植物病原体相关的专利数据

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
141	抗病原体剤として有用な改変植物ディフェンシン	JP2013552071	2012-02-07	JP6154747B2	2017-06-28	デルヴェールデンニコールヴァン; マリリンアンアンダーソン

142	食肉、植物もしくは植物の一部分上の病原体検出および疾患管理のための方法	JP2017513778	2015-09-10	JP2017532026A	2017-11-02	ティー．ビーソン，４世，ウィリアム; マクリーン，ダニエル; コーエン，クリスティーナ
食肉、植物もしくは植物の一部分に影響を及ぼす病原体を検出するための方法が提供される。さらに、食肉、植物もしくは植物の一部分のための疾患を予測するための方法および/または疾患管理のための方法も提供される。一部の実施形態において、核酸に基づく増幅を含む方法が提供される。そのような核酸に基づく増幅方法の例には、定量的ポリメラーゼ連鎖反応(qPCR)およびリコンビナーゼポリメラーゼ増幅(RPA)が含まれる。
143	Plant disease control agent of vegetable origin	JP2008306279	2008-12-01	JP2010126524A	2010-06-10	TAMURA KOKICHI; ISHII HIDEO
PROBLEM TO BE SOLVED: To develop and provide a plant disease control agent which is of natural origin, effective against plant diseases and safe. SOLUTION: The plant disease control agent includes one or more kinds selected from among Yucca extracts, Sapindus mukurossi extracts, and Camellia oleifera extracts. COPYRIGHT: (C)2010,JPO&INPIT
144	PLANT-PATHOGEN RESISTANCE	EP99959553.1	1999-12-14	EP1141348A1	2001-10-10	Denecke, Jurgen; Jelitto, Edith
The present invention provides a method of reducing the period within which a plant's natural defence mechanism responds to attack by a plant pathogen, the method comprising causing the plant to maintain in at least a part of the plant a level of BiP, or a homologue thereof, which is greater than the endogenous level for said plant in non-stressful conditions. The invention also provides for a modified plant produced by the method of the invention.
145	Controlling agent against plant viral blight	JP2006008783	2006-01-17	JP2007191401A	2007-08-02	OKA NORIKUNI; OKI TAKEHIRO; HONDA YOHACHIRO
PROBLEM TO BE SOLVED: To provide a controlling agent against plant viral blight that controls plant viral blight. SOLUTION: The controlling agent against plant viral blight comprises a cellulase. A method for controlling plant viral blight comprises applying the controlling agent on plants. Preferably, the cellulase is one derived from a filamentous fungus belonging to the genus Trichoderma or the genus Acremonium. COPYRIGHT: (C)2007,JPO&INPIT
146	Controlling agent against viral blight of plant	JP21169884	1984-10-09	JPS6191110A	1986-05-09	MISATO ASATADA; KOU KOUDOU; OGAWA TOMOYA; NAKAHARA YOSHIAKI; AOKI KATSUMICHI; TOKUDA TAKURO
PURPOSE: The titled controlling agent showing improved controlling effects on viral blights of plants (especially vegetables, tobacco, etc.) free from phytotoxicity, containing a partially novel uracil derivative such as an N- substituted-5-azauracil, etc. as an active ingredient. CONSTITUTION: A controlling agent containing one or more compounds selected from partially novel substances shown by the formula IWformula III (R ₁ and R ₂ are H, alkyl, aryl, hydroxyalkoxyalkyl, acetyloxyalkoxyalkyl, aralkyl, or R ₂ is further N-alkylamido, or hydroxyalkyl; R ₃ is H, or aralkyl; R ₄ is H, alkoxy, or R ₃ and R ₄ are linked to form single bond; R ₅ is alkyl; R ₆ and R ₇ are H, acetyloxyalkoxyalkyl; with the proviso that R ₁WR ₃, R ₆ and R ₇ do not show H simultaneously) as an active ingredient. Consequently, the controlling agent shows improved controlling effects on viral blights of plants such as tobacco mosaic viral disease of tomato, etc., has low toxicity, and no phytotoxicity at all. COPYRIGHT: (C)1986,JPO&Japio
147	STEIGERUNG DER PATHOGENABWEHR IN PFLANZEN	EP06805760.3	2006-09-19	EP1940229A2	2008-07-09	THIELERT, Wolfgang; ANDERSCH, Wolfram; ECKES, Peter; BENTING, Jürgen
The invention relates to a method for increasing a plant pathogenic defence by chloronicotinyl treatment. The chloronicotinyls make it possible to obtain a good protection of plants against damages caused by fungal, bacterial or viral pathogens independently of insect control. The anti-pathogenic defences are obtainable by inducing PR proteins following the treatment by at least one type of chloronicotinyl.
148	Plant pathogen resistance	US12191833	2008-08-14	US08318786B2	2012-11-27	Jean T. Greenberg; Ho Won Jung; Timothy Tschaplinski
Azelaic acid or its derivatives or analogs induce a robust and a speedier defense response against pathogens in plants. Azelaic acid treatment alone does not induce many of the known defense-related genes but activates a plant's defense signaling upon pathogen exposure.
149	Plant Pathogen Resistance	US14884874	2015-10-16	US20160029622A1	2016-02-04	Jean T. Greenberg; Ho Won Jung; Timothy Tschaplinski
Azelaic acid or its derivatives or analogs induce a robust and a speedier defense response against pathogens in plants. Azelaic acid treatment alone does not induce many of the known defense-related genes but activates a plant's defense signaling upon pathogen exposure.
150	Plant pathogen resistance	US13657557	2012-10-22	US09161533B2	2015-10-20	Jean T. Greenberg; Ho Won Jung; Timothy Tschaplinski
Azelaic acid or its derivatives or analogs induce a robust and a speedier defense response against pathogens in plants. Azelaic acid treatment alone does not induce many of the known defense-related genes but activates a plant's defense signaling upon pathogen exposure.
151	식물병원균의 길항미생물,이것을 포함하는 미생물제제 및 이것을 이용한 식물병원균의 방제방법	KR1019980054045	1998-12-08	KR1020010109531A	2001-12-12	정영륜; 김중환; 이경우; 류기중
본 발명은 키틴분해능과 항생물질 생성능을 함께 가지는 미생물로 이루어지는 미생물 농약 제제 및 이를 이용한 식물병원균 방제 방법에 관한 것이다. 본 발명의 미생물 제제는 Fusarium oxysporumm, F. solani, Rhizoctonia solani 등 주요 토양병원균의 생장을 억제할 수 있기 때문에 새로운 형태의 환경친화적인 무공해 농약으로 이용될 수 있다.
152	PLANT PATHOGENIC DEFENCE INCREASE	PCT/EP2006009072	2006-09-19	WO2007033810A3	2008-05-15	THIELERT WOLFGANG; ANDERSCH WOLFRAM; ECKES PETER; BENTING JUERGEN
The invention relates to a method for increasing a plant pathogenic defence by chloronicotinyl treatment. The chloronicotinyls make it possible to obtain a good protection of plants against damages caused by fungal, bacterial or viral pathogens independently of insect control. The anti-pathogenic defences are obtainable by inducing PR proteins following the treatment by at least one type of chloronicotinyl.
153	STEIGERUNG DER PATHOGENABWEHR IN PFLANZEN	PCT/EP2006/009072	2006-09-19	WO2007033810A2	2007-03-29	THIELERT, Wolfgang; ANDERSCH, Wolfram; ECKES, Peter; BENTING, Jürgen
Die Erfindung betrifft ein Verfahren zur Steigerung der pflanzeneigenen Abwehrkräfte durch die Behandlung mit Chlornikotinylen. Chlornikotinyle führen unabhängig von einer Insektenbekämpfung zu einem guten Schutz der Pflanze vor Schäden durch pilzliche, bakterielle oder virale Pathogene. Die Abwehr der Pathogene erfolgt durch die Induktion von PR Proteinen als Folge der Behandlung mit mindestens einem Chlornikotinyl.
154	식물 병원체 억제 방법	KR1019960702741	1994-10-25	KR1019960705940A	1996-11-08	로렌스,엘렌,브리스킨; 리바인,엘렌,비트리스; 샤,딜립쿠마,마간랄

155	식물병원균 제어방법	KR1019960027712	1996-07-10	KR1019970005060A	1997-02-19	다니엘루이스라우너; 엔리크루이스미첼로티; 윌리죠우윌슨; 데이비드해밀톤영
본 발명에 의한 식물병원균 제어방법은 선택된 살균 활성 N-아세토닐벤즈아미드화합물 및 망간-아연 에틸렌비스(디티오카르밤산염), 망간 에틸렌비스(디티오카르밤산염), 아연 암모나이트 에틸렌비스(디티오카르밤산염), 아연 에틸렌비스(디티오카르밤산염), 2-시아노-N((에틸아미노)카르보닐)-2-(메톡시이미노)아세트아미드 및 (E,Z)4-(3-(4-클로로페닐)-3-(3,4-디메톡시페닐)아크릴로일) 모르폴린으로 구성되는 그룹으로 부터 선택된 제2 살균활성화합물을 식물종자, 식물의 잎 혹은식물의 성장매질에 적용하는 단계를 포함하며 이는 같은 화합물을 별도로 사용하는 경우에 비하여 보다 우수한 살균활성을 나타낸다.
156	病原抵抗性植物体およびその誘導方法および植物体栽培システム	JP2013525789	2012-07-30	JPWO2013015442A1	2015-02-23	伊藤　真一; 真一伊藤; 康臣荊木; 和正吉村
【課題】植物体の生育や形態形成、あるいは、光合成作用に悪影響を及ぼすおそれがなく、かつ、植物病原菌の自然感染が起こり得る環境下において、薬剤を使用しないでも,あるいは,薬剤の使用量を少なくしても病害が発生し難い病原抵抗性植物体を提供する。【解決手段】波長390−420nmの間にピークを有する紫色光11を葉に照射する紫色光照射処理を行うことによって誘導される病原抵抗性植物体1であって、病原防御応答関連遺伝子が紫色光照射処理を行わない同種の植物体よりも発現されており、病原防御応答関連遺伝子は、サリチル酸合成経路関連遺伝子,又は,サリチル酸によって誘導される遺伝子群であることを特徴とする病原抵抗性植物体による。【選択図】図1
157	CONTROL FOR PLANT AND PLANT PRODUCT PATHOGENS	US10907010	2005-03-16	US20060211575A1	2006-09-21	Frederick Sedun; Hellmut Kulenkampff; Diana Parker; George Puritch
An environmentally safe, pesticidally effective composition is provided to treat and/or prevent plant or plant product damage caused by bacterial and fungal plant pathogens. In an exemplary embodiment, a composition is provided that includes a pesticidally effective concentration of at least one betaine as well as at least one solvent.
158	PLANT PATHOGEN RESPONSE GENE	PCT/US1998/004077	1998-02-27	WO98037755A1	1998-09-03
DNA molecules encoding a family of zinc-finger DNA binding domains, which appears to function to monitor levels of a superoxide-dependent signal and negatively regulates a plant cell death pathway, including wild-type LSD1, LOL1 and LOL2, and proteins which physically interact with LSD1, indicating a function with LSD1 of controlling plant cells' response to pathogens.
159	PLANT PATHOGEN RESISTANCE	PCT/US2008073169	2008-08-14	WO2009055126A3	2009-09-24	GREENBERG JEAN T; JUNG HO WON; TSCHAPLINSKI TIMOTHY
Azelaic acid or its derivatives or analogs induce a robust and a speedier defense response against pathogens in plants. Azelaic acid treatment alone does not induce many of the known defense-related genes but activates a plant's defense signaling upon pathogen exposure.
160	Protection of plants against plant pathogens	US798223	1991-11-25	US5422108A	1995-06-06	T. Erik Mirkov; Leona C. Fitzmaurice
Transgenic plants that express properly processed ruminant or ruminant-like lysozymes and that are resistant to bacterial pathogens, including both gram-negative and gram-positive bacteria, are provided. A preferred embodiment provides transgenic tobacco plants that express a sufficient concentration of properly processed bovine lysozyme c2 to render the plants less susceptible to bacterial plant pathogens.Methods and compositions for treatment of plants, seeds and other plant tissues prior to or after exposure or infection with bacterial plant pathogens are also provided. In particular, compositions and methods of contacting plants with such compositions that contain a concentration of bovine lysozyme c2 or other ruminant or ruminant-like lysozyme are provided.A signal sequence that is effective for properly processing heterologous proteins that are expressed in transgenic plants is also provided.

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