimental Biology |
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223 |
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Suppl_1 |
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1766019620712480768 |