Author(s)

Seokhyun Lee, Guiying Su, Eric Lasserre, Norimoto Murai

Department of Plant Pathology and Crop Physiology, Louisiana State University and LSU AgCenter, Baton Rouge, USA;.

We constructed small high-yielding binary Ti vectors with a bacterial tetracycline resistance gene to facilitate efficient cloning afforded by the Gateway Technology (Invitrogen) for Agrobacterium tumefaciens-mediated transformation of higher plants. The Gateway Technology vectors are kanamycin-based, thus tetracycline-based destination and expression vectors are easily selected for the antibiotic resistance in the Escherichia coli media. We reduced the size of the tetracycline resistance gene TetC from pBR322 to 1468 bp containing 1191 bp of the coding region, 93 bp of 5’-upstream, and 184 bp 3’-downstream region. The final size of binary Ti vector skeleton pLSU11 is 5034 bp. pLSU12 and 13 have the kanamycin resistance NPTII gene as a plant-selectable marker. pLSU13 and 15 contain the hygromycin resistance HPH gene as a selection marker. pLSU13 and 15 also have the β-glucuronidase (GUS) reporter gene in addition to the plant selection marker. We also constructed a mobilizable version of tetracycline-based binary Ti vector pLSU16 in which the mob function of ColE1 replicon was maintained for mobilization of the binary vector from E. coli to A. tumefaciens by tri-parental mating. The final size of binary Ti vector skeleton pLSU16 is 5580 bp. New tetracycline- based binary Ti vectors pLSU12 were found as effective as kanamycin-based vector pLSU2 in promoting a 10-fold increase in fresh weight yield of kanamycin-resistant calli after A. tumefaciens-mediated transformation of tobacco leaf discs. Using the Gateway Technology we introduced the plant-expressible GUSgene to the T-DNA of binary Ti vector pLSU12. Expression of the β-glucuronidase enzyme activity was demonstrated by histochemical staining of the GUS activity in transformed tobacco leaf discs.

Agrobacterium tumefaciens; Binary Ti Vectors; Gateway Technology; pLSU; Tobacco Leaf Disk Transformation; Tetracycline Resistance

S. Lee, G. Su, E. Lasserre and N. Murai, "Tetracycline-Based Binary Ti Vectors pLSU with Efficient Cloning by the Gateway Technology for Agrobacterium tumefaciens-Mediated Transformation of Higher Plants," American Journal of Plant Sciences, Vol. 4 No. 7, 2013, pp. 1418-1426. doi: 10.4236/ajps.2013.47173.