The present invention relates to a screening method for determining whether or not a candidate compound is a modulator of an insect transient receptor potential V (TRPV) channel. The present invention further provides a method of insect control by applying to an insect-specific TRPV channel modulator determined by the screening method. The present invention further relates to an expression vector that includes a nucleic acid molecule coding for an insect TRPV channel. Also, the present invention relates to cell that includes the expression vector encoding a TRPV channel.

System and method embodiments for analyzing a test fluid to detect prior or present infestations of bed bugs are described. In an embodiment, the method may include receiving the test fluid on a test strip within the detection device. The test strip may include a reaction portion and a reagent portion containing an antibody or antigen-binding fragment that is conjugated to a colored particle. The test fluid may include bed bug antigen that reacts with the conjugated antibody. The detection device may include a first and a second optical sensor for monitoring a reaction and a background color intensity, respectively. Upon a predetermined time delay elapsing, the detection device determines whether bed bug antigen is present in the test fluid using the monitored color intensities and minimum and maximum color intensity thresholds associated with bed bugs. Then, the detection device outputs a result using a visual display.

The disclosure relates to insecticidal toxin resistance management and screening of novel insecticidal toxins. One embodiment relates to the isolation, characterization, compositions, and methods of use relating to polynucleotides encoding novel insecticidal toxin receptors and the polypeptides encoded thereby. The polynucleotides and polypeptides are useful in identifying or designing novel insecticidal toxin receptor ligands including novel insecticidal toxins.

Pesticidal proteins (FFPP's) are used to produce derivatives (DP's) that are ineffective and disabled relative to conferring toxic properties upon a target pest, yet the ability of the DP to bind to the receptor to which said FFPP binds is unaffected. Such DP's are useful in inhibiting the FFPP from which it was derived when both are fed to a target pest and for comparing receptor binding capability and efficiency relative to different FFPP's from which the DP has been derived, providing for an assessment of different FFPP's relative to each other, and providing uniformity and certainty in combinations of such FFPP's for compositions, including transgenic plants, that can be used to control pest populations susceptible to both FFPP's, creating more durable transgenic plant products, inhibiting the development of resistance to such FFPP's when used in plants commercially, and in providing a durable and viable resistance management strategy for crops using such FFPP combinations. Polynucleotide sequences intended for use in expression of the DP's and FFPP's are also provided. Particular embodiments provide methods of designing and preparing DP's, as well as compositions and methods of using DP's and the FFPP's from which the DP's have been derived in more effective pesticidal compositions and products.

Pesticidal proteins (FFPP's) are used to produce derivatives (DP's) that are ineffective and disabled relative to conferring toxic properties upon a target pest, yet the ability of the DP to bind to the receptor to which said FFPP binds is unaffected. Such DP's are useful in inhibiting the FFPP from which it was derived when both are fed to a target pest and for comparing receptor binding capability and efficiency relative to different FFPP's from which the DP has been derived, providing for an assessment of different FFPP's relative to each other, and providing uniformity and certainty in combinations of such FFPP's for compositions, including transgenic plants, that can be used to control pest populations susceptible to both FFPP's, creating more durable transgenic plant products, inhibiting the development of resistance to such FFPP's when used in plants commercially, and in providing a durable and viable resistance management strategy for crops using such FFPP combinations. Polynucleotide sequences intended for use in expression of the DP's and FFPP's are also provided. Particular embodiments provide methods of designing and preparing DP's, as well as compositions and methods of using DP's and the FFPP's from which the DP's have been derived in more effective pesticidal compositions and products.

The present invention relates to a method to monitor tobacco material to detect insect infestation, the method comprising: providing tobacco material in a closed space; measuring the concentration of a semiochemical in the air present in the closed space; comparing the measured concentration of the semiochemical with a threshold; andlowering the temperature of the closed space if the concentration of the semiochemical is higher than the threshold.

A system and method to detect the presence of bed bugs are disclosed. A system detecting the presence of bed bugs comprises an aptamer solution that includes a base ligand, a fluorophore ligand that includes at least one fluorophore, and a quencher ligand that includes at least one quencher, a liquid application tool, and a fluorescent light source. A method of detecting the presence of bed bugs, comprising providing a liquid application tool that carries an aptamer solution, applying the aptamer solution to a target area, shining fluorescent light on the target area, and observing the target area under the fluorescent light. If there are light spots under the fluorescent light, bed bugs have been present.