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Book
Year: 2011 Publisher: [Washington, D.C.] : U.S. Dept. of Agriculture, Economic Research Service,
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Dissertation
Year: 2009 Publisher: [S.l.] : [chez l'auteur],
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Article
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Cucurbitaceae --- cucumber mosaic virus --- virus resistance
Dissertation
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Musa --- Cucumber mosaic cucumovirus --- Chemical control --- Meristem culture --- Antiviral agents
Dissertation
Year: 2013 Publisher: [S. l. : chez l'auteur],
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Cucumber mosaic cucumovirus --- Cucumber mosaic cucumovirus --- lectins --- lectins --- Vegetables --- Vegetables --- Myzus persicae --- Myzus persicae --- biological interaction --- biological interaction --- Aphididae --- Aphididae --- China --- China
Book
ISBN: 9066054417 Year: 1984 Publisher: Wageningen International Society for Horticultural Science
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631.544.4 --- 635.63 --- 635.63 Cucumber. Cucumis sativus. Gherkin --- Cucumber. Cucumis sativus. Gherkin --- 631.544.4 Greenhouse (glasshouse) cultivation. Phytotron --- Greenhouse (glasshouse) cultivation. Phytotron --- Concombre. Serres (Culture en). (Congrès) --- Komkommers. Warenhuisteelt. (Congres)
Dissertation
Year: 2001
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Musa --- Musa --- Plant viruses --- Plant viruses --- Freezing --- Freezing --- Meristems --- Meristems --- In vitro culture --- In vitro culture --- Lutte --- Cucumber mosaic virus --- Banana streak virus --- Lutte --- Cucumber mosaic virus --- Banana streak virus
Dissertation
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Potatoes --- Potatoes --- Potato Y potyvirus --- Potato Y potyvirus --- Cucumber mosaic cucumovirus --- Cucumber mosaic cucumovirus --- Viroses --- Viroses --- Aphididae --- Aphididae --- Disease transmission --- Disease transmission --- toxicity --- toxicity --- lectins --- lectins --- Intercropping --- Intercropping --- Semiochemicals --- Semiochemicals --- extension activities --- extension activities --- China --- China
Book
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Plant viruses impose a serious threat on agriculture, which motivates extensive breeding efforts for viral resistant crops and inspires lasting interests on basic research to understand the mechanisms underlying plant immunity against viruses. Viruses are obligate intracellular parasites. Their genomes are usually small and only encode a few products that are essential to hijack host machinery for their nucleotide and protein biosynthesis, and that are necessary to suppress host immunity. Plants evolved multilayers of defense mechanisms to defeat viral infection. In this research topic, we gathered 13 papers covering recent advances in different aspects of plant immunity against viruses, including reviews on RNA silencing and R gene based immunity and their application, translational initiation factor mediated recessive resistance, genome editing based viral immunity, role of chloroplast in plant-virus interaction, and research articles providing new mechanistic insights on plant-virus interactions. We hope that this Research Topic helps readers to have a better understanding of the progresses that have been made recently in plant immunity against viruses. A deeper understanding of plant antiviral immunity will facilitate the development of innovative approaches for crop protections and improvements.
Virus --- Hormone --- Plant Immunity --- NBS-LRR --- Soybean mosaic virus --- Cucumber mosaic virus --- Genome editing --- RNA silencing --- Chloroplast --- Recessive Resistance --- Virus --- Hormone --- Plant Immunity --- NBS-LRR --- Soybean mosaic virus --- Cucumber mosaic virus --- Genome editing --- RNA silencing --- Chloroplast --- Recessive Resistance
Book
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Plant viruses impose a serious threat on agriculture, which motivates extensive breeding efforts for viral resistant crops and inspires lasting interests on basic research to understand the mechanisms underlying plant immunity against viruses. Viruses are obligate intracellular parasites. Their genomes are usually small and only encode a few products that are essential to hijack host machinery for their nucleotide and protein biosynthesis, and that are necessary to suppress host immunity. Plants evolved multilayers of defense mechanisms to defeat viral infection. In this research topic, we gathered 13 papers covering recent advances in different aspects of plant immunity against viruses, including reviews on RNA silencing and R gene based immunity and their application, translational initiation factor mediated recessive resistance, genome editing based viral immunity, role of chloroplast in plant-virus interaction, and research articles providing new mechanistic insights on plant-virus interactions. We hope that this Research Topic helps readers to have a better understanding of the progresses that have been made recently in plant immunity against viruses. A deeper understanding of plant antiviral immunity will facilitate the development of innovative approaches for crop protections and improvements.
Virus --- Hormone --- Plant Immunity --- NBS-LRR --- Soybean mosaic virus --- Cucumber mosaic virus --- Genome editing --- RNA silencing --- Chloroplast --- Recessive Resistance
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