| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | Methods for Transforming Plants to Express Delta-Endotoxins | US12762877 | 2010-04-19 | US20100319087A1 | 2010-12-16 | David R. Corbin; Charles P. Romano |
| Disclosed is a means of controlling plant pests by a novel method of expressing Cry2A B. thuringiensis δ-endotoxins in plants. The invention comprises novel nucleic acid segments encoding proteins comprising Cry2A B. thuringiensis δ-endotoxins. The nucleic acid segments are disclosed, as are transformation vectors containing the nucleic acid segments, plants transformed with the claimed segments, methods for transforming plants, and methods of controlling plant infestation by pests. | ||||||
| 242 | Method and Composition for the Modulation of Toxin Resistance in Plant Cells | US11837173 | 2007-08-10 | US20080058211A1 | 2008-03-06 | Stanley Roux |
| The present invention includes a methods and compositions that modulate drug resistance in a plant through the addition of one or more extracellular nucleotides that contact a plant cell. | ||||||
| 243 | Plants transformed to express Cry2A δ-endotoxins | US10198478 | 2002-07-18 | US07064249B2 | 2006-06-20 | David R. Corbin; Charles P. Romano |
| Disclosed is a means of controlling plant pests by a novel method of expressing Cry2A B. thuringiensis δ-endotoxins in plants. The invention comprises novel nucleic acid segments encoding proteins comprising Cry2A B. thuringiensis δ-endotoxins. The nucleic acid segments are disclosed, as are transformation vectors containing the nucleic acid segments, plants transformed with the claimed segments, methods for transforming plants, and methods of controlling plant infestation by pests. | ||||||
| 244 | Plant-optimized genes encoding pesticidal toxins | US09826660 | 2001-04-05 | US20010026940A1 | 2001-10-04 | Guy A. Cardineau; Steven J. Stelman; Kenneth E. Narva |
| The subject invention concerns materials and methods useful in the control of pests and, particularly, plant pests. More specifically, the subject invention provides plant-optimized, polynucleotide sequences that encode pesticidal toxins (full-length and truncated). Truncated polynucleotide sequences can be used to produce truncated toxins or for the production of fusion (or chimeric) genes and proteins. The polynucleotide sequences of the subject invention have certain modifications, compared to wild-type sequences, that make them particularly well-suited for optimized expression in plants. Using techniques known to those skilled in the art, the polynucleotide sequences described herein can be used to transform plants in order to confer pest resistance upon said plants. The subject invention further provides plant-optimized, polynucleotide sequences that encode C-terminal, protoxin portions that can be used with genes encoding truncated, core toxins to produce full-length toxins. In addition, the subject invention provides preferred amino acid sequences that are encoded by the plant-optimized polynucleotide sequences disclosed herein. | ||||||
| 245 | Plant-optimized genes encoding pesticidal toxins | US09178252 | 1998-10-23 | US06218188B1 | 2001-04-17 | Guy A. Cardineau; Steven J. Stelman; Kenneth E. Narva |
| The subject invention concerns materials and methods useful in the control of pests and, particularly, plant pests. More specifically, the subject invention provides plant-optimized, polynucleotide sequences that encode pesticidal toxins (full-lengthand truncated). Truncated polynucleotide sequences can be used to produce truncated toxins or for the production of fusion (or chimeric) genes and proteins. The polynucleotide sequences of the subject invention have certain modifications, compared to wild-type sequences, that make them particularly well-suited for optimized expression in plants. Using techniques known to those skilled in the art, the polynucleotide sequences described herein can be used to transform plants in order to confer pest resistance upon the plants. | ||||||
| 246 | Protein sequence of the plant toxin gelonin | US254662 | 1994-06-06 | US5631348A | 1997-05-20 | 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. | ||||||
| 247 | DNA sequences encoding the plant toxin gelonin | US327440 | 1994-10-21 | US5624827A | 1997-04-29 | Michael G. Rosenblum; Kenneth L. Beattie |
| The present invention provides the nucleotide sequence for a synthetic gene for the plant toxin gelonin and a process for producing, cloning and expressing this synthetic gene. The DNA sequence for a synthetic gene for gelonin as shown in sequence ID NO. 1. The present invention also provides expression vectors containing the DNA sequences for gelonin and cells transformed with these vectors. In addition, an immunotoxin comprising an antibody of conjugated to the protein gelonin. | ||||||
| 248 | Trapping of aflatoxins and phytoestrogens | US1573 | 1993-01-06 | US5487998A | 1996-01-30 | Pesi P. Umrigar; Shia S. Kuan |
| Halo, azido, and amino cyclodextrin/epichlorohydrin copolymers, methods of preparing the copolymers, and the use of the copolymers for removing aflatoxins and phytoestrogens from a sample, for detecting the presence of aflatoxins and phytoestrogens, and for quantifying aflatoxin and phytoestrogen levels. | ||||||
| 249 | Method of killing undesired plants and insects | US3723091D | 1968-07-17 | US3723091A | 1973-03-27 | ALLAIS A; GIRAULT P |
| PESTICIDAL HALOGENATED ORGANIC COMPOUNDS DERIVED FROM 1-PHENYL-2,2-DIHALOGENO ETHANOL, OF GENERAL FORMULA I:
WHEREIN X1 IS SELECTED FROM THE GROUP CONSISTING OF HYDROGEN, A HALOGEN ATOM, A NITRO GROUP, A SUBSTITUTED OR UNX2, IDENTICAL WITH X1 OR DIFFERENT FROM X1 IS SELECTED FROM THE GROUP CONSISTING OF HYDROGEN, A HALOGEN ATOM, A SUBSTITUTED OR UNSUBSTITUTED LOWER ALKYL AND A LOWE ALKYLOXYL, X3 AND X4, IDENTICAL WITH OR DIFFERENT FROM ONE ANOTHER AND IDENTICAL WITH OR DIFFERENT FROM X1 AND/OR X2 ARE SELECTED FROM THE GROUP CONSISTING OF HYDROGEN AND A HALOGEN ATOM, Y IS SELECTED FROM THE GROUP CONSISTING OF HYDROGEN, A LOWER ALKYL, A LOWE ACYL AND A GROUP DERIVED FROM A MINERAL ACID, Z IS SELECTED FROM THE GROUP CONSISTING OF HYDROGEN AND A LOWER ALKYL, HAL IS SELECTED FROM THE GROUP CONSISTING OF A CHLORINE, A BROMINE AND A IODINE ATOM. SUBSTITUTED LOWER ALKYL, AND A LOWER ALKYLOXY, (X1,X2,X3,X4-PHENYL)-CH(-O-Y)-C(-HAL)2-Z |
||||||
| 250 | Apparatus for applying liquid poison to plants | US16845937 | 1937-10-11 | US2123988A | 1938-07-19 | CORLEY ALEX M |
| 251 | Means and method of neutralizing insect and plant poisons | US39248329 | 1929-09-13 | US1913631A | 1933-06-13 | WITT GRAVES GEORGE DE |
| 252 | Methods for treating a plant exposed to a phytotoxicant | US10794187 | 2004-03-04 | US07906129B2 | 2011-03-15 | 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. | ||||||
| 253 | Methods for treating a plant exposed to a phytotoxicant | US10794187 | 2004-03-04 | US20050197252A1 | 2005-09-08 | Thomas 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. | ||||||
| 254 | Treating plants with phytotoxic,fluorosulfonated substituted phenols | US3453099D | 1966-07-07 | US3453099A | 1969-07-01 | POPOFF IVAN C; WHITAKER REGINALD LYON |
| 255 | Methods for transforming plants to express δ-endotoxins | US12762877 | 2010-04-19 | US08030542B2 | 2011-10-04 | David R. Corbin; Charles P. Romano |
| Disclosed is a means of controlling plant pests by a novel method of expressing Cry2A B. thuringiensis δ-endotoxins in plants. The invention comprises novel nucleic acid segments encoding proteins comprising Cry2A B. thuringiensis δ-endotoxins. The nucleic acid segments are disclosed, as are transformation vectors containing the nucleic acid segments, plants transformed with the claimed segments, methods for transforming plants, and methods of controlling plant infestation by pests. | ||||||
| 256 | Method of protecting seeds treated with a phytotoxic agent | US10705062 | 2003-11-10 | US20040118040A1 | 2004-06-24 | Jawed Asrar; Vladimir 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. | ||||||
| 257 | Transgenic plants expressing photorhabdus toxin | US10435835 | 2003-05-12 | US20030182685A1 | 2003-09-25 | 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 a nucleic acid of SEQ ID NO: 3 or SEQ ID NO:4 are insect resistant. | ||||||
| 258 | Phytotoxic compositions and method of use | US53573166 | 1966-03-21 | US3325270A | 1967-06-13 | OLIN JOHN F |
| 259 | 장관내독소 B 서브유닛과 ApxIIA 융합단편을 포함하는 재조합 유전자, 이를 발현하는 식물체 및 이의 용도 | KR1020100121786 | 2010-12-02 | KR1020120060334A | 2012-06-12 | 양문식; 김태금 |
| PURPOSE: A recombinant plant expression vector having a fusion protein containing E.coli endotoxin B subunit(LTB) gene and an Actinobacillus pleuropneumoniae-derived ApxIIA gene fragment is provided to effectively manufacture a vaccine for pleuropneumonia. CONSTITUTION: A recombinant plant expression vector has a fusion gene containing E.coli-derived endotoxin B subunit(LTB) gene and Actinobacillus pleuropneumoniae-derived ApxIIa gene fragment. The ApxIIA gene fragment is ApxIIA619-801 gene having a base sequence of sequence number 1. A method for preparing the LTB-ApxIIA fusion protein comprises a step of transforming a plant with a vector and expressing the fusion gene. A vaccine composition for pleuropneumonia contains LTB-ApxIIA fusion protein as an active ingredient. | ||||||
| 260 | 이극 공기 제트 스프레이, 오존화된 물과 유브이-씨 광선조사로 유해한 미생물과 해충으로부터 작물을 보호하는방법과 장치 | KR1020057019313 | 2004-04-11 | KR1020060057529A | 2006-05-26 | 스테펜한스피터 |
| The invention relates to a plant protection method using ozonised water and UV-C light, applying dipole electric air jet spray technology and wetting agents. | ||||||
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