High reactive oxygen species levels are detected at the end of the chronological life span of translocant yeast cells

Chromosome translocation is a major genomic event for a cell, affecting almost every of its life aspects ranging from metabolism, organelle maintenance and homeostasis to gene maintenance and expression. By using the bridge-induced translocation system, we defined the effects of induced chromosome t...

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Veröffentlicht in:	Molecular genetics and genomics : MGG 2016-02, Vol.291 (1), p.423-435
Hauptverfasser:	Sims, Jason, Bruschi, Carlo V., Bertin, Chloé, West, Nicole, Breitenbach, Michael, Schroeder, Sabrina, Eisenberg, Tobias, Rinnerthaler, Mark, Raspor, Peter, Tosato, Valentina
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Sprache:	eng
Schlagworte:	Aging Animal Genetics and Genomics Biochemistry Biology Biomedical and Life Sciences Chromosomes Deregulation Fungal Proteins - genetics Genes Genomics Human Genetics Life Sciences Lipid Peroxides - metabolism Longevity - genetics Microbial Genetics and Genomics Original Article Oxidative stress Oxidative Stress - genetics Plant Genetics and Genomics Reactive Oxygen Species - metabolism Translocation, Genetic - genetics Yeast Yeasts - genetics Yeasts - metabolism
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container_title	Molecular genetics and genomics : MGG
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creator	Sims, Jason Bruschi, Carlo V. Bertin, Chloé West, Nicole Breitenbach, Michael Schroeder, Sabrina Eisenberg, Tobias Rinnerthaler, Mark Raspor, Peter Tosato, Valentina
description	Chromosome translocation is a major genomic event for a cell, affecting almost every of its life aspects ranging from metabolism, organelle maintenance and homeostasis to gene maintenance and expression. By using the bridge-induced translocation system, we defined the effects of induced chromosome translocation on the chronological life span (CLS) of yeast with particular interest to the oxidative stress condition. The results demonstrate that every translocant strain has a different CLS, but all have a high increase in reactive oxygen species and in lipid peroxides levels at the end of the life span. This could be due to the very unique and strong deregulation of the oxidative stress network. Furthermore, the loss of the translocated chromosome occurs at the end of the life span and is locus dependent. Additionally, the RDH54 gene may play a role in the correct segregation of the translocant chromosome, since in its absence there is an increase in loss of the bridge-induced translocated chromosome.
doi_str_mv	10.1007/s00438-015-1120-9
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subjects	Aging Animal Genetics and Genomics Biochemistry Biology Biomedical and Life Sciences Chromosomes Deregulation Fungal Proteins - genetics Genes Genomics Human Genetics Life Sciences Lipid Peroxides - metabolism Longevity - genetics Microbial Genetics and Genomics Original Article Oxidative stress Oxidative Stress - genetics Plant Genetics and Genomics Reactive Oxygen Species - metabolism Translocation, Genetic - genetics Yeast Yeasts - genetics Yeasts - metabolism
title	High reactive oxygen species levels are detected at the end of the chronological life span of translocant yeast cells
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