The complition of the entire Arabidopsis genome sequence has been recently achieved. Approximately 30% of the predicted genes code for proteins of unknown function, and only 9% of the genes has been chracterized experimentally. Insertional mutagenesis approaches are well suited for functional genomic studies. The molecular and phenotypic characterization of the insertional allele provide vital data on the biological role of the disrupted genes.
Insertional mutagenesis in Arabidopsis: a tool for functional genomics analysis
Massimo Galbiati
Primo
;
2000
Abstract
The complition of the entire Arabidopsis genome sequence has been recently achieved. Approximately 30% of the predicted genes code for proteins of unknown function, and only 9% of the genes has been chracterized experimentally. Insertional mutagenesis approaches are well suited for functional genomic studies. The molecular and phenotypic characterization of the insertional allele provide vital data on the biological role of the disrupted genes.File in questo prodotto:
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