Citrus somatic hybridization and cybridization via protoplast fusion has become an integral part of citrus variety improvement programs worldwide. Citrus somatic hybrid plants have been regenerated from more than 200 parental combinations, and several cybrid combinations have also been produced. Applications of somatic hybridization to citrus scion improvement include the production of quality tetraploid breeding parents that can be used in interploid crosses to generate seedless triploids, and the direct production of triploids by haploid + diploid fusion. Applications of somatic hybridization to citrus rootstock improvement include the production of allotetraploid hybrids that combine complementary diploid rootstocks, and to combine citrus with sexually incompatible or difficult to hybridize genera that possess traits of interest for germplasm expansion. A few somatic hybrid tetraploid breeding parents have flowered, are fertile, and are being used as pollen parents to generate triploids. Several allotetraploid somatic hybrid rootstocks are performing well in commercial field trials, and show great promise for tree size control. Seed trees of most of these somatic hybrid rootstocks are producing adequate nucellar seed for standard propagation. Somatic hybridization is expected to have a positive impact on citrus cultivar improvement efforts.
An alternative method for transforming sweet orange [Citrus sinensis (L.) Osbeck] has been developed. Plasmid DNA encoding the non-destructive selectable marker enhanced green fluorescent protein gene was introduced using polyethylene glycol into protoplasts of`Itaborai' sweet orange isolated from an embryogenic nucellar-derived suspension culture. Following protoplast culture in liquid medium and transfer to solid medium, transformed calluses were identified via expression of the green fluorescent protein, physically separated from non-transformed tissue, and cultured on somatic embryogenesis induction medium. Transgenic plantlets were recovered from germinating somatic embryos and by in vitro rooting of shoots. To expedite transgenic plant recovery, regenerated shoots were also micrografted onto sour orange seedling rootstocks. Presence of the transgene in calluses and regenerated sweet orange plants was verified by gene amplification and Southern analyses. Potential advantages of this transformation system over the commonly used Agrobacterium methods for citrus are discussed.
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