Tinland B, Rohfritsch O, Michler P, Otten L
Institut de Biologie Moléculaire des Plantes du CNRS, Strasbourg, France.
Mol Gen Genet. 1990 Aug;223(1):1-10. doi: 10.1007/BF00315790.
All Agrobacterium tumefaciens strains studied up to now transfer an active 6b gene to plant cells. However, the role of this gene in natural tumour induction is unknown. Various effects of 6b on plant cell growth have been described, but the precise mechanism by which 6b causes these effects has not been elucidated. Earlier experiments indicated that the 6b gene might increase auxin sensitivity as do the A. rhizogenes rol genes. The 6b gene from Tm4 (T-6b) was therefore compared with the rolB and rolABC genes. Although T-6b was unable to induce root formation, it strongly interfered with root induction and root elongation. In rolABC/T-6b coinfection experiments on carrots, T-6b-transformed cells stimulated root outgrowth of rolABC-transformed cells, indicating that the biologically active T-6b product is diffusible. Carrot rolABC roots containing the T-6b gene rapidly developed into unorganized calli. Nicotiana rustica roots with rolABC and T-6b continued their development, but became very large. Fragments of such roots formed callus at alpha-naphthaleneacetic acid concentrations which inhibited growth of rolABC and normal root fragments, suggesting that the role of 6b genes in natural tumour induction may be to reduce the inhibitory effects of high auxin levels and to keep cells in an undifferentiated state.
到目前为止,所有已研究的根癌农杆菌菌株都会将一个有活性的6b基因转移到植物细胞中。然而,该基因在自然肿瘤诱导中的作用尚不清楚。已描述了6b对植物细胞生长的多种影响,但6b导致这些影响的确切机制尚未阐明。早期实验表明,6b基因可能像发根农杆菌的rol基因一样增加生长素敏感性。因此,将来自Tm4的6b基因(T-6b)与rolB和rolABC基因进行了比较。尽管T-6b不能诱导根的形成,但它强烈干扰根的诱导和根的伸长。在胡萝卜的rolABC/T-6b共感染实验中,T-6b转化的细胞刺激了rolABC转化细胞的根生长,这表明具有生物活性的T-6b产物是可扩散的。含有T-6b基因的胡萝卜rolABC根迅速发育成无组织的愈伤组织。具有rolABC和T-6b的黄花烟草根继续生长,但变得非常大。这种根的片段在α-萘乙酸浓度下形成愈伤组织,而该浓度会抑制rolABC和正常根片段的生长,这表明6b基因在自然肿瘤诱导中的作用可能是降低高生长素水平的抑制作用,并使细胞保持未分化状态。
