Abstract: Soybean event 9582.816.15.1 comprises genes encoding Cry1 F, Cry1 Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products. Embodiments of the present disclosure relate to a new insect resistant and herbicide tolerant transgenic soybean transformation event, designated soybean event pDAB9582.816.15.1, comprising cry1 F v3 (cry1 F), cry1 Ac synpro (cry1 Ac) and pat v6 (pat), as described herein, inserted into a specific site within the genome of a soybean cell. Representative soybean seed has been deposited with American Type Culture Collection (ATCC) with the Accession No. ATCC Deposit No. PTA-12588. The DNA of soybean plants containing this event includes the junction/flanking sequences described herein that characterize the location of the inserted DNA within the soybean genome.

Abstract: A breeding stack of soybean event 9582.814.19.1 and soybean event pDAB4468.04.16.1 resulted in the novel soybean event pDAB9582.814.19.1::pDAB4468.04.16.1. Soybean event pDAB9582.814.19.1::pDAB4468.04.16.1 comprises genes encoding AAD-12, Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: Soybean event 9582.814.19.1 comprising genes encoding Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: This invention relates generally to a plant cell with increased yield, preferably under condition of transient and repetitive abiotic stress as compared to a corresponding non-transformed wild type plant cell by increasing or generating one or more activities of RING proteins in plants.

Abstract: Soybean event 9582.816.15.1 comprises genes encoding Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products. Embodiments of the present disclosure relate to a new insect resistant and herbicide tolerant transgenic soybean transformation event, designated soybean event pDAB9582.816.15.1, comprising cry1F v3 (cry1F), cry1Ac synpro (cry1Ac) and pat v6 (pat), as described herein, inserted into a specific site within the genome of a soybean cell. Representative soybean seed has been deposited with American Type Culture Collection (ATCC) with the Accession No. ATCC Deposit No. PTA-12588. The DNA of soybean plants containing this event includes the junction/flanking sequences described herein that characterize the location of the inserted DNA within the soybean genome.

Abstract: A breeding stack of soybean event 9582.814.19.1 and soybean event pDAB4468.04.16.1 resulted in the novel soybean event pDAB9582.814.19.1 :: pDAB4468.04.16.1. Soybean event pDAB9582.814.19.1 :: pDAB4468.04.16.1 comprises genes encoding AAD-12, CrylF, CrylAc (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: Soybean event 9582.814.19.1 comprises genes encoding Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: Soybean event 9582.814.19.1, wherein the event comprises genes encoding Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: This invention relates generally to a plant cell with increased yield, preferably under condition of transient and repetitive abiotic stress as compared to a corresponding non-transformed wild type plant cell by increasing or generating one or more activities of RING proteins in plants.

Abstract: Soybean event 9582.814.19.1 comprises genes encoding Cry1F, Cry1Ac (synpro), and PAT, affording insect resistance and herbicide tolerance to soybean crops containing the event, and enabling methods for crop protection and protection of stored products.

Abstract: The subject invention concerns the discovery of Bacillus thuringiensis isolates with advantageous activity against weevils. In preferred embodiments of the invention, B.t. isolates, or toxins therefrom, are used to control alfalfa weevils, boll weevils, and/or rice water weevils. The toxins can be administered to the pests through a variety of methods including the transformation of bacteria or plants to produce the weevil-active toxins.

Abstract: The subject invention concerns materials and methods useful in the control of pests and, particularly, plant pests. More specifically, the subject invention concerns novel genes and pesticidal toxins referred to as 86A1(b) and 52A1(b). In preferred embodiments, the subject toxins are used for controlling flea beetles of the genus Phyllotreta. Using the genes described herein, the transformation of plants can be accomplished using techniques known to those skilled in the art. In addition, the subject invention provides toxin genes optimized for expression in plants.

Abstract: The subject invention concerns the discovery of Bacillus thuringiensis isolates with advantageous activity against weevils. In preferred embodiments of the invention, B.t. isolates, or toxins therefrom, are used to control alfalfa weevils, boll weevils, and/or rice water weevils. The toxins can be administered to the pests through a variety of methods including the transformation of bateria or plants to produce the weevil-active toxins.

Abstract: The subject invention concerns material and methods useful in the control of pests and, particularly, plant pests. More specifically, the subject invention concerns novel genes and pesticidal toxins referred to as 86A1(b) and 52A1(b). In preferred embodiments, the subject toxins are used for controlling flea beetles of the genus Phyllotreta. Using the genes described herein, the transformation of plants can be accomplished using techniques known to those skilled in the art. In addition, the subject invention provides toxin genes optimized for expression in plants.

Abstract: The subject invention concerns the discovery of Bacillus thuringiensis isolates with advantageous activity against weevils. In preferred embodiments of the invention, B.t. isolates, or toxins therefrom, are used to control alfalfa weevils, boll weevils, and/or rice water weevils. The toxins can be administered to the pests through a variety of methods including the transformation of bacteria or plants to produce the weevil-active toxins.

Abstract: The subject invention concerns materials and methods useful in the control of pests and, particularly, the plant pests. More specifically, the subject invention concerns novel genes and pesticidal toxins referred to as 86A1(b) and 52A1(b). In preferred embodiments, the subject toxins are used for controlling flea beetles of the genus Phyllotreta. Using the genes described herein, the transformation of plants can be accomplished using techniques known to those skilled in the art. In addition, the subject invention provides toxin genes optimized for expression in plants.

Abstract: The subject invention concerns the discovery of Bacillus thuringiensis isolates with advantageous activity against weevils. In preferred embodiments of the invention, B.t. isolates, or toxins therefrom, are used to control alfalfa weevils, boll weevils, and/or rice water weevils. The toxins can be administered to the pests through a variety of methods including the transformation of bacteria or plants to produce the weevil-active toxins.

Abstract: The subject invention concerns the discovery of Bacillus thuringiensis isolates with advantageous activity against weevils. In preferred embodiments of the invention, B.t. isolates, or toxins therefrom, are used to control alfalfa weevils, boll weevils, and/or rice water weevils. The toxins can be administered to the pests through a variety of methods including the transformation of bacteria or plants to produce the weevil-active toxins.

Abstract: The subject invention concerns Bacillus thuringiensis microbes with activity against select coleopteran pests, e.g., Diabrotica sp., Hypera sp., and various flea beetles. For example, the B.t. isolates of the invention are active against alfalfa weevils (AW, Hypera brunneipennis), rape flea beetles (RFB, Phyllotreta cruciferae), and corn rootworms (CRW, Diabrotica undecimpunctata undecimpunctata). Thus, these microbes can be used to control these pests. Further, genes encoding toxins active against these pests can be isolated from the B.t. isolates and used to transform other microbes. The transformed microbes then can be used to control susceptible coleopteran pests. In preferred embodiments, a gene from PS140E2 is used to transform plants so that the transformed plants are resistant to flea beetles of the genus Phyllotreta.

Abstract: The subject invention pertains to B.t. toxins and isolates against pests. More specifically, the subject invention relates to controlling coleopteran pests, with pesticidal proteins obtainable from B.t. isolate PS158C2, and lepidopteran pests, with pesticidal proteins obtainable from B.t. isolate HD511.