Activation Tagging in Arabidopsis

Detlef Weigel; Ji Hoon Ahn; Miguel Á. Blázquez; Justin Borevitz; S. Christensen; Christian Fankhauser; Cristina Ferrándiz; Igor Kardailsky; Elizabeth J. Malancharuvil; Michael M. Neff; Jasmine Nguyen; Shusei Sato; Zhiyong Wang; Yiji Xia; Richard A. Dixon; Maria Harrison; Chris Lamb; Martin F. Yanofsky; Joanne Chory

doi:10.1104/pp.122.4.1003

Activation Tagging in Arabidopsis

Detlef Weigel, Ji Hoon Ahn(Salk Institute for Biological Studies), Miguel Á. Blázquez(Salk Institute for Biological Studies), Justin Borevitz(Salk Institute for Biological Studies), S. Christensen(Salk Institute for Biological Studies), Christian Fankhauser(Salk Institute for Biological Studies), Cristina Ferrándiz(University of California San Diego), Igor Kardailsky(Salk Institute for Biological Studies), Elizabeth J. Malancharuvil(Salk Institute for Biological Studies), Michael M. Neff(Salk Institute for Biological Studies), Jasmine Nguyen(Salk Institute for Biological Studies), Shusei Sato(University of California San Diego), Zhiyong Wang(Salk Institute for Biological Studies), Yiji Xia(Salk Institute for Biological Studies), Richard A. Dixon(Noble Research Institute), Maria Harrison(Noble Research Institute), Chris Lamb(John Innes Centre), Martin F. Yanofsky(University of California San Diego), Joanne Chory(Salk Institute for Biological Studies)

PLANT PHYSIOLOGY

April 1, 2000

10.1104/pp.122.4.1003

Cited by 969Open Access

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Abstract

Activation tagging using T-DNA vectors that contain multimerized transcriptional enhancers from the cauliflower mosaic virus (CaMV) 35S gene has been applied to Arabidopsis plants. New activation-tagging vectors that confer resistance to the antibiotic kanamycin or the herbicide glufosinate have been used to generate several tens of thousands of transformed plants. From these, over 30 dominant mutants with various phenotypes have been isolated. Analysis of a subset of mutants has shown that overexpressed genes are almost always found immediately adjacent to the inserted CaMV 35S enhancers, at distances ranging from 380 bp to 3.6 kb. In at least one case, the CaMV 35S enhancers led primarily to an enhancement of the endogenous expression pattern rather than to constitutive ectopic expression, suggesting that the CaMV 35S enhancers used here act differently than the complete CaMV 35S promoter. This has important implications for the spectrum of genes that will be discovered by this method.

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