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Cross-Tolerance and Autoimmunity as Missing Links in Abiotic and Biotic Stress Responses in Plants: A Perspective toward Secondary Metabolic Engineering
Plants employ a diversified array of defense activities when they encounter stress. Continuous activation of defense pathways that were induced by mutation or altered expression of disease resistance genes and mRNA surveillance mechanisms develop abnormal phenotypes. These plants show continuous def...
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| Published in: | International journal of molecular sciences 2021-11, Vol.22 (21), p.11945 |
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| cites | cdi_FETCH-LOGICAL-c481t-1bb77e66c0d79ce52f06b08672f6e40bc079cf77b721c1b228242bca404e24743 |
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| container_issue | 21 |
| container_start_page | 11945 |
| container_title | International journal of molecular sciences |
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| creator | Perincherry, Lakshmipriya Stępień, Łukasz Vasudevan, Soniya Eppurathu |
| description | Plants employ a diversified array of defense activities when they encounter stress. Continuous activation of defense pathways that were induced by mutation or altered expression of disease resistance genes and mRNA surveillance mechanisms develop abnormal phenotypes. These plants show continuous defense genes' expression, reduced growth, and also manifest tissue damage by apoptosis. These macroscopic abrasions appear even in the absence of the pathogen and can be attributed to a condition known as autoimmunity. The question is whether it is possible to develop an autoimmune mutant that does not fetch yield and growth penalty and provides enhanced protection against various biotic and abiotic stresses via secondary metabolic pathways' engineering. This review is a discussion about the common stress-fighting mechanisms, how the concept of cross-tolerance instigates propitious or protective autoimmunity, and how it can be achieved by engineering secondary metabolic pathways. |
| doi_str_mv | 10.3390/ijms222111945 |
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Continuous activation of defense pathways that were induced by mutation or altered expression of disease resistance genes and mRNA surveillance mechanisms develop abnormal phenotypes. These plants show continuous defense genes' expression, reduced growth, and also manifest tissue damage by apoptosis. These macroscopic abrasions appear even in the absence of the pathogen and can be attributed to a condition known as autoimmunity. The question is whether it is possible to develop an autoimmune mutant that does not fetch yield and growth penalty and provides enhanced protection against various biotic and abiotic stresses via secondary metabolic pathways' engineering. This review is a discussion about the common stress-fighting mechanisms, how the concept of cross-tolerance instigates propitious or protective autoimmunity, and how it can be achieved by engineering secondary metabolic pathways.</description><identifier>ISSN: 1422-0067</identifier><identifier>ISSN: 1661-6596</identifier><identifier>EISSN: 1422-0067</identifier><identifier>DOI: 10.3390/ijms222111945</identifier><identifier>PMID: 34769374</identifier><language>eng</language><publisher>Switzerland: MDPI AG</publisher><subject>Abiotic stress ; Apoptosis ; Autoimmunity ; Autoimmunity - immunology ; Barley ; Biosynthesis ; Cross-tolerance ; Disease resistance ; Disease Resistance - immunology ; Droughts ; Endoplasmic reticulum ; Fatty acids ; Gene expression ; Genes ; Homeostasis ; Immunological tolerance ; Kinases ; Membranes ; Metabolic Engineering ; Metabolic pathways ; Metabolism ; Metabolites ; mRNA ; Mutation ; Pathogens ; Phenotypes ; Physiology ; Plants - immunology ; Plants - metabolism ; Polyamines ; Proteins ; Review ; Salinity ; Secondary Metabolism ; Signal transduction ; stress tolerance ; Stress, Physiological ; Transcription factors</subject><ispartof>International journal of molecular sciences, 2021-11, Vol.22 (21), p.11945</ispartof><rights>2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). 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Continuous activation of defense pathways that were induced by mutation or altered expression of disease resistance genes and mRNA surveillance mechanisms develop abnormal phenotypes. These plants show continuous defense genes' expression, reduced growth, and also manifest tissue damage by apoptosis. These macroscopic abrasions appear even in the absence of the pathogen and can be attributed to a condition known as autoimmunity. The question is whether it is possible to develop an autoimmune mutant that does not fetch yield and growth penalty and provides enhanced protection against various biotic and abiotic stresses via secondary metabolic pathways' engineering. 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Continuous activation of defense pathways that were induced by mutation or altered expression of disease resistance genes and mRNA surveillance mechanisms develop abnormal phenotypes. These plants show continuous defense genes' expression, reduced growth, and also manifest tissue damage by apoptosis. These macroscopic abrasions appear even in the absence of the pathogen and can be attributed to a condition known as autoimmunity. The question is whether it is possible to develop an autoimmune mutant that does not fetch yield and growth penalty and provides enhanced protection against various biotic and abiotic stresses via secondary metabolic pathways' engineering. 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| subjects | Abiotic stress Apoptosis Autoimmunity Autoimmunity - immunology Barley Biosynthesis Cross-tolerance Disease resistance Disease Resistance - immunology Droughts Endoplasmic reticulum Fatty acids Gene expression Genes Homeostasis Immunological tolerance Kinases Membranes Metabolic Engineering Metabolic pathways Metabolism Metabolites mRNA Mutation Pathogens Phenotypes Physiology Plants - immunology Plants - metabolism Polyamines Proteins Review Salinity Secondary Metabolism Signal transduction stress tolerance Stress, Physiological Transcription factors |
| title | Cross-Tolerance and Autoimmunity as Missing Links in Abiotic and Biotic Stress Responses in Plants: A Perspective toward Secondary Metabolic Engineering |
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