Activation tagging: a means of isolating genes implicated as playing a role in plant growth and development

Activation T-DNA tagging has been used to generate a variety of tobacco cell lines selected by their ability to grow either in the absence of auxin or cytokinin in the culture media, or under selective levels of an inhibitor of polyamine biosynthesis. The majority of the cell lines studied in detail...

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Bibliographic Details
Published in:Plant molecular biology 1994-12, Vol.26 (5), p.1521-1528
Main Authors: Walden, R, Fritze, K, Hayashi, H, Miklashevichs, E, Harling, H, Schell, J
Format: Article
Language:English
Subjects:
Agrobacterium tumefaciens
Arabidopsis
auxins
biochemical techniques
biosynthesis
Cytokinins - metabolism
DNA
DNA, Bacterial - genetics
Genes, Plant - genetics
Indoleacetic Acids - metabolism
isolation
literature reviews
metabolism
molecular genetics
mutagenesis
Mutagenesis, Insertional - methods
mutants
Nicotiana - genetics
Nicotiana - growth & development
Nicotiana tabacum
Plant Growth Regulators - genetics
Plants, Toxic
plasmid vectors
polyamines
Polyamines - metabolism
Sequence Tagged Sites
structural genes
t-dna tagging
tagging vectors
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Summary:Activation T-DNA tagging has been used to generate a variety of tobacco cell lines selected by their ability to grow either in the absence of auxin or cytokinin in the culture media, or under selective levels of an inhibitor of polyamine biosynthesis. The majority of the cell lines studied in detail contain single T-DNA inserts genetically co-segregating with the selected phenotype. While most of the plants regenerated from the mutant cell lines appear phenotypically normal, several display phenotypes which could be inferred to result from disturbances in the content, or the metabolism, of auxins and cytokinins, or polyamines. The tagging vector is designed to allow the isolation of tagged plant genes by plasmid rescue. Confirmation that the genomic sequence responsible for the selected phenotype has indeed been isolated is provided by PEG-mediated protoplast DNA uptake of rescued plasmids followed by selection for protoplast growth under the original selective conditions. Several plasmids have been rescued from the mutant lines which confer on transfected protoplasts the ability to grow either in the absence of auxin or cytokinin in the culture media, or under selective levels of an inhibitor of polyamine biosynthesis. This review describes the background to activation tagging and our progress in characterizing the genes that have been tagged in the mutant lines we have generated.
ISSN:0167-4412
1573-5028
DOI:10.1007/bf00016488