In Vitro Gynogenesis in Leek (Allium ampeloprasum L.).

Leek (A. ampeloprasum L.) is an economically important vegetable crop from Alliaceae family. It is a non-bulb forming biennial species grown for its pseudostem and leaves. Leek is a tetraploid with one of the largest genomes known among cultivated plant species. It has enormous economic importance all around the world for many purposes such as vegetable, medicinal herb, and food seasoning. Production and consumption of leek is in rise all around the world and breeders are trying to develop new F1 hybrid varieties with desired agronomical traits. Although self-compatible, leek shows high tendency toward outcrossing and display severe inbreeding depression when selfed with its own pollen. Therefore, inbred development through classical breeding techniques is very difficult in this crop. Traditional leek genotypes are highly heterozygous, open pollinated varieties. There is a high demand for F1 hybrid varieties with resistance to biotic and abiotic stresses and high-quality plants. Our group is trying to incorporate gynogenesis-based doubled haploid technology to leek improvement programs. Over the years, many experiments were carried out to determine the gynogenic potential of donor leek genotypes of different genetic backgrounds in different induction media. Here, we report a protocol allowing production of green gynogenic leek plants via single step culture of unopened flower buds. Ploidy levels of gynogenic regenerants are determined by flow cytometry analysis. A majority of the gynogenic leek regenerants produced survived well in vivo.