Lifespan extension in genetically modified mice

Warren Ladiges; Holly Van Remmen; Randy Strong; Yuji Ikeno; Piper Treuting; Peter Rabinovitch; Arlan Richardson

doi:10.1111/j.1474-9726.2009.00491.x

Lifespan extension in genetically modified mice

Warren Ladiges, Holly Van Remmen, Randy Strong, Yuji Ikeno, Piper Treuting, Peter Rabinovitch, Arlan Richardson

Producción científica: Review article › revisión exhaustiva

85 Citas (Scopus)

Resumen

Major advances in aging research have been made by studying the effect of genetic modifications on the lifespan of organisms, such as yeast, invertebrates (worms and flies) and mice. Data from yeast and invertebrates have been the most plentiful because of the ease in which genetic manipulations can be made and the rapidity by which lifespan experiments can be performed. With the ultimate focus on advancing human health, testing genetic interventions in mammals is crucial, and the mouse has proven to be the mammal most amenable to this task. Lifespan studies in mice are resource intensive, requiring up to 4 years to complete. Therefore, it is critical that a set of scientifically-based criteria be followed to assure reliable results and establish statistically significant findings so other laboratories can replicate and build on the data. Only then will it be possible to confidently determine that the genetic modification extends lifespan and alters aging.

Idioma original	English (US)
Páginas (desde-hasta)	346-352
Número de páginas	7
Publicación	Aging cell
Volumen	8
N.º	4
DOI	https://doi.org/10.1111/j.1474-9726.2009.00491.x
Estado	Published - 2009

ASJC Scopus subject areas

Aging
Cell Biology

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title = "Lifespan extension in genetically modified mice",

abstract = "Major advances in aging research have been made by studying the effect of genetic modifications on the lifespan of organisms, such as yeast, invertebrates (worms and flies) and mice. Data from yeast and invertebrates have been the most plentiful because of the ease in which genetic manipulations can be made and the rapidity by which lifespan experiments can be performed. With the ultimate focus on advancing human health, testing genetic interventions in mammals is crucial, and the mouse has proven to be the mammal most amenable to this task. Lifespan studies in mice are resource intensive, requiring up to 4 years to complete. Therefore, it is critical that a set of scientifically-based criteria be followed to assure reliable results and establish statistically significant findings so other laboratories can replicate and build on the data. Only then will it be possible to confidently determine that the genetic modification extends lifespan and alters aging.",

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AU - Ladiges, Warren

AU - Van Remmen, Holly

AU - Strong, Randy

AU - Ikeno, Yuji

AU - Treuting, Piper

AU - Rabinovitch, Peter

AU - Richardson, Arlan

PY - 2009

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AB - Major advances in aging research have been made by studying the effect of genetic modifications on the lifespan of organisms, such as yeast, invertebrates (worms and flies) and mice. Data from yeast and invertebrates have been the most plentiful because of the ease in which genetic manipulations can be made and the rapidity by which lifespan experiments can be performed. With the ultimate focus on advancing human health, testing genetic interventions in mammals is crucial, and the mouse has proven to be the mammal most amenable to this task. Lifespan studies in mice are resource intensive, requiring up to 4 years to complete. Therefore, it is critical that a set of scientifically-based criteria be followed to assure reliable results and establish statistically significant findings so other laboratories can replicate and build on the data. Only then will it be possible to confidently determine that the genetic modification extends lifespan and alters aging.

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Lifespan extension in genetically modified mice

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