Abstract
A high yield of isolated protoplasts and efficient regeneration protocols are prerequisites for successful development of somatic hybrids. In the present study, protoplast isolation and regeneration were evaluated in 12 Kalanchoë accessions belonging to nine species. The highest protoplast yield was obtained from K. blossfeldiana ‘Charming Red Meadow’ with 10.78 ± 0.51 × 105 protoplasts per gram fresh weight. We observed significant differences of protoplast yield while there was no distinct difference in viability among the accessions. Seven accessions reached the microcolony stage and four developed microcalli in medium supplemented with 1.0 mg/l 1-naphthaleneacetic acid (NAA), 0.5 mg/l 6-benzylaminopurine (BAP) and 0.5 mg/l 2,4-dichlorophenoxy acetic acid (2,4-D). Using five selected accessions we optimized the PGR (plant growth regulators) concentrations using combinations of NAA, BAP and 2,4-D. K. blossfeldiana cultivars ‘Charming Red Meadow’ and ‘Paris’ produced significantly different numbers of calli depending on the PGR concentrations. For plant regeneration, the medium was supplemented with 1 mg/l NAA and 2 mg/l BAP or 2 mg/l zeatin. Shoots were regenerated on medium supplemented with NAA and BAP for K. blossfeldiana ‘Charming Red Meadow’ and K. blossfeldiana ‘Paris’. The plants successfully developed roots on the medium supplemented with IAA. The medium containing zeatin induced root formation directly from callus in K. blossfeldiana ‘Charming Red Meadow’. Our findings have the potential to facilitate the use of Kalanchoë species in somatic hybridization breeding programs.
Highlights
Kalanchoë is a widespread flowering plant genus belonging to the Crassulaceae family
Successful interspecific hybridization was accomplished within the Kalanchoë genus (Izumikawa et al 2008; Kuligowska et al 2015a; Huang and Chu 2017), development of hybrids is limited due to hybridization barriers related to sexual reproduction (Kuligowska et al 2015b)
Nine Kalanchoë species were used in the present experiments: K. aromatica, three K. blossfeldiana cultivars: ‘Charming Red Meadow’, ‘Charlie’ and ‘Paris’, K. gracilipes, K. marnieriana, K. miniata, K. pinnata wild type (WT) and a root oncogenic loci—gene transformed type, K. pumila, K. streptantha and K. rotundifolia
Summary
Kalanchoë is a widespread flowering plant genus belonging to the Crassulaceae family. The cultivar improvement is achieved using cross-breeding and interspecific hybridization (Izumikawa et al 2008; Kuligowska et al 2015a), though genetic engineering has been reported (Lütken et al 2011). Fusion of protoplasts from different species provides a practical breeding tool that can bypass sexual hybridization-related barriers. The successful shoot regeneration from leaf and internode explants using thidiazuron (TDZ) was reported in K. blossfeldiana (Sanikhani et al 2006; Lütken et al 2011). One study reported regeneration of plants from protoplasts of a single K. blossfeldiana cultivar (Castelblanque et al 2010). Electric fusion was reported between isolated vacuoles and protoplasts of K. daigremontiana (Vienken et al 1981), while neither chemical fusion nor successful somatic hybridization was obtained in Kalanchoë genus. The results reveal the regeneration ability of several Kalanchoë species and the role of plant growth regulators in protoplast regeneration
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