This paper reports a part of our studies on large-scale T-DNA-mediated gene tagging inArabidopsis thaliana. To enhance the chance of tagging specific stress-responsive genes of this species by monitoring the preferential insertion of the T-DNA into the actively transcribed loci, we exposed the root explants to low temperature (LT), abscisic acid (ABA), and extracellular enzymes (EXE) of the plant pathogenErwinia carotovora prior to transformation byAgrobacterium tumefaciens. Both LT and ABA reduced the frequency of transformation; with these treatments, the average transformation frequencies were 8.1% and 2.6%, respectively. However, in explants pretreated with EXE the transformation frequency was 89.0%, similar to that obtained in control materials (92.6%). Transgenic calli developed from these explants did not require any treatment with azacytidine (azaC) for efficient shoot regeneration. Furthermore, this treatment enhanced multiple insertion of the T-DNA into the plant genome; within a population of EXE-treated transgenic plants, the number of lines harboring at least three copies of the integrated T-DNA was much higher (61%) than that observed in an untreated population (34%).

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