An artificial miRNA as a new tool to silence and explore gene functions in apple.

Abstract

Artificial miRNA (amiRNA) is a powerful technology to silence genes of interest. It has a high efficiency and specificity that can be used to explore gene function through targeted gene regulation or to create new traits. To develop this gene regulation tool in apple, we designed two amiRNA constructs based on an apple endogenous miRNA backbone previously characterized (Md-miR156h), and we checked their efficiency on an easily scorable marker gene: the phytoene desaturase gene (MdPDS in apple). Two pairs of miRNA:miRNA* regions were designed (named h and w). The monocistronic Md-miR156h with these MdPDS targets was placed under the control of the CaMV 35S promoter to generate the two plasmids: pAmiRNA156h-PDSh and pAmiRNA156h-PDSw. Two Agrobacterium-mediated transformation experiments were performed on the cultivar 'Gala'. A total of 11 independent transgenic clones were obtained in the first experiment and 5 in the second. Most transgenic lines had a typical albino and dwarf phenotype. However, six clones had a wild type green phenotype. Molecular analyses indicated clear relationships between the degree of albino phenotype, the level of MdPDS gene expression and the amount of mature amiRNAs. This study demonstrated for the first time in apple the functionality of an artificial miRNA based on an endogenous miRNA backbone. It provides important opportunities for apple genetic functional studies as well as apple genetic improvement projects.