Abstract
BackgroundAs an Agrobacterium tumefaciens T-DNA oncogene, T-6b induces the development of tumors and the enation syndrome in vegetative tissues of transgenic plants. Most of these effects are related to increases in soluble sugar contents. To verify the potential roles of T-6b in the distribution of carbon in developing seeds, not in vegetative tissues, we fused an endosperm-specific promoter to the T-6b gene for expression in transgenic Arabidopsis thaliana plants.ResultsThe expression of T-6b in reproductive organs did not induce the development of the enation syndrome, and moreover, promoted endosperm expansion, which increased the total seed biomass by more than 10%. Additionally, T-6b also increased oil content in mature seeds by more than 10% accompanied with the decrease of starch and mucilage content at the same time.ConclusionsT-6b enhances seed biomass and helps oil biosynthesis but not polysaccharides in reproductive organs without disturbing vegetative growth and development. Our findings suggest T-6b may be very useful for increasing oil production in biodiesel plants.
Highlights
As an Agrobacterium tumefaciens T-DNA oncogene, T-6b induces the development of tumors and the enation syndrome in vegetative tissues of transgenic plants
T‐6b expression in the endosperm increases seed biomass The promoter of the glutelin precursor gene (Gt1), which is primarily expressed in the rice endosperm [48], was fused to T-6b for subsequent expression in transgenic A. thaliana (AtG6b) plants
T-6b was expressed in developing seeds, but not in vegetative tissues
Summary
As an Agrobacterium tumefaciens T-DNA oncogene, T-6b induces the development of tumors and the enation syndrome in vegetative tissues of transgenic plants. Most of these effects are related to increases in soluble sugar contents. Many Agrobacterium tumefaciens T-DNA genes belong to a family of the so-called developmental plasticity genes [1] This family includes the genes 3′, 5, 6a, 6b, rolB, rolC, orf, orf, lso, and various other T-DNA genes [2], which can induce the formation of tumors, known as crown galls, on many dicotyledonous plants. The 6b gene is located at the tml locus [3], and has been detected among the T-DNA of all A. tumefaciens strains This gene appears to affect the proliferation of plant cells.
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