Abstract:
The subject invention concerns new classes of pesticidally active proteins and the polynucleotide sequences that encode these proteins. In preferred embodiments, these pesticidal proteins have molecular weights of approximately 40-50 kDa and of approximately 10-15 kDa.
Abstract:
The subject invention concerns new classes of pesticidal toxins and the polynucleotide sequences which encode these toxins. Also described are novel pesticidal isolates of Bacillus thuringiensis.
Abstract:
Disclosed and claimed are toxins produced by novel Bacillus thuringiensis insolates designated B.t. PS92J, B.t. PS196S1, B.t. PS201L1; and B.t. PS201T6, which have dipteran and/or corn rootworm activity. Thus, the insolates, or mutants thereof, can be used to control such pests. Further, claimed are novel genes encoding these .delta.-emdotoxins, which can be expressed in other hosts, Expression of the .delta.-endotoxins in such hosts results in the control of susceptible insect pests in the environment of such hosts.
Abstract:
Disclosed claimed are toxins produced by novel Bacillus thuringiensis isolates designated B.t. PS92J, B.t. PS196S1, B.t. PS201L1, and B.t. PS201T6, which have dipteran and/or corn rootworm activity. Thus, the isolates, or mutants therof, can be used to control such pests. Further, claimed are novel genes encoding these &dgr;-endotoxins, which can be expressed in other hosts. Expression of the &dgr;-endotoxins in such hosts results in the control of susceptible insect pests in the environment of such hosts.
Abstract:
The subject invention concerns new classes of pesticidal toxins and the polynucleotide sequences which encode these toxins. Also described are novel pesticidal isolates of Bacillus thuringiensis.
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.
Abstract:
The subject invention concerns new classes of pesticidally active proteins and the polynucleotide sequences that encode these proteins. In preferred embodiments, these pesticidal proteins have molecular weights of approximately 40-50 kDa and of approximately 10-15 kDa.
Abstract:
The subject invention concerns new classes of pesticidally active proteins and the polynucleotide sequences that encode these proteins. In preferred embodiments, these pesticidal protein have molecular weights of approximately 40–50 kDa and of approximately 10–15 kDa.
Abstract:
The subject invention concerns new classes of insecticidal proteins obtainable from Bacillus thuringiensis, and polynucleotides that encode these proteins. The subject invention also includes transgenic cells and plants that produce these proteins. The proteins are preferably in the 10-15 kDa and 40-50 kDa size range.
Abstract:
The subject invention concerns new classes of pesticidally active proteins and the polynucleotide sequences that encode these proteins. In preferred embodiments, these pesticidal proteins have molecular weights of approximately 40-50 kDa and of approximately 10-15 kDa.