Desiccation of plant tissues post-Agrobacterium infection enhances T-DNA delivery and increases stable transformation efficiency in wheat

Abstract

Factors influencing the Agrobacterium-mediated transformation of both monocotyledonous and dicotyledonous plant species have been widely investigated. These factors include manipulating Agrobacterium strains and plasmids, growth conditions for vir gene induction, plant genotype, inoculation and co-culture conditions, and the selection agents and their application regime. We report here a novel physical parameter during co-culture, desiccation of plant cells or tissues post-Agrobacterium infection, which greatly enhances transfer DNA (T-DNA) delivery and increases stable transformation efficiency in wheat. Desiccation during co-culture dramatically suppressed Agrobacterium growth, which is one of the factors known to favor plant cell recovery. Osmotic and abscisic acid treatments and desiccation prior to inoculation did not have the same enhancement effect as desiccation during co-culture on T-DNA delivery in wheat. An efficient transformation protocol has been developed based on desiccation and is suitable for both paromomycin and glyphosate selection. Southern analysis showed approximately 67% of transgenic wheat plants received a single copy of the transgene.