VIS: Virus-induced gene silencing:unravelling the basis of a mechanism and its exploitation for the analysis of a multitude of individual gene functions in plants

Fonte Standard Gras
Identifiant

Unité de recherche

PCRD EU

Numéro de projet

01.0452-1

Titre du projet

VIS: Virus-induced gene silencing:unravelling the basis of a mechanism and its exploitation for the analysis of a multitude of individual gene functions in plants

Titre du projet anglais

VIS: Virus-induced gene silencing:unravelling the basis of a mechanism and its exploitation for the analysis of a multitude of individual gene functions in plants

Textes relatifs à ce projet

	Allemand	Français	Italien
Mots-clé	-	-	-
Autre Numéro de projet	-	-	-
Programme de recherche	-	-	-
Description succincte	-	-	-
Autres indications	-	-	-
Résumé des résultats (Abstract)	-	-	-
Références bases de données	-	-	-

Textes saisis

Catégorie	Texte
Mots-clé (Anglais)	Biotechnology; Life Sciences; Medicine; Health; Scientific Research
Autre Numéro de projet (Anglais)	EU project number: QLG2-CT-2002-01673
Programme de recherche (Anglais)	EU-programme: 5. Frame Research Programme - 1.1.5 Sustainable agriculture, fisheries and forestry
Description succincte (Anglais)	See abstract
Autres indications (Anglais)	Full name of research-institution/enterprise: Universität Basel Departement für Integrative Biologie Botanisches Institut
Résumé des résultats (Abstract) (Anglais)	The objective of the proposal is to produce a detailed description of the molecular mechanisms underlying different stages of virus-induced gene silencing (VIGS) in plant cells. VIGS is a recently discovered sequence - specific RNA degradation mechanism in plants, that has a huge potential for the functional analysis of individual genes on the genome-wide scale, provided that its general principles are better understood. We plan to investigate the following aspects of VIGS: i) viral features detected by the plant^TMs surveillance mechanism; ii) suppressors of VIGS; iii ) host factors required for VIGS; v) role of DNA methylation in VIGS. The fulfilment of the project should pave the path for the construction of generally applicable efficient VIGS vectors for the functional analysis of multitude of plant genes.
Références bases de données (Anglais)	Swiss Database: Euro-DB of the State Secretariat for Education and Research Hallwylstrasse 4 CH-3003 Berne, Switzerland Tel. +41 31 322 74 82 Swiss Project-Number: 01.0452-1