Expression of rol genes in transgenic soybean (Glycine max L.) leads to changes in plant phenotype, leaf morphology, and flowering time

Soybean (Glycine max L.) cultivar NARC-4 was transformed with constructs carrying rolA, rolB, or rolC genes, each under the control of the Cauliflower Mosaic Virus 70S promoter. Cotyledonary nodes of soybean seeds were infected with Agrobacterium tumefaciens strain LBA4404 carrying one of the three rol genes, along with nptII in the plasmid pLBR. The efficiency of the transformation varied slightly among the three constructs, with frequencies of 6, 7, and 5% for the rolA, rolB, and rolC genes, respectively, being observed. Southern blot analysis confirmed the integration of rol genes in the soybean genome with varying numbers of copies of the transgene. All transformed plants showed enhanced rooting, but the number of adventitious roots was higher for transformants carrying the rolB transgene. rolA and rolC transformants showed dwarf phenotypes, clustered branching, and variations in leaf morphology. Furthermore, these plants flowered within a short period of time and produced lower numbers of flowers. rolB transformants showed variations in phenotype, including dwarf to semi-dwarf and shrubby growth, abnormal stem growth, short internodes, variations in leaf morphology, and greenish to yellowish-green colored leaves. These plants also flowered early, but dwarf plants produced low numbers of flowers, while shrubby plants produced high numbers of flowers, but these were mostly infertile.