Agrobacterium-mediated transformation of mature embryo tissues of bread wheat (Triticum aestivum L.) genotypes
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Hanane Aadel, Rabha Abdelwahd, Sripada M. Udupa, Ghizlan Diria, A. El-Mouhtadi, Khadija Ahansal, F. Gaboun, A. Doulra, Driss Iraqi. (2/1/2018). Agrobacterium-mediated transformation of mature embryo tissues of bread wheat (Triticum aestivum L. ) genotypes. Cereal Research Communications, 46.
Abstract
Although significant progress has been made on Agrobacterium-mediated wheat transformation, current methodologies
using immature embryos as recipient tissues are labor intensive, time consuming and expensive. The use of mature
embryos as explants is increasingly being recognized as an optimal method for developing regenerable cell lines during
wheat transformation. Therefore, we have developed an Agrobacterium-based transformation protocol using mature
embryos while adjusting several factors that influence genetic transformation efficiency. In this study, we focussed on
acetosyringone concentrations, genotypes and different types of mature embryos (intact or longitudinally halved-embryos
or fragmented into four latitudinal pieces) used as a source of explants for the genetic transformation. A.
tumefaciens strain EHA101 harboring the plasmid vector pTF101.1 carrying the barley HVA1 gene and bar-selectablemarker gene were used. Mature intact-embryos and longitudinally halved-embryos yielded the highest number of putative
transgenic plantlets on the selection medium. However, no plantlets were obtained from latitudinal fragmented mature
embryos. ‘Amal’ and ‘Rajae’ genotypes regenerated the highest number of putative transgenic plants and 200 μM
acetosyringone was found to be the optimal concentration for their transformation. A total of 47 transgenic plants were
selected with 11 plantlets showing resistance to leaf painting. Molecular analysis revealed that 1% and 0.66% of
T0 regenerated plantlets were successfully transformed and carried the HVA1 gene for the ‘Amal’ and ‘Rajae’ genotypes,
respectively. Additional analysis shows the transgene is stably inherited in the T1 generation. Based on the results, we
conclude that among the influencing factors tested, genotypes, mature embryo explant types and acetosyringone
concentration contribute significantly to the success of bread wheat transformation.
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Udupa, Sripada M. https://orcid.org/0000-0003-4225-7843