Analysis of conditions forAgrobacterium-mediated transformation of tobacco cells in suspension

Abstract

We have developed anAgrobacterium-mediated transformation system, using tobacco cell suspensions, that permits evaluation of factors affecting transformation within seven days of co-cultivation. Tobacco cell transformation was determined by monitoring β-glucuronidase (GUS) activity detected in plant cell extracts. The use of a chimeric gene construct, 35S-GUS/INT, containing a portable intron in theuidA reading frame, assured only plant-specific GUS expression. During the co-cultivation period, induction of the bacterialvir-region was monitored using a heterologous gene construct composed of avirB promoter fragment from pTiC58 fused to the chloramphenicol acetyltranferase (CAT) gene ofTn9. Tobacco cell transformants were confirmed by antibiotic selection of transformed plant cells and by X-Gluc staining. Maximum transformation was obtained when plant suspension cultures were growing rapidly which also was coincidental with elevated levels of bacterialvir-region expression. One week after co-cultivation, the transformed cultures exhibited a stable pattern of GUS activity which remained constant without antibiotic selection. The system was used to compare the virulence of a number ofAgrobacterium strains. GUS activity of plant cells co-cultivated with a strain containing a cointegrate plasmid was 3-fold higher than that of one with a binary configuration of the T-DNA. When the co-cultivatingAgrobacterium strain also carried the plasmid used to monitorvir induction, the frequency of transformation was reduced by as much, as 97%.