Modern powerful techniques in plant biotechnology have been developed in lilies (Lilium spp., Liliaceae) to propagate, improve and make new phenotypes. Reliable in vitro culture methods are available to multiply lilies rapidly and shorten breeding programs. Lilium is also an ideal model plant to study in vitro pollination and embryo rescue methods. Although lilies are recalcitrant to genetic manipulation, superior genotypes are developed with improved flower colour and form, disease resistance and year round forcing ability. Different DNA molecular markers have been developed for rapid indirect selection, genetic diversity evaluation, mutation detection and construction of Lilium linkage map. Some disease resistance-QTLs are already mapped on the Lilium linkage map. This review presents latest information on in vitro propagation, genetic engineering and molecular advances made in lily.
A somatic embryogenesis (SE) protocol was established for the regeneration of Lilium ledebourii (Baker) Boiss. whole plants using new vegetative bulblet microscales and transverse thin cell layers (tTCLs) of young bulblet roots as the explant sources. Bulblets were induced from bulb scale explants cultured for at least 3 months in the dark on Murashige and Skoog (MS) medium containing 3% sucrose, 0.8% agar, and different concentrations of a-naphthaleneacetic acid (NAA), 6-benzyladenine (BA), and thidiazuron. Embryo-like structures were obtained from tTCL explants of 3-month-old bulblets (excised from bulb scale explants) following culture on solid MS medium containing 3% sucrose and various concentrations of NAA and BA for 3 months in the dark. Both the explant source and the type of plant growth regulators affected the differentiation of somatic embryos. The highest percentage (65.55%) of embryogenesis was obtained from bulblet microscale tTCLs cultured on solid MS medium containing 0.54 lM NAA and 0.44 lM BA. Plants with normal shoots and roots were obtained following a 3-month culture of embryos on growth regulatorfree MS medium at 25 ± 1°C under a 16/8-h light/dark photoperiod (light intensity 40 lmol m -2 s -1 , cool-white fluorescent light). The plants were successfully acclimatized in the growth chamber.
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