TH37586A - Pest control methods - Google Patents

Abstract

DC60 (08/08/40) This invention provides a method of controlling the Austrianian fernakalis species (ethnobacteria corn borer) in cereals, especially corn and grains. Other crops, including not limited to the following species: corn, wheat, barley, rye, oats, rice, straw, millet, and grain-like groups. Forage grass, bamboo and sugar cane This invention provides a method of controlling the Austrian species Fernakalis. (Asian corn drill) in grain, especially in corn and other cereals They are also not restricted to species, corn, wheat, barley, rye, oat, rice, straw, millet, and their closest grain groups. Forage grass, bamboo and sugar cane

Claims (3)

1.Methods for plant protection Including the trees from the destruction of the Austrian species Fernakalis are either direct or Indirectly by using it with plants or seeds or cultivated areas of Plants with the active component of toxin Basilus species proteins 2. Referred methods According to claim 1, it refers to toxin protein as It is a toxin protein of Bacillus Turing Gianlis 3. Method claimed According to claim 1, it refers to toxin protein as A toxin, a protein of Bacillus Serious 4. Method claimed. According to claim 1, it refers to toxin protein as It is a type of drive protein toxin, popular tri-day protein, implied more than that. Is the type of carbohydrate, and the most popular Is the protein tri-day A (B). 5. Method claimed. According to claim 4, the claim that toxin protein is It is tri-day protein toxin, respectively, numbers 53 to 55. According to claim 1, it refers to toxin protein as Is a type of VIP protein toxin, popular type of VIP one protein, such as VIP one protein (A) or pro VIP one (A) or VIP two type protein, such as protein VIP TOA (A) or VIP TOA (B) protein or combination of VIP One protein and VIP Two protein 7. Referred Method According to claim 1, it refers to toxin protein as It is a type of VIP 3 protein toxin, such as VIP 3 A protein (A) or VIP 3 A protein (B). According to claims 6 through 7, the claim that toxin protein is As toxin protein That it is the VIP type of protein, in order of specific numbers 1,2,4-7,17-24,26-32,35,36,39,40,42,43,45,46,49,50,51 or 52 9. According to claim 1, that refers to toxin, a protein that is applied to plants as a component of a pesticide 1 0. According to claim 9, the claim refers to the pesticide components. That it consists of small organisms 1 1. Method claimed According to claim 1 or 9, which refers to toxin protein as tri-day protein 1, 2. Referral method. According to claim 9, the claim refers to the pesticide components. That it consists of at least one of Tri-day protein toxin Or small creatures, popular Basillus Turing Gianlis And / or serous bacillus, containing at least one gene that controls the production of toxin Simultaneously with the appropriate carrier 1 3. The method referred to. According to claim 12, that micro-organisms refer to Is an organism that exists according to nature, but has at least one of the type of toxin that regulates the The protein toxin is created. 1 4. Method claimed. According to claim 10, that micro-organisms refer to Is the natural existence of at least one of the tri-type toxin genes, preferably drawan gene toxin, more popular. Toxin is the drawan A gene, and the most popular is Toxin Drywan A (B) 1. According to claim 12, that micro-organisms refer to Is a recombinant organism that contains at least one of the tri-type toxin genes in the form of a recombinant that regulates the production of toxin 1 6. Methods mentioned claim According to claim 12, that micro-organisms refer to Is a recombinant organism that contains at least one of the tri-type toxin genes, the most popular is the toxin genes drywan A, and the most popular is the toxin gene drawan A ( B) 1 7. Means of making a claim According to claim 10, claiming the pesticide component is Consist of at least one Of toxin, the VIP type of protein Or small organisms, popular Bacillus Turing Gianlis And / or serous bacillus cord, containing at least one gene that controls the production of toxin at the same time as the appropriate carrier. According to claim 10, that micro-organisms refer to It is an organism that exists according to nature but contains at least one of the VIP proteins that regulate the production of toxin, preferably the VIP OneA (A) protein or the VIP One A protein gene. (B) or VIP II protein genes, such as VIP TOA (A) protein or VIP IIA protein (B) 1 9. Referral Method According to claim 10, that micro-organisms refer to Is an organism that exists according to nature but contains at least 1 of the VIP protein, such as the VIP tri A (A) protein or the VIP tri A (B) gene that regulates the formation of toxins. The aforementioned protein synthesis 2 0. Any method referred to According to claims 17-19, that toxin is referred to as Is a type of VIP protein toxin In order of specific numbers 1,2,4-7,17-24,26-32,35,36,39,40,42,43,45,46,49,50,51 or 52 2 1. Any referenced method. According to claim 11-16, that refers to the toxin protein 2 2. One of the claims 17 to 21, referring to the microscopic organisms, is said to be tri-protein. It is a recombinant organism. 2. 3. Method referred to. According to claims 1 through 22, it refers to toxin protein. That it is applied indirectly to plants, by transposing them With toxin gene That controls the creation of the chest Bacillus species synoprotein and toxin expression Such protein Sufficient to control the Austrianian fernakalis species (the Athenian corn borer), therefore transposed plants are awakened. In the area said there was Outbreak of pests 2 4. Method referred to. According to claim 23, referring to the toxin gene that controls the production of toxin, the protein of Basillus Turring, Gienlis, or Bacillus Serous 2. 5. Method referred to. According to claim 23, it refers to the gene toxin that regulates the production of tri-protein toxin, the more popular tri-day toxin, and the most popular. Is Trivalent A (B) proteins, for example, exist in the specific order numbers 53 to 55 2 6. Method referred to. According to claim 23, referring to toxin, the gene that controls the production of toxin, the VIP protein, popular VIP-1 proteins, such as VIP one (A) or proVI proteins. P One A (A) or VIP Two protein, such as VIP TwoA protein (A) or VIP TwoA protein (B) 2 7. Method referenced. According to claim 23, it refers to toxin, the genes that regulate the VIP3 type of toxin, such as VIP Tri A (A) or VIP Tri A protein. (B) 2 8. Means referred to. According to claim 23-27, referring to the toxin gene as a synthetic cotonusase. Optimized By using the most popular copon in plants 2 9. Method referred to. According to claims 23 and 28, referring to Toxin, the genes that regulate tri-day protein production, 0. According to claims 26 to 27, it refers to the toxin genes that regulate the production of VIP proteins in a specific sequence. 1,2,4-7,17-24,26-32,35,36,39,40,42,43,45,46,49,50,51 or 52 3 1. Any referenced method. According to claims 1 to 30, referring to crops intended to be protected as grain 3 2. Methods referred to. In accordance with claim 31, which refers to crops intended to be protected as corn 3 3. Any cited method. According to claims 1 to 32, at least referred to are Toxin, a tri-protein protein, has been used either directly or indirectly on plants. Or seeds or plantations Planting of plants that need protection In conjunction with VIP protein toxin in sufficient quantities to control Aesian corn borer pests (Austriania Fernakalis) 3 4. Any referenced method. In accordance with claims 1 through 32, that refer to the active component as Is a protein dietary (B) 3. 5. Any method referred to In accordance with claims 1 through 32, that refer to the active component as Is a type of protein VIP 3. 6. The use of active components Specified in the hand Prior rights For pest control Austriania Fernacalis (Asian corn borer) in grain 3 7. Use of transgenic crops specified in claim 23 for pest control. Ostrinia Fernakalis (Asian corn auger) in grain cereal 3 8. Use of recombinant or transgenic microorganisms. As mentioned to any Of claims 23 to 30, there are DNA molecules paired with stand-type, tri-type, or VIP-type that regulate the production of toxin proteins, respectively. Under moderate tightening conditions For pest control Austriania fernakalis (Asian corn auger) in grain 3 9. Commercial bags containing the seeds of transgenic plants containing controlled gene Toxin. Toxin protein formation of bacillus thuringianlis and the expression of such protein toxin in sufficient quantities to regulate the Austrianian fernakalis species (Asian corn borer). ) Simultaneously with labeling is recommended for pest control use of Austriania fernakalis (Asian corn punch) in grains 4 0. Commercial bags containing trans grain. Genic or small organisms, in particular the thuringian bacillus and / or the serous bacillus, with at least Sin that controls the production of toxin proteins. As was set before In claims 1 to 30, 32 and 33 and the expression of Toxin Such protein In sufficient quantities to control Austriania fernakalis species (Asian corn punch) simultaneously with recommended labeling for use. For pest control Austriania fernakalis (Asian corn drill) in grain 4. 1. Agricultural methods, with reference to transgenic crops Or the seedlings used It consists of toxins, genes that regulate the production of toxin, bacillus species protein and toxin expression. Such protein. In sufficient quantities to control Austrianian fernakalis species (Asian corn pits) or transgenic seeds. That are defined as referred to in any of the claims 23 to 32 4 2. Any method referred to. According to claims 18 to 26, it refers to at least the trichinoprotein has been shown in plants to be protected. In conjunction with VIP protein toxin in sufficient amounts to control Sesamia 4 pests. 3. Ingredients have active components. Is at least Synthetics, drive proteins and VIP proteins In an effective amount of insecticide with a commercially acceptable carrier Agricultural Sciences (43 claims, 8 pages, -Figure)