Abstract
Tissue culture is an essential requirement in plant science to preserve genetic resources and to expand naturally occurring germplasm. A variety of naturally occurring and synthetic hormones are available to induce the processes of dedifferentiation and redifferentiation. Not all plant material is susceptible to tissue culture, and often complex media and hormone requirements are needed to achieve successful plant propagations. The availability of new hormones or chemicals acting as hormones are critical to the expansion of tissue culture potentials. Phloroglucinol has been shown to have certain hormone-like properties in a variety of studies. Ornithogalum dubium, an important geophyte species, was used to characterise the potential of phloroglucinol as the sole plant-like hormone in a tissue culture experiment. Tissue culture, plant regeneration, total phenolic and genetic variability were established by applying a variety of methods throughout long-term experiments. Phloroglucinol did induce callus formation and plant regeneration when used as the sole supplement in the media at a rate of 37%, thus demonstrating auxin/cytokines-like properties. Callus formation was of 3 types, friable and cellular, hard and compact, and a mixture of the two. The important finding was that direct somatogenesis did occur albeit more frequently on younger tissue, whereby rates of induction were up to 52%. It is concluded that phloroglucinol acts as a “hormone-like” molecule and can trigger direct embryogenesis without callus formation.
Highlights
Ornithogalum dubium, known as the Bethlem Star, is an African species belonging to the Hyacinthaceae family [1]
The propensity of tissue culture of O. dubium regeneration was established on 2 types of media, MS (Murashige and Skoog medium) basal medium and MS with Gamborgs vitamins (MSG), and with the same hormones and hormone concentrations
Both media formulations displayed an efficient regeneration propensity, with most fragments being able to dedifferentiate to a calli-status and to redifferentiate to a shoot status, without any requirements to alter the media composition
Summary
Ornithogalum dubium, known as the Bethlem Star, is an African species belonging to the Hyacinthaceae family [1]. The Hyacinthaceae family has an estimate of 700–900 species, of which. 400 species are endemic in Southern Africa, making it one of the predominant and most important geophyte families [1]. The Ornithogalum group has been reviewed a number of times, and within it, one genus and one subgenus were identified, characterised by a basic chromosome number difference. The subgenus Aspasia is characterised by a smaller basal chromosome number, n = 6, and a reduced number of species 12, of which O. dubium is included [1]. Ornithogalum dubium is an important commercial species for cut flowers and potted plants [2], with an estimated 40 million cut flowers for
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