The present invention encompasses compounds and methods for treating urinary tract infections.

The present invention encompasses compounds and methods for treating urinary tract infections.

The present invention discloses a powdered insecticide coating composition comprising a mixture of: boric acid compound in a range of about 40% to 60% by weight, an organic compound in a range of about 40% to 60% by weight and aminopolycarboxylic acid compound in a range of about 1% by weight, and methods thereof.

The present invention discloses a powdered insecticide coating composition comprising a mixture of: boric acid compound in a range of about 40% to 60% by weight, an organic compound in a range of about 40% to 60% by weight and aminopolycarboxylic acid compound in a range of about 1% by weight, and methods thereof.

Compounds of formula (I) are as defined in the claims, and their use in compositions and methods for the control and/or prevention of microbial infection, particularly fungal infection, in plants and to processes for the preparation of these compounds. ##STR00001##

Compounds of formula (I) are as defined in the claims, and their use in compositions and methods for the control and/or prevention of microbial infection, particularly fungal infection, in plants and to processes for the preparation of these compounds. ##STR00001##

Described herein are combinatorial compositions comprising a synthetic compound and a biological agent for beneficial effect. The synthetic compound may be a leucyl-tRNA synthetase inhibitor. The synthetic compound also may be a benzoxaborole. The combinatorial compositions may have a synergistic effect. The combinatorial composition has at least one biological agent, which may have a controlling or stimulatory effect and may be selected from a modified or un-modified microorganism, metabolite, or substituent thereof. The combinatorial composition may further comprise a second modified or un-modified microorganism, metabolite or substituent thereof, or energy source for either or both microorganism(s). Also described are methods for promoting plant performance and/or curatively or preventively controlling insects, nematodes, microorganisms, or phytopathogens on or in an animal or a plant, plant parts, harvested fruits, or vegetables.

Described herein are combinatorial compositions comprising a synthetic compound and a biological agent for beneficial effect. The synthetic compound may be a leucyl-tRNA synthetase inhibitor. The synthetic compound also may be a benzoxaborole. The combinatorial compositions may have a synergistic effect. The combinatorial composition has at least one biological agent, which may have a controlling or stimulatory effect and may be selected from a modified or un-modified microorganism, metabolite, or substituent thereof. The combinatorial composition may further comprise a second modified or un-modified microorganism, metabolite or substituent thereof, or energy source for either or both microorganism(s). Also described are methods for promoting plant performance and/or curatively or preventively controlling insects, nematodes, microorganisms, or phytopathogens on or in an animal or a plant, plant parts, harvested fruits, or vegetables.

This invention is related to the use of a volatile antimicrobial compound against pathogens. The volatile antimicrobial compounds provided include certain oxaborole compounds, for example benzoxaboroles. Delivery systems are provided to take advantage of the volatile nature of these antimicrobial compounds. The method and use disclosed can be combined with other volatile compounds.

This invention is related to the use of a volatile antimicrobial compound against pathogens. The volatile antimicrobial compounds provided include certain oxaborole compounds, for example benzoxaboroles. Delivery systems are provided to take advantage of the volatile nature of these antimicrobial compounds. The method and use disclosed can be combined with other volatile compounds.