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TY  - BOOK
ID  - 145556420
TI  - Plant Innate Immunity 2.0
PY  - 2019
PB  - MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Bakraee
KW  - tomato gray mold
KW  - Citrus sinensis
KW  - CDPKs
KW  - salicylic acid
KW  - calmodulin
KW  - glycerol-3-phosphate
KW  - biotic stress responses
KW  - negative regulator
KW  - rice blast
KW  - metabolomics
KW  - hydroperoxide lyase
KW  - Bromoviridae
KW  - induced defense responses
KW  - leaf transcriptome
KW  - calcium signature
KW  - “Candidatus Liberibacter”
KW  - garden impatiens
KW  - Chilo suppressalis
KW  - plant defence
KW  - plant–virus interactions
KW  - spectral distribution of light
KW  - Magnaporthe oryzae
KW  - plant-virus interaction
KW  - biological control
KW  - ultrastructure
KW  - pathogenicity
KW  - disease resistance
KW  - Potato virus Y
KW  - symbiosis
KW  - N-hydroxypipecolic acid
KW  - VaHAESA
KW  - priming
KW  - plant–microbe interactions
KW  - systemic and local movement
KW  - immunity
KW  - CaWRKY40b
KW  - plant protection products
KW  - hypersensitive response
KW  - cellulose synthase
KW  - herbivore-induced defense response
KW  - Macrosiphum euphorbiae
KW  - RTNLB
KW  - ISR
KW  - RNA silencing
KW  - herbivore-induced plant defenses
KW  - disease management
KW  - sustainable crop protection
KW  - WRKY networks
KW  - Camellia sinensis
KW  - RNA-Seq
KW  - transcriptional modulation
KW  - ETI
KW  - pathogenesis related-protein 2
KW  - cell wall
KW  - basal defense
KW  - candidate disease resistance gene
KW  - MTI
KW  - grapevine
KW  - defense-related signaling pathways
KW  - wounding
KW  - ethylene
KW  - CMLs
KW  - Prune dwarf virus
KW  - Arabidopsis thaliana
KW  - SAR signalling
KW  - innate immunity
KW  - agrochemicals
KW  - OsGID1
KW  - Nilaparvata lugens
KW  - tobacco
KW  - tomato leaf mold
KW  - Solanum lycopersicum
KW  - downy mildew
KW  - pipecolic acid
KW  - chemical elicitors
KW  - bismerthiazol
KW  - pre-conditioning
KW  - gibberellin
KW  - “Candidatus Phytoplasma”
KW  - dieback
KW  - CaWRKY22
KW  - microbiota
KW  - Sogatella furcifera
KW  - PTI
KW  - SAR
KW  - Bacillus subtilis
KW  - PRRs
KW  - aphid resistance
KW  - methyl salicylate
KW  - regurgitant
KW  - Myzus persicae
KW  - Agrobacterium
KW  - Ectropis obliqua
KW  - Capsicum annuum
KW  - polyphenol oxidase
KW  - plant proteases
KW  - plant immunity
KW  - jasmonic acid
KW  - calcium
KW  - light dependent signalling
KW  - Ralstonia solanacearum
KW  - proteomics
KW  - plant defense response
KW  - Arabidopsis
KW  - Lasiodiplodia theobromae
KW  - azelaic acid
KW  - citrus decline disease
KW  - New Guinea impatiens
KW  - replication process
KW  - rice
KW  - mango
KW  - ?-3 fatty acid desaturase
KW  - Ralstonia Solanacearum
KW  - food security
KW  - iTRAQ
KW  - mitogen-activated protein kinase 4
KW  - Bakraee
KW  - tomato gray mold
KW  - Citrus sinensis
KW  - CDPKs
KW  - salicylic acid
KW  - calmodulin
KW  - glycerol-3-phosphate
KW  - biotic stress responses
KW  - negative regulator
KW  - rice blast
KW  - metabolomics
KW  - hydroperoxide lyase
KW  - Bromoviridae
KW  - induced defense responses
KW  - leaf transcriptome
KW  - calcium signature
KW  - “Candidatus Liberibacter”
KW  - garden impatiens
KW  - Chilo suppressalis
KW  - plant defence
KW  - plant–virus interactions
KW  - spectral distribution of light
KW  - Magnaporthe oryzae
KW  - plant-virus interaction
KW  - biological control
KW  - ultrastructure
KW  - pathogenicity
KW  - disease resistance
KW  - Potato virus Y
KW  - symbiosis
KW  - N-hydroxypipecolic acid
KW  - VaHAESA
KW  - priming
KW  - plant–microbe interactions
KW  - systemic and local movement
KW  - immunity
KW  - CaWRKY40b
KW  - plant protection products
KW  - hypersensitive response
KW  - cellulose synthase
KW  - herbivore-induced defense response
KW  - Macrosiphum euphorbiae
KW  - RTNLB
KW  - ISR
KW  - RNA silencing
KW  - herbivore-induced plant defenses
KW  - disease management
KW  - sustainable crop protection
KW  - WRKY networks
KW  - Camellia sinensis
KW  - RNA-Seq
KW  - transcriptional modulation
KW  - ETI
KW  - pathogenesis related-protein 2
KW  - cell wall
KW  - basal defense
KW  - candidate disease resistance gene
KW  - MTI
KW  - grapevine
KW  - defense-related signaling pathways
KW  - wounding
KW  - ethylene
KW  - CMLs
KW  - Prune dwarf virus
KW  - Arabidopsis thaliana
KW  - SAR signalling
KW  - innate immunity
KW  - agrochemicals
KW  - OsGID1
KW  - Nilaparvata lugens
KW  - tobacco
KW  - tomato leaf mold
KW  - Solanum lycopersicum
KW  - downy mildew
KW  - pipecolic acid
KW  - chemical elicitors
KW  - bismerthiazol
KW  - pre-conditioning
KW  - gibberellin
KW  - “Candidatus Phytoplasma”
KW  - dieback
KW  - CaWRKY22
KW  - microbiota
KW  - Sogatella furcifera
KW  - PTI
KW  - SAR
KW  - Bacillus subtilis
KW  - PRRs
KW  - aphid resistance
KW  - methyl salicylate
KW  - regurgitant
KW  - Myzus persicae
KW  - Agrobacterium
KW  - Ectropis obliqua
KW  - Capsicum annuum
KW  - polyphenol oxidase
KW  - plant proteases
KW  - plant immunity
KW  - jasmonic acid
KW  - calcium
KW  - light dependent signalling
KW  - Ralstonia solanacearum
KW  - proteomics
KW  - plant defense response
KW  - Arabidopsis
KW  - Lasiodiplodia theobromae
KW  - azelaic acid
KW  - citrus decline disease
KW  - New Guinea impatiens
KW  - replication process
KW  - rice
KW  - mango
KW  - ?-3 fatty acid desaturase
KW  - Ralstonia Solanacearum
KW  - food security
KW  - iTRAQ
KW  - mitogen-activated protein kinase 4
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145556420
AB  - Plants possess a rather complex and efficient immune system. During their evolutionary history, plants have developed various defense strategies in order to recognize and distinguishing between self and non-self, and face pathogens and animal pests. Accordingly, to study the plant innate immunity represents a new frontier in the plant pathology and crop protection fields. This book is structured in 6 sections. The first part introduces some basic and general aspects of the plant innate immunity and crop protection. Sections 2–5 focus on fungal and oomycete diseases (section 2), bacterial and phytoplasma diseases (section 3), virus diseases (section 4), and insect pests (section 5), with a number of case studies and plant–pathogen/pest interactions. The last section deals with plant disease detection and control. The book aims to highlight new trends in these relevant areas of plant sciences, providing a global perspective that is useful for future and innovative ideas.
ER  -