This disclosure concerns nucleic acid molecules and methods of use thereof for control of insect pests through RNA interference-mediated inhibition of target coding and transcribed non-coding sequences in insect pests, including coleopteran and/or hemipteran pests. The disclosure also concerns methods for making transgenic plants that express nucleic acid molecules useful for the control of insect pests, and the plant cells and plants obtained thereby.

This disclosure concerns nucleic acid molecules and methods of use thereof for control of insect pests through RNA interference-mediated inhibition of target coding and transcribed non-coding sequences in insect pests, including coleopteran and/or hemipteran pests. The disclosure also concerns methods for making transgenic plants that express nucleic acid molecules useful for the control of insect pests, and the plant cells and plants obtained thereby.

Compositions and methods for controlling pests are provided. The methods involve transforming organisms with a nucleic acid sequence encoding an insecticidal protein. In particular, the nucleic acid sequences are useful for preparing plants and microorganisms that possess insecticidal activity. Thus, transformed bacteria, plants, plant cells, plant tissues and seeds are provided. Compositions are insecticidal nucleic acids and proteins of bacterial species. The sequences find use in the construction of expression vectors for subsequent transformation into organisms of interest including plants, as probes for the isolation of other homologous (or partially homologous) genes. The pesticidal proteins find use in controlling, inhibiting growth or killing Lepidopteran, Coleopteran, Dipteran, fungal, Hemipteran and nematode pest populations and for producing compositions with insecticidal activity.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

The invention relates to the novel cotton variety designated 17R827B3XF. Provided by the invention are the seeds, plants, plant parts and derivatives of the cotton variety 17R827B3XF. Also provided by the invention are methods of using cotton variety 17R827B3XF and products derived therefrom. Still further provided by the invention are methods for producing cotton plants by crossing the cotton variety 17R827B3XF with itself or another cotton variety and plants and seeds produced by such methods.

The invention relates to the novel cotton variety designated 17R819B3XF. Provided by the invention are the seeds, plants, plant parts and derivatives of the cotton variety 17R819B3XF. Also provided by the invention are methods of using cotton variety 17R819B3XF and products derived therefrom. Still further provided by the invention are methods for producing cotton plants by crossing the cotton variety 17R819B3XF with itself or another cotton variety and plants and seeds produced by such methods.

The present invention provides novel lettuce cultivar Takita and plant parts, seed, and tissue culture therefrom. The invention also provides methods for producing a lettuce plant by crossing the lettuce plants of the invention with themselves or another lettuce plant. The invention also provides lettuce plants produced from such a crossing as well as plant parts, seed, and tissue culture therefrom.

The invention relates to the novel cotton variety designated 17R815B3XF. Provided by the invention are the seeds, plants, plant parts and derivatives of the cotton variety 17R815B3XF. Also provided by the invention are methods of using cotton variety 17R815B3XF and products derived therefrom. Still further provided by the invention are methods for producing cotton plants by crossing the cotton variety 17R815B3XF with itself or another cotton variety and plants and seeds produced by such methods.

Disclosed herein are nucleotide sequences encoding an insecticidal protein exhibiting Lepidopteran inhibitory activity, as well as novel insecticidal proteins referred to herein as a BCW 001, BCW 002, BCW 003, and BCW toxic protein-containing chimeras and BCW toxin insecticide, transgenic plants expressing the chimeras or the insecticide, and methods for detecting the presence of the nucleotide sequences or the insecticide in a biological sample.

Compositions and methods for controlling pests are provided. The methods involve transforming organisms with a nucleic acid sequence encoding an insecticidal protein. In particular, the nucleic acid sequences are useful for preparing plants and microorganisms that possess insecticidal activity. Thus, transformed bacteria, plants, plant cells, plant tissues and seeds are provided. Compositions are insecticidal nucleic acids and proteins of bacterial species. The sequences find use in the construction of expression vectors for subsequent transformation into organisms of interest including plants, as probes for the isolation of other homologous (or partially homologous) genes. The pesticidal proteins find use in controlling, inhibiting growth or killing Lepidopteran, Coleopteran, Dipteran, fungal, Hemipteran and nematode pest populations and for producing compositions with insecticidal activity.