The invention relates to a method to inhibit gene expression in bacteria, which is referred to here as Antibacterial Gene Silencing (AGS). In particular embodiments, the method is used to protect plants and animals against pathogenic bacteria by targeting pathogenicity factors and/or essential genes in a sequence-specific manner via small non-coding RNAs. The method can also be used to enhance beneficial effects and/or growth of symbiotic or commensal bacteria. The invention involves the exogenous delivery of small RNA entities onto bacteria, either in the form of RNA extracts or embedded into plant extracellular vesicles (EVs), so as to reduce bacterial growth, survival and/or pathogenicity. The invention also describes a method to identify in a rapid, reliable and cost-effective manner, small RNAs that possess antibacterial activity and that have the potential to be further developed as anti-infective agents. In addition, the latter method is instrumental to rapidly characterize any gene from any bacterial species.

Disclosed are double stranded RNA molecules that are toxic to hemipteran insects. In particular, interfering RNA molecules capable of interfering with pest target genes and that are toxic to the target pest are provided. Further, methods of making and using the interfering RNA, for example in transgenic plants or as the active ingredient in a composition, to confer protection from insect damage are disclosed.

A buoyant article is provided. The buoyant larvicidal article comprises a silicate, a larvicide associated with the silicate, and a binder. The binder is for agglomerating the silicate. In additional or alternative aspects, the buoyant larvicidal article comprises a buoyant moiety, a larvicide associated with the buoyant moiety, and a binder for agglomerating the buoyant moiety. Methods of making the buoyant article and uses thereof are also provided.

A buoyant article is provided. The buoyant larvicidal article comprises a silicate, a larvicide associated with the silicate, and a binder. The binder is for agglomerating the silicate. In additional or alternative aspects, the buoyant larvicidal article comprises a buoyant moiety, a larvicide associated with the buoyant moiety, and a binder for agglomerating the buoyant moiety. Methods of making the buoyant article and uses thereof are also provided.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Disclosed herein are methods of controlling insect pests which infest crop plants, in particular Spodoptera frugiperda (fall armyworm), Lygus hesperus (western tarnished plant bug), Euschistus heros (neotropical brown stink bug), and Plutella xylostella (diamondback moth), and methods of providing plants resistant to such pests. Also disclosed are polynucleotides and recombinant DNA molecules and constructs useful in such methods, insecticidal compositions such as topical sprays containing insecticidal double-stranded RNAs, and plants with improved resistance to infestation by these insects. Further disclosed are methods of selecting target genes for RNAi-mediated silencing and control of these insect pests.

Disclosed herein are methods of controlling insect pests which infest crop plants, in particular Spodoptera frugiperda (fall armyworm), Lygus hesperus (western tarnished plant bug), Euschistus heros (neotropical brown stink bug), and Plutella xylostella (diamondback moth), and methods of providing plants resistant to such pests. Also disclosed are polynucleotides and recombinant DNA molecules and constructs useful in such methods, insecticidal compositions such as topical sprays containing insecticidal double-stranded RNAs, and plants with improved resistance to infestation by these insects. Further disclosed are methods of selecting target genes for RNAi-mediated silencing and control of these insect pests.

The present invention relates to a composition comprising a) recombinant exosporium-producing Bacillus cells that express a fusion protein comprising: (i) at least one plant growth stimulating protein or peptide and (ii) a targeting sequence that localizes the fusion protein to the exosporium of the Bacillus cells; and b) at least one particular insecticide disclosed herein in a synergistically effective amount. Furthermore, the present invention relates to the use of this composition as well as a method for enhancing plant growth, promoting plant health, and/or reducing overall damage of plants and plant parts.

The present invention relates to a composition comprising a) recombinant exosporium-producing Bacillus cells that express a fusion protein comprising: (i) at least one plant growth stimulating protein or peptide and (ii) a targeting sequence that localizes the fusion protein to the exosporium of the Bacillus cells; and b) at least one particular insecticide disclosed herein in a synergistically effective amount. Furthermore, the present invention relates to the use of this composition as well as a method for enhancing plant growth, promoting plant health, and/or reducing overall damage of plants and plant parts.