Evaluation of novel surfactants for plant transformation.

OBJECTIVE: Assess the efficiency of seven novel surfactants, relative to the typical Silwet® L-77, for floral dip transformation of Arabidopsis. RESULTS: Floral dip transformation of Arabidopsis has been used consistently for 20 years with little change in the protocol. Here we directly compare seven novel surfactants (BREAK-THRU®-OE446, S200, S233, S240, S279, S301 and SP133) to the standard Silwet® L-77 for efficiency of Arabidopsis transformation providing an example of how the surfactants can help other plant transformation protocols. Relative transformation efficiencies ranged from - 44 to + 45% compared to Silwet® L-77. Surfactants S200, S240, and S279 demonstrated the greatest enhancement in transformation.

Isolation of novel citrus and plum fruit promoters and their functional characterization for fruit biotechnology.

BACKGROUND: Promoters that confer expression in fruit tissues are important tools for genetic engineering of fruit quality traits, yet few fruit-specific promoters have been identified, particularly for citrus fruit development. RESULTS: In this study, we report five citrus fruit-specific/preferential promoters for genetic engineering. Additionally, we have characterized a novel fruit-preferential promoter from plum. Genes specifically expressed in fruit tissues were selected and their isolated promoter regions were fused with the GUSPlus reporter gene for evaluation in transgenic plants. Stable transformation in Micro-Tom tomato demonstrated that the candidate promoter regions exhibit differing levels of expression and with varying degrees of fruit specificity. CONCLUSIONS: Among the five candidate citrus promoters characterized in this study, the CitSEP promoter showed a fruit-specific expression pattern, while the CitWAX and CitJuSac promoters exhibited high fruit-preferential expression with strong activity in the fruit, weak activity in floral tissues and low or undetectable activity in other tissues. The CitVO1, CitUNK and PamMybA promoters, while exhibiting strong fruit-preferential expression, also showed consistent weak but detectable activity in leaves and other vegetative tissues. Use of these fruit specific/preferential promoters for genetic engineering can help with precise expression of beneficial genes and help with accurate prediction of the activity of new genes in host fruit plants.