Abstract: Methods of inhibiting plant parasitic nematodes, methods of obtaining transgenic plants useful for inhibiting such nematodes, and transgenic plants that are resistant to plant parasitic nematodes through inhibition of plant nematode CLAVATA3/ESR (CLE) peptide receptor genes are provided. Methods for expressing genes at plant parasitic nematode feeding sites with plant nematode CLE peptide receptor gene promoters are also provided, along with nematode CLE peptide receptor gene promoters that are useful for expressing genes in nematode feeding sites as well as transgenic plants and nematode resistant transgenic plants comprising the promoters.

Abstract: The present invention presents methods to alter the genetic composition of crop plants susceptible to nematode infection to improve tolerance to the same. Methods and compositions for modulating key pathways involved in the syncytial event of nematode infection and for preventing the cascade of differential gene expression caused by the same as disclosed. Applicants have found that the microRNA miR396 acts as a master switch of syncytial gene expression changes in plants after infection, and further that miR396 and certain growth regulating transcription factors (GRF) are connected through feedback interaction in syncytium initiation and maintenance.

Abstract: The present invention presents methods to alter the genetic composition of crop plants susceptible to nematode infection to improve tolerance to the same. Methods and compositions for modulating key pathways involved in the syncytial event of nematode infection and for preventing the cascade of differential gene expression caused by the same as disclosed. Applicants have found that the microRNA miR396 acts as a master switch of syncytial gene expression changes in plants after infection, and further that miR396 and certain growth regulating transcription factors (GRF) are connected through feedback interaction in syncytium initiation and maintenance.

Abstract: Methods of inhibiting plant parasitic nematodes, methods of obtaining transgenic plants useful for inhibiting such nematodes, and transgenic plants that are resistant to plant parasitic nematodes through inhibition of plant nematode CLE peptide receptor genes are provided. Methods for expressing genes at plant parasitic nematode feeding sites with plant nematode CLE peptide receptor gene promoters are also provided, along with nematode CLE peptide receptor gene promoters that are useful for expressing genes in nematode feeding sites as well as transgenic plants and nematode resistant transgenic plants comprising the promoters.

Abstract: The present invention presents methods to alter the genetic composition of crop plants susceptible to nematode infection to improve tolerance to the same. Methods and compositions for modulating key pathways involved in the syncytial event of nematode infection and for preventing the cascade of differential gene expression caused by the same as disclosed. Applicants have found that the microRNA miR396 acts as a master switch of syncytial gene expression changes in plants after infection, and further that miR396 and certain growth regulating transcription factors (GRF) are connected through feedback interaction in syncytium initiation and maintenance.

Abstract: Compositions and methods for providing cyst nematode resistance are provided. One aspect provides transgenic plants or cells comprising an inhibitory nucleic acid specific for one or more cyst nematode esophageal gland cell polypeptides. Other aspects provide transgenic plants or cells resistant to at least two different cyst nematode species.