Twenty years of research on Asr (ABA-stress-ripening) genes and proteins
Investigating how plants cope with different abiotic stresses—mainly drought and extreme temperatures—is pivotal for both understanding the underlying signaling pathways and improving genetically engineered crops. Plant cells are known to react defensively to mild and severe dehydration by initiatin...
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todo:paper_00320935_v239_n5_p941_Gonzalez2023-10-03T14:45:04Z Twenty years of research on Asr (ABA-stress-ripening) genes and proteins González, R.M. Iusem, N.D. ASR Chaperone Drought tolerance LEA Transcription factor Water stress abscisic acid vegetable protein genetics metabolism physiological stress plant plant gene research Abscisic Acid Genes, Plant Plant Proteins Plants Research Stress, Physiological Investigating how plants cope with different abiotic stresses—mainly drought and extreme temperatures—is pivotal for both understanding the underlying signaling pathways and improving genetically engineered crops. Plant cells are known to react defensively to mild and severe dehydration by initiating several signal transduction pathways that result in the accumulation of different proteins, sugar molecules and lipophilic anti-oxidants. Among the proteins that build up under these adverse conditions are members of the ancestral ASR (ABA-stress-ripening) family, which is conserved in the plant kingdom but lacks orthologs in Arabidopsis. This review provides a comprehensive summary of the state of the art regarding ASRs, going back to the original description and cloning of the tomato ASR cDNA. That seminal discovery sparked worldwide interest amongst research groups spanning multiple fields: biochemistry, cell biology, evolution, physiology and epigenetics. As these proteins function as both chaperones and transcription factors; this review also covers the progress made on relevant molecular features that account for these dual roles—including the recent identification of their target genes—which may inspire future basic research. In addition, we address reports of drought-tolerant ASR-transgenic plants of different species, highlighting the influential work of authors taking more biotechnological approaches. © 2014, Springer-Verlag Berlin Heidelberg. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00320935_v239_n5_p941_Gonzalez |
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Universidad de Buenos Aires |
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I-28 |
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R-134 |
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
ASR Chaperone Drought tolerance LEA Transcription factor Water stress abscisic acid vegetable protein genetics metabolism physiological stress plant plant gene research Abscisic Acid Genes, Plant Plant Proteins Plants Research Stress, Physiological |
| spellingShingle |
ASR Chaperone Drought tolerance LEA Transcription factor Water stress abscisic acid vegetable protein genetics metabolism physiological stress plant plant gene research Abscisic Acid Genes, Plant Plant Proteins Plants Research Stress, Physiological González, R.M. Iusem, N.D. Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| topic_facet |
ASR Chaperone Drought tolerance LEA Transcription factor Water stress abscisic acid vegetable protein genetics metabolism physiological stress plant plant gene research Abscisic Acid Genes, Plant Plant Proteins Plants Research Stress, Physiological |
| description |
Investigating how plants cope with different abiotic stresses—mainly drought and extreme temperatures—is pivotal for both understanding the underlying signaling pathways and improving genetically engineered crops. Plant cells are known to react defensively to mild and severe dehydration by initiating several signal transduction pathways that result in the accumulation of different proteins, sugar molecules and lipophilic anti-oxidants. Among the proteins that build up under these adverse conditions are members of the ancestral ASR (ABA-stress-ripening) family, which is conserved in the plant kingdom but lacks orthologs in Arabidopsis. This review provides a comprehensive summary of the state of the art regarding ASRs, going back to the original description and cloning of the tomato ASR cDNA. That seminal discovery sparked worldwide interest amongst research groups spanning multiple fields: biochemistry, cell biology, evolution, physiology and epigenetics. As these proteins function as both chaperones and transcription factors; this review also covers the progress made on relevant molecular features that account for these dual roles—including the recent identification of their target genes—which may inspire future basic research. In addition, we address reports of drought-tolerant ASR-transgenic plants of different species, highlighting the influential work of authors taking more biotechnological approaches. © 2014, Springer-Verlag Berlin Heidelberg. |
| format |
JOUR |
| author |
González, R.M. Iusem, N.D. |
| author_facet |
González, R.M. Iusem, N.D. |
| author_sort |
González, R.M. |
| title |
Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| title_short |
Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| title_full |
Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| title_fullStr |
Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| title_full_unstemmed |
Twenty years of research on Asr (ABA-stress-ripening) genes and proteins |
| title_sort |
twenty years of research on asr (aba-stress-ripening) genes and proteins |
| url |
http://hdl.handle.net/20.500.12110/paper_00320935_v239_n5_p941_Gonzalez |
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AT gonzalezrm twentyyearsofresearchonasrabastressripeninggenesandproteins AT iusemnd twentyyearsofresearchonasrabastressripeninggenesandproteins |
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1807316000104775680 |