Plant immunity unravelling the complexity of plant responses to biotic stresses
Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune syst...
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| Published in | Annals of botany Vol. 119; no. 5; pp. 681 - 687 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Oxford University Press
01.03.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0305-7364 1095-8290 1095-8290 |
| DOI | 10.1093/aob/mcw284 |
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| Abstract | Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue.
Advances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant-virus interactions; plant-phytoplasma interactions; plant-fungus interactions; plant-nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism.
Although knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests. |
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| AbstractList | Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue.BackgroundPlants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue.Advances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant-virus interactions; plant-phytoplasma interactions; plant-fungus interactions; plant-nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism.ScopeAdvances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant-virus interactions; plant-phytoplasma interactions; plant-fungus interactions; plant-nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism.Although knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests.ConclusionsAlthough knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests. Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue. Advances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant-virus interactions; plant-phytoplasma interactions; plant-fungus interactions; plant-nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism. Although knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests. Background Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue. Scope Advances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant–virus interactions; plant–phytoplasma interactions; plant–fungus interactions; plant–nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism. Conclusions Although knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests. Background Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen evolution can overcome disease resistance that is conferred by individual plant resistance genes, an enhanced understanding of the plant immune system is necessary for the long-term development of effective disease management strategies. Current research is rapidly advancing our understanding of the plant innate immune system, with this multidisciplinary subject area reflected in the content of the 18 papers in this Special Issue. Scope Advances in specific areas of plant innate immunity are highlighted in this issue, with focus on molecular interactions occurring between plant hosts and viruses, bacteria, phytoplasmas, oomycetes, fungi, nematodes and insect pests. We provide a focus on research across multiple areas related to pathogen sensing and plant immune response. Topics covered are categorized as follows: binding proteins in plant immunity; cytokinin phytohormones in plant growth and immunity; plant–virus interactions; plant–phytoplasma interactions; plant–fungus interactions; plant–nematode interactions; plant immunity in Citrus; plant peptides and volatiles; and assimilate dynamics in source/sink metabolism. Conclusions Although knowledge of the plant immune system remains incomplete, the considerable ongoing scientific progress into pathogen sensing and plant immune response mechanisms suggests far reaching implications for the development of durable disease resistance against pathogens and pests. |
| Author | Alves, Gabriel Sergio Costa Miller, Robert Neil Gerard Van Sluys, Marie-Anne |
| AuthorAffiliation | 1 Universidade de Brasília, Instituto de Ciências Biológicas, 70910-900, Brasilia, DF, Brazil 2 Universidade de São Paulo, Instituto de Biociências, 05508-090, São Paulo, SP, Brazil |
| AuthorAffiliation_xml | – name: 2 Universidade de São Paulo, Instituto de Biociências, 05508-090, São Paulo, SP, Brazil – name: 1 Universidade de Brasília, Instituto de Ciências Biológicas, 70910-900, Brasilia, DF, Brazil |
| Author_xml | – sequence: 1 givenname: Robert Neil Gerard surname: Miller fullname: Miller, Robert Neil Gerard organization: Universidade de Brasília, Instituto de Ciências Biológicas, 70910-900, Brasilia, DF, Brazil – sequence: 2 givenname: Gabriel Sergio Costa surname: Alves fullname: Alves, Gabriel Sergio Costa organization: Universidade de Brasília, Instituto de Ciências Biológicas, 70910-900, Brasilia, DF, Brazil – sequence: 3 givenname: Marie-Anne surname: Van Sluys fullname: Van Sluys, Marie-Anne organization: Universidade de São Paulo, Instituto de Biociências, 05508-090, São Paulo, SP, Brazil |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28375427$$D View this record in MEDLINE/PubMed |
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| Keywords | cytokinins defensins terpenoids lectins phytoplasma PAMP-triggered immunity nematodes citrus plant antiviral immunity induced resistance fungi source/sink dynamics NLRs effector-triggered immunity |
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| Snippet | Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As pathogen... Background Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As... Background Plants are constantly exposed to evolving pathogens and pests, with crop losses representing a considerable threat to global food security. As... |
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| StartPage | 681 |
| SubjectTerms | bacteria binding proteins biotic stress Citrus crop losses cytokinins Cytokinins - physiology disease control disease resistance evolution food security fungi host plants Host-Pathogen Interactions immune response innate immunity insect pests metabolism Nematoda Oomycetes pathogens peptides Phytoplasma Plant Diseases - immunology Plant Diseases - microbiology Plant Diseases - parasitology Plant Diseases - virology plant growth Plant Growth Regulators - physiology plant hormones Plant Immunity - genetics Plant Immunity - physiology plant response Preface PREFACE: PART OF A SPECIAL ISSUE ON PLANT IMMUNITY resistance genes viruses |
| Subtitle | unravelling the complexity of plant responses to biotic stresses |
| Title | Plant immunity |
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