Genetic analysis of integration mediated by single T-DNA borders

Abstract

Transformation of plant cells by the T-DNA of the Ti plasmid of Agrobacterium tumefaciens depends in part upon a sequence adjacent to the right T-DNA end. When this sequence is absent, the T-DNA is almost avirulent; when it is present, DNA between it and the left T-DNA border region becomes integrated in plants. To investigate further this process of DNA transfer and integration, we introduced the right border region and the nopaline synthase (nos) gene of plasmid pTiC58 into a variety of new positions around Ti plasmids. The border region functioned when separated from the remainder of the T-DNA by almost 50 kilobases. It also worked when placed outside of the T-DNA region where there were no known left-border sequences with which to interact. Indeed, the nos gene could be transferred to plants even when no other Ti plasmid sequences were present on the same plasmid. These results may indicate that the sequence requirements for the left borders are not as stringent as those for the right borders. In addition, mutants with an extra copy of the right border region within their T-DNA were found to transfer or integrate only parts of the bacterial T-DNA region. It is possible that abnormally placed T-DNA borders interfere with the normal process of DNA transfer, integration, or both.