The present invention provides novel inhibitors of cystathionin gamma synthase (CGS), their use as selective and non-selective herbicides, agricultural and non-agricultural herbicides, herbicides in integrated pest management, herbicides for gardening, clearing waste ground, clearing industrial or constructions sites, clearing railways and railway embankments, pesticide, fungicide, agricultural plant stimulant or antimicrobial agent. Also provided is a method for the control of undesired vegetation or clearing areas from the undesired vegetation comprising applying to the locus of said undesired vegetation, to the undesired plants or to a habitat thereof, a herbicidally effective amount of the compound of the present invention.

The present application relates to new HtrA inhibitors and use thereof. Additionally, the present application also relates to new peptides for inhibiting CagA and use thereof.

Methods of increasing the tolerance of a plant to an herbicide and seeds for carrying out these methods are provided herein. The methods include treating the seeds of the plant with an insecticide prior to planting. The insecticide treatment makes the resulting plant more resistant to herbicides and in particular to post-emergence herbicides as compared to untreated seeds. The plants suitably do not have complete natural or complete engineered resistance to the herbicide. The treated seeds are then planted in a field and the herbicide is applied to the field. The resulting plants growing from the treated seeds have increased tolerance to the herbicide as compared to plants grown from seeds not treated with the insecticide.

Methods of increasing the tolerance of a plant to an herbicide and seeds for carrying out these methods are provided herein. The methods include treating the seeds of the plant with an insecticide prior to planting. The insecticide treatment makes the resulting plant more resistant to herbicides and in particular to post-emergence herbicides as compared to untreated seeds. The plants suitably do not have complete natural or complete engineered resistance to the herbicide. The treated seeds are then planted in a field and the herbicide is applied to the field. The resulting plants growing from the treated seeds have increased tolerance to the herbicide as compared to plants grown from seeds not treated with the insecticide.

Methods of increasing the tolerance of a plant to an herbicide and seeds for carrying out these methods are provided herein. The methods include treating the seeds of the plant with an insecticide prior to planting. The insecticide treatment makes the resulting plant more resistant to herbicides and in particular to post-emergence herbicides as compared to untreated seeds. The plants suitably do not have complete natural or complete engineered resistance to the herbicide. The treated seeds are then planted in a field and the herbicide is applied to the field. The resulting plants growing from the treated seeds have increased tolerance to the herbicide as compared to plants grown from seeds not treated with the insecticide.

A species of Burkholderia sp with no known pathogenicity to vertebrates but with pesticidal activity (e.g., plants, insects, fungi, weeds and nematodes) is provided. Also provided are natural products derived from a culture of said species and methods of controlling pests using said natural products.

A species of Burkholderia sp with no known pathogenicity to vertebrates but with pesticidal activity (e.g., plants, insects, fungi, weeds and nematodes) is provided. Also provided are natural products derived from a culture of said species and methods of controlling pests using said natural products.

The present disclosure relates to fungicidal active compounds, more specifically to heteroarylphenylaminoquinolines according to formula (I): ##STR00001##
and analogues thereof, processes and, intermediates for their preparation and use thereof as fungicidal active compound, particularly in the form of fungicide compositions. The present disclosure also relates to methods for the control of phytopathogenic fungi of plants using these compounds or compositions comprising thereof.

The present disclosure relates to fungicidal active compounds, more specifically to heteroarylphenylaminoquinolines according to formula (I): ##STR00001##
and analogues thereof, processes and, intermediates for their preparation and use thereof as fungicidal active compound, particularly in the form of fungicide compositions. The present disclosure also relates to methods for the control of phytopathogenic fungi of plants using these compounds or compositions comprising thereof.

The invention relates to novel compounds of the formula (I)

##STR00001##

in which Ar represents phenyl or a 5- or 6-membered heteroaromatic ring and A, R.sup.1 and R.sup.2 have the meanings given above, and their use for controlling animal pests, especially arthropods and in particular insects, arachnids and nematodes.