Abstract
ABSTRACT Apricot is one of the most valuable commercial fruits. In vitro propagation of apricot is very important for rapid multiplication of cultivars with desirable traits and production of cleaning up and virus-free plants. Low frequency of multiplication is the main limiting factor for traditional propagation methods. In this regard, the objective of our investigation was to study the morphogenetic capacity of apricot leaf explants of the promising cultivars ‘Iskorka Tavridy’, ‘Magister’ and ‘Bergeron’ for regeneration system development and solving some breeding questions. The source of explants was in vitro plants regenerated and cultured on QL medium. Leaves were maintained in the dark at 24±1 °C in thermostat for three-four weeks. Morphogenic callus and structures were mainly formed at the central and proximal parts of leaves on MS, QL and WPM media with 1.5 or 2.0 mg L-1 BAP and 1.5 or 2.0 mg L-1 IAA in different combinations, or TDZ (0.6 and 1.3 mg L-1). Callus with adventive buds was transferred to regeneration medium and placed into a growth chamber at 24±1 °C and 16-hour photoperiod with a light intensity of 37.5 μmol m-2 s-1. The best results were obtained when adaxial leaf surface was in contact with the culture medium. Frequency of leaf callus formation on MS medium with 1.5 mg L-1 BAP and 1.5 mg L-1 IAA was higher in the explants of ‘Iskorka Tavridy’ (80.0%) than in - ‘Bergeron’ (50.0%) and ‘Magister’ (36.7%). The best results of callogenesis for ‘Magister’ was obtained on MS medium with 1.3 mg L-1 TDZ (53.3%). Active microshoot regeneration in ‘Iskorka Tavridy’ cultivar was shown on MS medium with BAP and IAA and in ‘Magister’ cultivar - on MS medium with TDZ. Rhizogenesis was obtained on half strength MS medium with 2.0 mg L-1 IBA.
Highlights
Apricot (Prunus armeniaca L., genus Prunus L., family Rosaceae Juss.) is the second major industrial stone fruit crop in the world
There is a decrease of the areas under the apricot orchards, which is primarily due to the irregular fruiting of apricot genotypes and their damages by Sharka disease (Plum pox virus, PPV) that results in the crop losses and death of trees (Cambra et al, 2006; Mitrofanova et al, 2015, 2017; Nemeth, 1994)
The main problem of the development of adventitious bud and microshoot regeneration system from apricot leaf under in vitro conditions is the induction of morphogenic callus formation
Summary
Apricot (Prunus armeniaca L., genus Prunus L., family Rosaceae Juss.) is the second major industrial stone fruit crop in the world. It is widespread in European countries, Iran, Turkey, USA and others (Gorina; Richter, 2018; Potter, 2012). Apricot fruits are characterized with high taste qualities, rich in mineral and biologically active substances. Modern methods of biotechnology and genetic engineering make it possible to accelerate significantly the creation of PPV-resistant high-yield cultivars of stone fruit crops, including apricot The main trend of the presented study was to investigate the factors stimulated induction of adventitious bud and microshoot regeneration from leaf explants of the new promising apricot cultivars ‘Iskorka Tavridy’ and ‘Magister’ originated in Nikita Botanical Gardens (Russia) and cultivar ‘Bergeron’ (France) widespread growing in the European countries
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