|1.||Bhat, Vishnu: 2 articles (01/2015 - 11/2005)|
|2.||Wei, Zhi Ming: 2 articles (10/2007 - 10/2004)|
|3.||Manfroi, Ernandes: 1 article (12/2015)|
|4.||Yamazaki-Lau, Elene: 1 article (12/2015)|
|5.||Roesler, Eduardo A: 1 article (12/2015)|
|6.||Grando, Magali F: 1 article (12/2015)|
|7.||Zhang, Zhisheng: 1 article (04/2015)|
|8.||Guo, Herong: 1 article (04/2015)|
|9.||Wang, Fen: 1 article (04/2015)|
|10.||Xie, Li: 1 article (04/2015)|
09/01/2013 - "Among the different combinations and concentrations tested, when the 18-h pre-cultured brinjal seeds were sonicated for 20 min and vacuum infiltered for 3 min at 500 mm of Hg in Agrobacterium suspension containing 100 μM acetosyringone, 0.2 % Silwett L-77 favoured the Agrobacterium infection and showed maximum transformation efficiency. "
04/01/2012 - "The maximum transformation efficiency (12%) was achieved with infection of callus explants for 20 min along with use of 150 μm acetosyringone. "
01/01/2009 - "Further, the presence of acetosyringone (150 muM), infection of explants for 30-45 min and 3 days of cocultivation proved to be critical factors for greatly improving the transformation efficiency. "
06/01/2008 - "Some factors influencing the transformation efficiency, such as the concentration and infection duration of Agrobacterium, the concentration of Acetosyringone (AS), were optimized to establish a stable Agrobacterium mediated gene transformation protocol of A. "
01/01/2014 - "euramericana) with Agrobacterium harboring the PBI121:CarNAC6 binary vector, we showed that the transformation efficiency was improved significantly by multiple independent factors, including an Agrobacterium infective suspension with an OD600 of 0.7, an Agrobacterium infection for 120 min, an Agrobacterium infective suspension at a pH of 5.0, an acetosyringone concentration of 200 µM, a cocultivation at 28 °C, a cocultivation for 72 h and a sucrose concentration of 30 g/L in the cocultivation medium. "
|2.||Wounds and Injuries (Trauma)
01/01/2010 - "In the natural environment it is possible that Agrobacterium and fungi may encounter each other at plant wound sites, where acetosyringone would be present, raising the possibility of natural gene transfer from bacterium to fungus. "
07/01/1995 - "Mutagenesis of the vir region on the Ti plasmid of Agrobacterium tumefaciens revealed a new locus, virJ, that is induced by the plant-wound signal molecule, acetosyringone (AS). "
01/01/1991 - "tumefaciens to wound sites, where the higher acetosyringone concentrations lead to virA and virG-mediated induction of the vir-genes. "
01/01/1991 - "By interfacing with this system, the multifunctional products of two Ti-plasmid encoded genes, virA and virG, allow the sensing of specific wound phenolics such as acetosyringone. "
01/01/2010 - "More recently this technology has been successfully applied to non-plant organisms in the laboratory, including fungi, where the plant wound hormone acetosyringone, an inducer of transformation, is supplied exogenously. "
09/01/2010 - "The significant decrease of tumor size could be suppressed by the pre-activation of bacterial virulence, before inoculation, using acetosyringone a known vir inducer. "
08/31/1998 - "The virulence (vir) genes of Agrobacterium tumefaciens KU12, a Korean strain, were not induced by acetosyringone and the strain showed weak tumor forming ability and broad plant host ranges. "
07/01/1989 - "Upon incubation of Agrobacterium tumefaciens A348 with acetosyringone, the vir genes encoded by the Ti (tumor-inducing) plasmid are induced. "
09/01/2010 - "Statistical correlations were established between tumor sizes, vir-inducing activities, O-methyltransferases proteins accumulations and the levels of various soluble phenolic compounds such as acetosyringone. "
|5.||Contagious Ecthyma (Orf)
|5.||pipoxolan (BR 18)
|6.||Proteins (Proteins, Gene)
|8.||2,4-Dichlorophenoxyacetic Acid (2,4 Dichlorophenoxyacetic Acid)
|9.||Plant Growth Regulators (Plant Hormones)