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In this Topical Collection, ten articles (one review and nine research articles) are published in a time span of 2021–2022. All articles are written by experts in the field of Separation Techniques who were invited to contribute to the presentation of the current status in separation science. The authors were invited to answer the questions: What is the state-of-the-art in Separation Sciences? What advances have been reported recently? Last but not least, what are the future perspectives? The Editor and authors hope that the readers will find valuable information in the topic.
Research & information: general --- Chemistry --- protein-based chiral stationary phase --- alpha 1-acid glycoprotein --- chiral recognition mechanism --- molecular docking --- proteomics --- high-performance liquid chromatography --- mass spectrometry --- gout --- uric acid --- Salvia miltiorrhiza --- HPLC-MS/MS --- pharmacokinetics --- wine-processed --- hydrophilic interaction liquid chromatography --- chromatography --- oligopeptides --- acetyl hexapeptide-8 --- acetyl hexapeptide-3 --- Argireline --- cosmetics --- SARS-CoV-2 --- virus particles --- air filtering --- aerosols --- probability distributions --- rotational particle separator --- air separation --- steam methane reforming --- water gas shift --- alternative fluids --- gas turbine --- Senecio anteuphorbium --- response factors --- true quantitation --- allelopathy --- herbicide --- chlorpropham --- potato --- μQuEChERS/UHPLC-PDA --- validation --- cooking --- methyl nicotinate --- methyl salicylate --- ethyl salicylate --- 2-hydroxyethyl salicylate --- pain relief spray --- Tulasnellaceae sp. --- Gymnadenia orchidis --- mdium-pressure liquid chromatography --- reversed-phase liquid chromatography --- ergosterol
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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.
Bakraee --- tomato gray mold --- Citrus sinensis --- CDPKs --- salicylic acid --- calmodulin --- glycerol-3-phosphate --- biotic stress responses --- negative regulator --- rice blast --- metabolomics --- hydroperoxide lyase --- Bromoviridae --- induced defense responses --- leaf transcriptome --- calcium signature --- “Candidatus Liberibacter” --- garden impatiens --- Chilo suppressalis --- plant defence --- plant–virus interactions --- spectral distribution of light --- Magnaporthe oryzae --- plant-virus interaction --- biological control --- ultrastructure --- pathogenicity --- disease resistance --- Potato virus Y --- symbiosis --- N-hydroxypipecolic acid --- VaHAESA --- priming --- plant–microbe interactions --- systemic and local movement --- immunity --- CaWRKY40b --- plant protection products --- hypersensitive response --- cellulose synthase --- herbivore-induced defense response --- Macrosiphum euphorbiae --- RTNLB --- ISR --- RNA silencing --- herbivore-induced plant defenses --- disease management --- sustainable crop protection --- WRKY networks --- Camellia sinensis --- RNA-Seq --- transcriptional modulation --- ETI --- pathogenesis related-protein 2 --- cell wall --- basal defense --- candidate disease resistance gene --- MTI --- grapevine --- defense-related signaling pathways --- wounding --- ethylene --- CMLs --- Prune dwarf virus --- Arabidopsis thaliana --- SAR signalling --- innate immunity --- agrochemicals --- OsGID1 --- Nilaparvata lugens --- tobacco --- tomato leaf mold --- Solanum lycopersicum --- downy mildew --- pipecolic acid --- chemical elicitors --- bismerthiazol --- pre-conditioning --- gibberellin --- “Candidatus Phytoplasma” --- dieback --- CaWRKY22 --- microbiota --- Sogatella furcifera --- PTI --- SAR --- Bacillus subtilis --- PRRs --- aphid resistance --- methyl salicylate --- regurgitant --- Myzus persicae --- Agrobacterium --- Ectropis obliqua --- Capsicum annuum --- polyphenol oxidase --- plant proteases --- plant immunity --- jasmonic acid --- calcium --- light dependent signalling --- Ralstonia solanacearum --- proteomics --- plant defense response --- Arabidopsis --- Lasiodiplodia theobromae --- azelaic acid --- citrus decline disease --- New Guinea impatiens --- replication process --- rice --- mango --- ?-3 fatty acid desaturase --- Ralstonia Solanacearum --- food security --- iTRAQ --- mitogen-activated protein kinase 4
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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.
Bakraee --- tomato gray mold --- Citrus sinensis --- CDPKs --- salicylic acid --- calmodulin --- glycerol-3-phosphate --- biotic stress responses --- negative regulator --- rice blast --- metabolomics --- hydroperoxide lyase --- Bromoviridae --- induced defense responses --- leaf transcriptome --- calcium signature --- “Candidatus Liberibacter” --- garden impatiens --- Chilo suppressalis --- plant defence --- plant–virus interactions --- spectral distribution of light --- Magnaporthe oryzae --- plant-virus interaction --- biological control --- ultrastructure --- pathogenicity --- disease resistance --- Potato virus Y --- symbiosis --- N-hydroxypipecolic acid --- VaHAESA --- priming --- plant–microbe interactions --- systemic and local movement --- immunity --- CaWRKY40b --- plant protection products --- hypersensitive response --- cellulose synthase --- herbivore-induced defense response --- Macrosiphum euphorbiae --- RTNLB --- ISR --- RNA silencing --- herbivore-induced plant defenses --- disease management --- sustainable crop protection --- WRKY networks --- Camellia sinensis --- RNA-Seq --- transcriptional modulation --- ETI --- pathogenesis related-protein 2 --- cell wall --- basal defense --- candidate disease resistance gene --- MTI --- grapevine --- defense-related signaling pathways --- wounding --- ethylene --- CMLs --- Prune dwarf virus --- Arabidopsis thaliana --- SAR signalling --- innate immunity --- agrochemicals --- OsGID1 --- Nilaparvata lugens --- tobacco --- tomato leaf mold --- Solanum lycopersicum --- downy mildew --- pipecolic acid --- chemical elicitors --- bismerthiazol --- pre-conditioning --- gibberellin --- “Candidatus Phytoplasma” --- dieback --- CaWRKY22 --- microbiota --- Sogatella furcifera --- PTI --- SAR --- Bacillus subtilis --- PRRs --- aphid resistance --- methyl salicylate --- regurgitant --- Myzus persicae --- Agrobacterium --- Ectropis obliqua --- Capsicum annuum --- polyphenol oxidase --- plant proteases --- plant immunity --- jasmonic acid --- calcium --- light dependent signalling --- Ralstonia solanacearum --- proteomics --- plant defense response --- Arabidopsis --- Lasiodiplodia theobromae --- azelaic acid --- citrus decline disease --- New Guinea impatiens --- replication process --- rice --- mango --- ?-3 fatty acid desaturase --- Ralstonia Solanacearum --- food security --- iTRAQ --- mitogen-activated protein kinase 4
Choose an application
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.
Bakraee --- tomato gray mold --- Citrus sinensis --- CDPKs --- salicylic acid --- calmodulin --- glycerol-3-phosphate --- biotic stress responses --- negative regulator --- rice blast --- metabolomics --- hydroperoxide lyase --- Bromoviridae --- induced defense responses --- leaf transcriptome --- calcium signature --- “Candidatus Liberibacter” --- garden impatiens --- Chilo suppressalis --- plant defence --- plant–virus interactions --- spectral distribution of light --- Magnaporthe oryzae --- plant-virus interaction --- biological control --- ultrastructure --- pathogenicity --- disease resistance --- Potato virus Y --- symbiosis --- N-hydroxypipecolic acid --- VaHAESA --- priming --- plant–microbe interactions --- systemic and local movement --- immunity --- CaWRKY40b --- plant protection products --- hypersensitive response --- cellulose synthase --- herbivore-induced defense response --- Macrosiphum euphorbiae --- RTNLB --- ISR --- RNA silencing --- herbivore-induced plant defenses --- disease management --- sustainable crop protection --- WRKY networks --- Camellia sinensis --- RNA-Seq --- transcriptional modulation --- ETI --- pathogenesis related-protein 2 --- cell wall --- basal defense --- candidate disease resistance gene --- MTI --- grapevine --- defense-related signaling pathways --- wounding --- ethylene --- CMLs --- Prune dwarf virus --- Arabidopsis thaliana --- SAR signalling --- innate immunity --- agrochemicals --- OsGID1 --- Nilaparvata lugens --- tobacco --- tomato leaf mold --- Solanum lycopersicum --- downy mildew --- pipecolic acid --- chemical elicitors --- bismerthiazol --- pre-conditioning --- gibberellin --- “Candidatus Phytoplasma” --- dieback --- CaWRKY22 --- microbiota --- Sogatella furcifera --- PTI --- SAR --- Bacillus subtilis --- PRRs --- aphid resistance --- methyl salicylate --- regurgitant --- Myzus persicae --- Agrobacterium --- Ectropis obliqua --- Capsicum annuum --- polyphenol oxidase --- plant proteases --- plant immunity --- jasmonic acid --- calcium --- light dependent signalling --- Ralstonia solanacearum --- proteomics --- plant defense response --- Arabidopsis --- Lasiodiplodia theobromae --- azelaic acid --- citrus decline disease --- New Guinea impatiens --- replication process --- rice --- mango --- ?-3 fatty acid desaturase --- Ralstonia Solanacearum --- food security --- iTRAQ --- mitogen-activated protein kinase 4 --- Bakraee --- tomato gray mold --- Citrus sinensis --- CDPKs --- salicylic acid --- calmodulin --- glycerol-3-phosphate --- biotic stress responses --- negative regulator --- rice blast --- metabolomics --- hydroperoxide lyase --- Bromoviridae --- induced defense responses --- leaf transcriptome --- calcium signature --- “Candidatus Liberibacter” --- garden impatiens --- Chilo suppressalis --- plant defence --- plant–virus interactions --- spectral distribution of light --- Magnaporthe oryzae --- plant-virus interaction --- biological control --- ultrastructure --- pathogenicity --- disease resistance --- Potato virus Y --- symbiosis --- N-hydroxypipecolic acid --- VaHAESA --- priming --- plant–microbe interactions --- systemic and local movement --- immunity --- CaWRKY40b --- plant protection products --- hypersensitive response --- cellulose synthase --- herbivore-induced defense response --- Macrosiphum euphorbiae --- RTNLB --- ISR --- RNA silencing --- herbivore-induced plant defenses --- disease management --- sustainable crop protection --- WRKY networks --- Camellia sinensis --- RNA-Seq --- transcriptional modulation --- ETI --- pathogenesis related-protein 2 --- cell wall --- basal defense --- candidate disease resistance gene --- MTI --- grapevine --- defense-related signaling pathways --- wounding --- ethylene --- CMLs --- Prune dwarf virus --- Arabidopsis thaliana --- SAR signalling --- innate immunity --- agrochemicals --- OsGID1 --- Nilaparvata lugens --- tobacco --- tomato leaf mold --- Solanum lycopersicum --- downy mildew --- pipecolic acid --- chemical elicitors --- bismerthiazol --- pre-conditioning --- gibberellin --- “Candidatus Phytoplasma” --- dieback --- CaWRKY22 --- microbiota --- Sogatella furcifera --- PTI --- SAR --- Bacillus subtilis --- PRRs --- aphid resistance --- methyl salicylate --- regurgitant --- Myzus persicae --- Agrobacterium --- Ectropis obliqua --- Capsicum annuum --- polyphenol oxidase --- plant proteases --- plant immunity --- jasmonic acid --- calcium --- light dependent signalling --- Ralstonia solanacearum --- proteomics --- plant defense response --- Arabidopsis --- Lasiodiplodia theobromae --- azelaic acid --- citrus decline disease --- New Guinea impatiens --- replication process --- rice --- mango --- ?-3 fatty acid desaturase --- Ralstonia Solanacearum --- food security --- iTRAQ --- mitogen-activated protein kinase 4
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