A formulation and a composition that comprises it for promoting the pollination of almond tree crops (Prunus dulcis) by biasing the foraging preferences of the honey bee (Apis mellifera). The formulation comprises the compounds limonene, linalool and benzaldehyde. Additionally, a method for targeting the bees' pollinizing activity towards the almond tree crops by using the formulation comprising the compounds limonene, linalool and benzaldehyde.

A formulation and a composition that comprises it for promoting the pollination of almond tree crops (Prunus dulcis) by biasing the foraging preferences of the honey bee (Apis mellifera). The formulation comprises the compounds limonene, linalool and benzaldehyde. Additionally, a method for targeting the bees' pollinizing activity towards the almond tree crops by using the formulation comprising the compounds limonene, linalool and benzaldehyde.

Disclosed is a method for constructing fluorescent Bombyx Mori silkworm silk irradiated by near-infrared light and its products, comprising: (1) preparing upconversion nanoparticles, and performing surface modification with concanavalin to obtain modified upconversion nanoparticles; (2) uniformly dispersing the modified upconversion nanoparticles in water to formulate an aqueous solution of the upconversion nanoparticles, (3) picking mature mulberry leaves, immersing the mulberry leaves in the aqueous solution system of the nanoparticles, leaching water, and naturally drying the mulberry leaves; (4) after silkworms have grown for a set time, feeding the treated mulberry leaves to the silkworms until the silkworms spin silk cocoons; and (5) collecting the silk, so as to obtain mulberry silk that fluoresces under near-infrared light. The present invention selects upconversion nanoparticles capable of emitting fluorescence under the irradiation of near-infrared light which has stronger penetration, thus has better application in deep tissue imaging.

The present invention relates to compositions, methods and products for providing nutrition to insects such as bees, e.g., honey bees. Certain embodiments of the present invention also relate to methods of providing nutrition to bees e.g., colonies of bees together with methods of preparing a composition for providing nutrition to bees.

The present invention relates to compositions, methods and products for providing nutrition to insects such as bees, e.g., honey bees. Certain embodiments of the present invention also relate to methods of providing nutrition to bees e.g., colonies of bees together with methods of preparing a composition for providing nutrition to bees.

The present disclosure relates to compositions, methods and systems for the prophylaxis and treatment of honey bees (e.g, Apis mellifera) to protect and/or treat certain diseases, disorders and conditions, e.g., Colony Collapse Disorder and American foulbrood. The present disclosure comprises probiotic compositions, and methods of use thereof, for administration to honey bees for the purposes of treating or preventing disease.

The present disclosure relates to compositions, methods and systems for the prophylaxis and treatment of honey bees (e.g, Apis mellifera) to protect and/or treat certain diseases, disorders and conditions, e.g., Colony Collapse Disorder and American foulbrood. The present disclosure comprises probiotic compositions, and methods of use thereof, for administration to honey bees for the purposes of treating or preventing disease.

Provided herein are genetically engineered bacteria that are native to a host insect microbiome. Further provided are methods of inducing RNA interference in an insect, such as a bee, by administering the genetically engineered bacteria.

Provided herein are genetically engineered bacteria that are native to a host insect microbiome. Further provided are methods of inducing RNA interference in an insect, such as a bee, by administering the genetically engineered bacteria.

The present disclosure relates to processes for recovering valuable products from Fabaceae family plant fractions, in particular from Medicago sativa ssp. The processes disclosed herein include processes for obtaining macrofibers, microfibers, a saponin precursor, chloroplast liquid and dry compositions and a Rubisco precursor. There is also disclosed herein processes for extracting from Fabaceae family plants valuable compounds such as proteins, enzymes, peptides, amino acids, fatty acids, fatty alcohols, terpenes, phenols and pigments. The processes may comprise at least one of separating plant fibers while attenuating shear forces, maintaining the temperature at or below 45° C., maintaining the pH above 4 and adding antioxidant and/or antimicrobial agents. Compositions comprising these recovered Fabaceae family plant products and uses thereof are also disclosed.