| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | VERWENDUNG VON WACHSTUMSREGULATOREN ZUR VERRINGERUNG ODER VERHINDERUNG DER KONTAMINATION VON PFLANZEN UND PFLANZENPRODUKTEN MIT TOXINEN VON TRICHOTHECEN-PRODUZIERENDEN SCHIMMELPILZEN | PCT/EP2006/064367 | 2006-07-18 | WO2007009988A1 | 2007-01-25 | RADEMACHER, Wilhelm; COMPANYS, Veronica; SPEAKMAN, John-Bryan; HERRMANN, Helmut; STROBEL, Dieter; SEMAR, Martin |
Die vorliegende Erfindung betrifft die Verwendung von Wachstumsregulatoren, die unter Acylcyclohexandion-Derivaten und quartären Ammoniumverbindungen ausgewählt sind, zur Verringerung oder Verhinderung der Kontamination von Pflanzen und Pflanzenprodukten mit Mykotoxinen, die von Trichothecen-produzierenden Pilzen gebildet werden. |
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| 222 | NEUROTOXINS EXHIBITING SHORTENED BIOLOGICAL ACTIVITY | EP12783603.9 | 2012-11-08 | EP2776457A1 | 2014-09-17 | SCHMIDT, Michael; FREVERT, Jürgen; HOFMANN, Fred; GROER, Gerhard |
| The present invention relates to the pharmaceutical field. Specifically, it contemplates a polynucleotide encoding a neurotoxin polypeptide exhibiting a reduced duration of the biological effect in a subject, wherein said polypeptide comprises at least one E3 ligase recognition motif in the light chain, wherein said E3 ligase recognition motif is preferably abinding motif for the E3 ligase MDM2. The invention further pertains to polypeptides encoded by the polynucleotide of the invention as well as polypeptides comprising one or more amino acid substitutions. Further encompassed by the present invention are vectors and host cells comprising the said polynucleotide, polypeptides encoded thereby and antibodies specifically binding to the polypeptides. Moreover, the invention relates to medicaments comprising said polynucleotides and polypeptides, as well as specific therapeutic applications thereof. Furthermore, the present invention contemplates methods for the manufacture of the polypeptides and medicaments. | ||||||
| 223 | Plant-optimized genes encoding pesticidal toxins | EP05022193.6 | 1998-11-04 | EP1676922B1 | 2008-09-17 | Cardineau, Guy A.; Stelman, Steven J.; Narva, Kenneth E. |
| A polynucleotide comprises a sequence optimized for expression in a plant, wherein said sequence encodes a Cry1Ac pesticidal toxin. Such a polynucleotide can be used to transform a host cell, and to produce a toxin useful for controlling pests. | ||||||
| 224 | DNA sequence coding for a plant toxin of the ricin type, or a portion thereof | EP84304801.8 | 1984-07-13 | EP0145111B1 | 1990-05-09 | Lord, John Michael; Roberts, Lynne Margaret; Lamb, Francis Ian |
| 225 | METHOD FOR THE INDUSTRIAL PURIFICATION OF BIOLOGICALLY ACTIVE PHYCOTOXINS | EP10755518 | 2010-03-18 | EP2412714A4 | 2012-10-10 | LAGOS GONZALEZ MARCELO SANTIAGO |
| 226 | FUNGAL GENE ENCODING RESISTANCE TO THE PHYTOTOXIN CERCOSPORIN | EP97916152.0 | 1997-03-21 | EP0934401A1 | 1999-08-11 | UPCHURCH, Robert, G.; CALLAHAN, Terrence, M.; EHRENSHAFT, Marilyn |
| The present invention is directed to nucleic acid and amino acid sequences which are responsible for moving the fungal toxin cercosporin across the plasma membrane of living cells. The DNA can be introduced into a plant using conventional methods of transformation in order to confer cercosporin resistance to plants. | ||||||
| 227 | DIMETHOMORPH AS SAFENER FOR PESTICIDES WITH PHYTOTOXIC EFFECTS | EP10703286.4 | 2010-02-11 | EP2395833B1 | 2017-06-28 | WILHELM, Ronald; HEGER, Martin; JAMET, Laurent |
| 228 | Plant-optimized genes encoding pesticidal toxins | EP05022193.6 | 1998-11-04 | EP1676922A3 | 2006-08-30 | Cardineau, Guy A.; Stelman, Steven J.; Narva, Kenneth E. |
A polynucleotide comprises a sequence optimized for expression in a plant, wherein said sequence encodes a Cry1Ac pesticidal toxin. Such a polynucleotide can be used to transform a host cell, and to produce a toxin useful for controlling pests. |
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| 229 | FUNGAL GENE ENCODING RESISTANCE TO THE PHYTOTOXIN CERCOSPORIN | EP97916152 | 1997-03-21 | EP0934401A4 | 2002-11-20 | UPCHURCH ROBERT G; CALLAHAN TERRENCE M; EHRENSHAFT MARILYN |
| 230 | TRANSGENIC PLANTS EXPRESSING i PHOTORHABDUS /i TOXIN | EP00954055.0 | 2000-08-11 | EP1203077A1 | 2002-05-08 | PETELL, James, K.; MERLO, Donald, J.; HERMAN, Rod, A.; ROBERTS, Jean, L.; GUO, Lining; SCHAFER, Barry, W.; SUKHAPINDA, Kitisri; MERLO, Ann, Owens |
| Novel polynucleotide sequences that encode insect toxins TcdA and TcbA have base compositions that differ substantially from the native genes, making them more similar to plant genes. The new sequences are suitable for use for high expression in both monocots and dicots. Transgenic plants with a genome comprising the nucleic acid of SEQ ID NO:4 are insect resistant. | ||||||
| 231 | Tissue-specific toxin expression in plants | EP97115220.2 | 1990-12-20 | EP0825262A3 | 1998-03-18 | Nasrallah, June B.; Nasrallah, Mikhail E.; Miflin, Benjamin J.; Thorsness, Mary K. |
The present invention describes a tissue-specific promoter directing expression of a linked toxin gene in the reproductive tissue of a recipient plant. |
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| 232 | Agent for inducing phytoalexin and method for inducing phytoalexin | US343453 | 1994-11-28 | US5602111A | 1997-02-11 | Akira Misaki; Keiji Sekiya; Kazuhiko Yamatoya |
| An agent for inducing a phytoalexin comprising a xyloglucan-oligosaccharide as an active ingredient thereof and a method for inducing a phytoalexin in a plant body comprising an application of a xyloglucan-oligosaccharide to the plant. The present invention is useful for promoting growth of a plant and maintaining freshness of a plant while a crop has been grown, or a vegetable or a fruit has been transported and/or stored. | ||||||
| 233 | Dioscorea plant inoculated with japanese yam mosaic virus attenuated strain ymo6 and resistant to japanese yam mosaic virus strong poison strain, and method for determining presence or absence of japanese yam mosaic virus infection except ymo6 in the dioscorea plant | JP2009015295 | 2009-01-27 | JP2010172205A | 2010-08-12 | ITO SHINICHI; KAJIHARA HIROSHI; MURAMOTO KAZUYUKI |
| <P>PROBLEM TO BE SOLVED: To make a new JYMV attenuated strain YMO6 preventing the affection of Japanese yam mosaic virus strong poison strain and enabling the production of stable Japanese yam by a low temperature treatment, and to provide a Japanese yam exhibiting a cross protection against the JYMV strong poison strain from the Japanese yam infected with the YMO6, and to analyze the genome of YMO6 to enable determination of the presence or absence of Japanese yam mosaic virus infection except the YMO6. <P>SOLUTION: A plant having Japanese yam mosaic virus attenuated strain YMO6 having a RNA represented by a specific base sequence in a Dioscorea plant, and resistant to Japanese yam mosaic virus strong poison strain can be made. The infection of the resistant plant can be determined by IC-RT-PCR-RFLP-analyzing a mutation in the NIb to CP region of Japanese yam mosaic virus attenuated strain YMO6 gene and using a restriction enzyme HaeIII. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 234 | Methods for treating a plant exposed to a phytotoxicant | US12846521 | 2010-07-29 | US08821909B2 | 2014-09-02 | Thomas T. Yamashita |
| Methods of treating a plant exposed to a phytotoxicant are provided. Embodiments of the subject methods include identifying a plant exposed to a phytotoxicant and applying an assimilable carbon-skeleton energy component-comprising composition to the identified plant. Embodiments of the subject compositions may include one or more of a macronutrient component, micronutrient component, vitamin/cofactor component, complexing agent and microbe. Kits for use in practicing the subject invention are also provided. The subject methods find use in a variety of different applications in which a plant is phytotoxic or at least in danger of becoming phytotoxic due to exposure or potential exposure to a phytotoxicant. | ||||||
| 235 | Method of protecting seeds treated with a phytotoxic agent | US10705062 | 2003-11-10 | US07836630B2 | 2010-11-23 | Jawed Asrar; Vladmir O. Bekker; Yiwei Ding |
| A method of improving germination rate in pesticide-treated plant seeds involves forming a pesticide-free polymer coating on a plant seed before treating the seed with a pesticide, where the type of polymer and the coating thickness are designed to block phytotoxic contact of the pesticide with the seed while allowing sufficient transfer of oxygen to maintain the seed's viability and sufficient transfer of moisture under environmental conditions normally encountered by the seed after planting to enable its germination; and then treating the coated plant seed with a pesticide. Seeds that have been treated by this method, and plants that are grown from the treated seeds are also described. | ||||||
| 236 | Transgenic plants expressing photorhabdus toxin | US10435835 | 2003-05-12 | US06717035B2 | 2004-04-06 | James K. Petell; Donald J. Merlo; Rod A. Herman; Jean L. Roberts; Lining Guo; Barry W. Schafer; Kitisri Sukhapinda; Ann Owens Merlo |
| Novel polynucleotide sequences that encode insect toxins TcdA and TcbA have base compositions that differ substantially from the native genes, making them more similar to plant genes. The new sequences are suitable for use for high expression in both monocots and dicots. Transgenic plants with a genome comprising the nucleic acid of SEQ ID NO:4 are insect resistant. | ||||||
| 237 | Protein sequence of the plant toxin gelonin | US09316071 | 1999-05-20 | USRE37462E1 | 2001-12-04 | Michael Rosenblum; William J. Kohr; Bharat Aggarwal |
| This invention relates to substantially purified gelonin, toxic fragments thereof, the DNA sequences encoding gelonin and use of the DNA for producing, by recombinant technology, gelonin, toxic fragments thereof and fusion proteins. More specifically, the invention relates to the primary amino acid sequence of gelonin, and of the DNA encoding said gelonin and the production of synthetic gelonin and toxic fragments thereof. | ||||||
| 238 | Fungal gene encoding resistance to the phytotoxin cercosporin | US620077 | 1996-03-21 | US6077995A | 2000-06-20 | Robert G. Upchurch; Terrence M. Callahan; Marilyn Ehrenshaft |
| The present invention is directed to nucleic acid and amino acid sequences which are responsible for moving the fungal toxin cercosporin across the plasma membrane of living cells. The DNA can be introduced into a plant using conventional methods of transformation in order to confer cercosporin resistance to plants. | ||||||
| 239 | Transformed plant with Bacillus thuringiensis toxin gene | US881340 | 1997-06-24 | US5942658A | 1999-08-24 | William P. Donovan; Yuping Tan; Christine S. Jany; Jose M. Gonzalez, Jr. |
| A Bacillus thuringiensis strain isolate, designated B.t. strain EG5847, exhibits insecticidal activity against lepidopteran insects. Two novel toxin genes from B.t. strain EG5847 designated cryET4 and cryET5 produce insecticidal proteins with activity against a broad spectrum of insects of the order Lepidoptera, The cryET4 gene has a nucleotide base sequence shown in FIG. 1 and listed in SEQ ID NO:1 and produces a CryET4 gene product having the deduced amino acid sequence shown in FIG. 1 and listed in SEQ ID NO:2. The cryET5 gene has a nucleotide base sequence shown in FIG. 2 and listed in SEQ ID NO:3 and produces a CryET5 gene product having the deduced amino acid sequence shown in FIG. 2 and listed in SEQ ID NO:4. | ||||||
| 240 | Methods and system for treating a plant exposed to a phytotoxicant | US14340366 | 2014-07-24 | US09517972B2 | 2016-12-13 | Thomas T. Yamashita |
| Methods of treating a plant exposed to a phytotoxicant are provided. Embodiments of the subject methods include identifying a plant exposed to a phytotoxicant and applying an assimilable carbon-skeleton energy component-comprising composition to the identified plant. Embodiments of the subject compositions may include one or more of a macronutrient component, micronutrient component, vitamin/cofactor component, complexing agent and microbe. Kits for use in practicing the subject invention are also provided. The subject methods find use in a variety of different applications in which a plant is phytotoxic or at least in danger of becoming phytotoxic due to exposure or potential exposure to a phytotoxicant. | ||||||
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