about
Metrafenone resistance in a population of Erysiphe necator in northern ItalyBiological Control of Lettuce Drop and Host Plant Colonization by Rhizospheric and Endophytic StreptomycetesImpact of tricyclazole and azoxystrobin on growth, sporulation and secondary infection of the rice blast fungus, Magnaporthe oryzae.Heat stress enhances the accumulation of polyadenylated mitochondrial transcripts in Arabidopsis thalianaSense and antisense transcripts of convergent gene pairs in Arabidopsis thaliana can share a common polyadenylation regionColonization of lettuce rhizosphere and roots by tagged Streptomyces.Selection of Streptomyces against soil borne fungal pathogens by a standardized dual culture assay and evaluation of their effects on seed germination and plant growth.Fungal Biofilms: Targets for the Development of Novel Strategies in Plant Disease Management.A pair of partially overlapping Arabidopsis genes with antagonistic circadian expression.New formulation and delivery method of Cryphonectria parasitica for biological control of chestnut blight.De novo DNA methylation activity of methyltransferase 1 (MET1) partially restores body methylation in Arabidopsis thaliana.Selection of an Endophytic Streptomyces sp. Strain DEF09 From Wheat Roots as a Biocontrol Agent Against Fusarium graminearumSensitivity of Nonexposed and Exposed Populations of Magnaporthe oryzae from Rice to Tricyclazole and AzoxystrobinCritical Assessment of Streptomyces spp. Able to Control Toxigenic Fusaria in Cereals: A Literature and Patent ReviewDual-active antifungal agents containing strobilurin and SDHI-based pharmacophoresEvaluation of in-vitro methods to select effective streptomycetes against toxigenic fusaria
P50
Q28829231-B33DB8C8-CBD9-47C5-A5A3-A5F81C37429AQ28833728-73072BFC-50B5-4430-91FD-A604E7D3AE05Q30559850-DBAB37A6-AE0E-49E4-BFFC-794122A4DF5EQ33358109-FA391126-3F76-46C8-9EBF-141708390BC3Q33818195-EAFB0161-B351-424E-940A-1348D167EDF4Q35056823-3DBD1537-2911-4B77-8EDD-7A7E007D2B3EQ36187718-A0113EEE-72ED-40F0-8A61-93B0EA9D2626Q41951677-BF73F65B-F1F2-4700-8C9F-645E33D7B0AFQ42549989-F029F10C-D8EB-491D-A434-209FB2250AB9Q51769513-DAD62296-94F3-42E1-8859-B1B43A20975FQ52843685-A9FB991D-5C85-41F1-8078-0F344C762EEAQ91082542-7EE8DC0C-54FB-43B8-B1F0-B911BA25FE3DQ91307706-29E11CC0-DA9B-4AD7-8F63-D396FB95C82BQ91810421-57B105A9-DF98-44B0-AD25-B5DF947D3161Q92460746-19104D7D-2CAC-42E8-9D3C-593DD319F3A4Q92742202-F5EBA67B-51D8-476A-BFB9-BC91A8198102
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Andrea Kunova
@ast
Andrea Kunova
@en
Andrea Kunova
@es
Andrea Kunova
@nl
type
label
Andrea Kunova
@ast
Andrea Kunova
@en
Andrea Kunova
@es
Andrea Kunova
@nl
prefLabel
Andrea Kunova
@ast
Andrea Kunova
@en
Andrea Kunova
@es
Andrea Kunova
@nl
P1053
F-3769-2016
P106
P1153
24778631700
P31
P3829
P496
0000-0002-9210-4792