Pesticidal proteins exhibiting toxic activity against Coleopteran, Lepidopteran, Hemipteran, and Thysanopteran pest species are disclosed, and include, but are not limited to, TIC6280, TIC6281, TIC6282, TIC6283, TIC8808, TIC9480, TIC9257, TIC7106, TIC7017, TIC7107, TIC7108, TIC7109, TIC7110, TIC7111, TIC7589, TIC9258, and TIC9259. DNA constructs are provided which contain a recombinant nucleic acid sequence encoding the pesticidal proteins provided. Transgenic plants, plant cells, seed, and plant parts resistant to Lepidopteran, Coleopteran, Hemipteran and Thysanopteran infestation are provided which contain recombinant nucleic acid sequences encoding the disclosed pesticidal proteins. Methods for detecting the presence of the recombinant nucleic acid sequences or the protein of the present invention in a biological sample, and methods of controlling Coleopteran, Lepidopteran, Hemipteran, and Thysanopteran species pests using the disclosed pesticidal proteins are also provided.

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.

A novel transgenic corn event designated 5307, is disclosed. The invention relates to DNA sequences of the recombinant constructs inserted into the corn genome and of genomic sequences flanking the insertion site that resulted in the 5307 event. The invention further relates to assays for detecting the presence of the DNA sequences of event 5307, to corn plants and corn seeds comprising the genotype of and to methods for producing a corn plant by crossing a corn plant comprising the event 5307 genotype with itself or another corn variety.

Isolated polynucleotides are provided. Each of the isolated polynucleotides comprise a nucleic acid sequence encoding a polypeptide having an amino acid sequence at least 80% homologous to SEQ ID NO: 121, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 122, 123, 124, 125, 126, 95 or 96, wherein the polypeptide is capable of regulating cotton fiber development. Also provided are methods of using such polynucleotides for improving fiber quality and/or yield of a fiber producing plant, as well as methods of using such polynucleotides for producing plants having increased biomass/vigor/yield.

This invention provides polypeptides that were identified as interacting with Vip3 toxin. This invention also provides a method of identifying agents that bind to Vip3 interacting polypeptides, which agents may act as insecticidal agent, cytotoxic agents and/or modulate the activity of Vip3 interacting polypeptides.

The present invention relates to a Cucumis melo plant which carries QTL1 in its genome that leads to resistance against the Bemisia tabaci species complex, which QTL1 is located between flanking marker sequences SEQ ID No. 1 and SEQ ID No. 2 and can be identified by and is in particular linked to one or more markers selected from the group consisting of SEQ ID No. 3, SEQ ID No. 4, SEQ ID No. 5, SEQ ID No. 6, SEQ ID No. 7, SEQ ID No. 8, SEQ ID No. 9, SEQ ID No. 10, SEQ ID No. 11, and SEQ ID No. 12, or combinations thereof. In a further embodiment, the Cucumis melo plant further comprises another Bemisia resistance conferring QTL, which combination of QTLs leads to an improved level of resistance to the Bemisia tabaci species complex when compared to a plant in which only the other QTL is present.

The invention relates to a plant that includes a transgene encoding a heterologous polypeptide conferring on plant expressing said polypeptide resistance to a hemipteroid sap-sucking insect. The transgene is also expressed in a plant component (such as a leaf). Typically, expression of such polypeptides deters feeding by insects such as psyllids (such as an Asian citrus psyllid, the African citrus psyllid, or the American citrus psyllid). Exemplary plants useful in the invention are citrus or solanaceous plants.

This disclosure concerns compositions and methods for promoting transcription of a nucleotide sequence in a plant or plant cell, employing a promoter from a GmCAB2 gene. Some embodiments relate to a promoter or a 5 UTR from a GmCAB2 gene that functions in plants to promote transcription of operably linked nucleotide sequences. Other embodiments relate to a 3 UTR or a terminator from a GmCAB2 gene that functions in plants to promote transcription of operably linked nucleotide sequences.

The present invention relates to the control of infestation of pests by inhibiting or reducing the expression of genes of the family of chitin synthase. The invention further provides methods and compositions for controlling pests by feeding them with one or more double-strand RNA molecules provides by the present invention. The invention further describes a method of obtaining transgenic plants that express double-strand RNA molecules. The present invention is preferably used for cotton-plants.

MPO1 and MPO2 can be regulated for either decreasing or increasing alkaloid levels in plants, in particular in Nicotiana plants. In particular, suppressing or overexpressing one or more of MPO1 and MPO2 may be used to decrease or increase nicotine and nicotinic alkaloid levels in tobacco plants. Suppression or overexpression of one or more of MPO1 and MPO2 may be used in combination with modification of expression of other genes encoding enzymes on the nicotinic alkaloid biosynthetic pathway such as A622, NBB1, PMT, and QPT.