Estrès cel·lular i supervivència en models eucariotes
2017 SGR 00306
Enrique
Herrero Perpiñan
Publicaciones en las que colabora con Enrique Herrero Perpiñan (31)
2018
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Quantitative Operating Principles of Yeast Metabolism during Adaptation to Heat Stress
Cell Reports, Vol. 22, Núm. 9, pp. 2421-2430
2016
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Cth2 protein mediates early adaptation of yeast cells to oxidative stress conditions
PLoS ONE, Vol. 11, Núm. 1
2015
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Arabidopsis glutaredoxin S17 and its partner, the nuclear factor Y subunit C11/negative cofactor 2α, contribute to maintenance of the shoot apical meristem under long-day photoperiod
Plant Physiology, Vol. 167, Núm. 4, pp. 1643-1658
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Impaired mitochondrial Fe-S cluster biogenesis activates the DNA damage response through different signaling mediators
Journal of Cell Science, Vol. 128, Núm. 24, pp. 4653-4665
2014
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Transcriptomic responses of Phanerochaete chrysosporium to oak acetonic extracts: Focus on a new glutathione transferase
Applied and Environmental Microbiology, Vol. 80, Núm. 20, pp. 6316-6327
2011
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Heat shock response in yeast involves changes in both transcription rates and mRNA stabilities
PLoS ONE, Vol. 6, Núm. 2
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The oxidative stress response in yeast cells involves changes in the stability of Aft1 regulon mRNAs
Molecular Microbiology, Vol. 81, Núm. 1, pp. 232-248
2010
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Expression of Candida albicans glutathione transferases is induced inside phagocytes and upon diverse environmental stresses: RESEARCH ARTICLE
FEMS Yeast Research, Vol. 10, Núm. 4, pp. 422-431
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Structural and functional diversity of glutaredoxins in yeast
Current Protein and Peptide Science, Vol. 11, Núm. 8, pp. 659-668
2008
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Comprehensive transcriptional analysis of the oxidative response in yeast
Journal of Biological Chemistry, Vol. 283, Núm. 26, pp. 17908-17918
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Redox control and oxidative stress in yeast cells
Biochimica et Biophysica Acta - General Subjects, Vol. 1780, Núm. 11, pp. 1217-1235
2006
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A peroxisomal glutathione transferase of Saccharomyces cerevisiae is functionally related to sulfur amino acid metabolism
Eukaryotic Cell, Vol. 5, Núm. 10, pp. 1748-1759
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Glutaredoxins Grx3 and Grx4 regulate nuclear localisation of Aft1 and the oxidative stress response in Saccharomyces cerevisiae
Journal of Cell Science, Vol. 119, Núm. 21, pp. 4554-4564
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Glutaredoxins in fungi
Photosynthesis Research, Vol. 89, Núm. 2, pp. 127-140
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Prokaryotic and eukaryotic monothiol glutaredoxins are able to perform the functions of Grx5 in the biogenesis of Fe/S clusters in yeast mitochondria
FEBS Letters, Vol. 580, Núm. 9, pp. 2273-2280
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Saccharomyces cerevisiae cells have three Omega class glutathione S-transferases acting as 1-Cys thiol transferases
Biochemical Journal, Vol. 398, Núm. 2, pp. 187-196
2004
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Evolution and cellular function of monothiol glutaredoxins: Involvement in iron-sulphur cluster assembly
Comparative and Functional Genomics, Vol. 5, Núm. 4, pp. 328-341
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Nuclear monothiol glutaredoxins of Saccharomyces cerevisiae can function as mitochondrial glutaredoxins
Journal of Biological Chemistry, Vol. 279, Núm. 50, pp. 51923-51930
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Saccharomyces cerevisiae Glutaredoxin 5-deficient Cells Subjected to Continuous Oxidizing Conditions Are Affected in the Expression of Specific Sets of Genes
Journal of Biological Chemistry, Vol. 279, Núm. 13, pp. 12386-12395
2003
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Biochemical characterization of yeast mitochondrial Grx5 monothiol glutaredoxin
Journal of Biological Chemistry, Vol. 278, Núm. 28, pp. 25745-25751