Pre-isolation, isolation and regeneration protoplasts from leaf mesophyll of in vivo Malus domestica ‘Anna’ cv.

Sherif Fathy Eid El-Sayed El-Gioushy,Mohamed Hemdan Mohamed Baiea,Abdul Kareem

doi:10.1590/0100-29452019561

Sherif Fathy Eid El-Sayed El-Gioushy, Mohamed Hemdan Mohamed Baiea + Show 1 more

Open Access

https://doi.org/10.1590/0100-29452019561

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Abstract

Abstract To isolate protoplast, a pre-treatment was completed with the order to reduce and identify the phenolic contents round the year to encourage the isolation of protoplasts. Protoplasts from in vivo mesophyll leaves of apple cultivar “Anna” was isolated from 15 days old leaves by plasmolying in medium containing 90 g L-1 mannitol for half hour, then 130 g L-1 mannitol for half hour. Then using enzymatic mixture involving (1.5% cellulase + 0.5% pectianase + 1.5% Macrozyme) Prior to isolation. Anyhow, diverse factors, for example, Osmotic pressure, incubation period, sieve pore size, centrifugation period and hormonal balance was estimated using the techniques for isolation. The quantity of cells was computed as the quantity of cells per square on haemocytometer. A considerable higher yield of protoplast formation was noted in the CPW medium using a pore size of 25 µm with using incubation period for 20 hours. Moreover, the best protoplast regeneration with using of protoplast density of 2.0 x 105 in MS medium supplemented by 1.0 mg L-1NAA and 0.3 mg L-1BAP. We believed that our protocol might encourage the plant recovery using in apple somatic hybridization programs.

Highlights

The genus Malus has a place with the Rosaceae family and forms with its closely related fruits (Pyrus and Cydonia) and ornaments (Amelanchier, Aronia, Chaenomeles, Cotoneaster, Crateagus, Pyracantha, Sorbus) genera, the subfamily Maloideae (CORNILLE et al, 2012)
At first little advancement was made in improvement of apple cultivars through controlled crossing, since their initial domestication, apples have been transported around the world and the cultivated species is grown in all temperate biomes on Earth (HANCOCK et al, 2008)
The application of somatic hybridization may augment the quality pool accessible for apple breeding and improvement, and might be especially imperative for a standout amongst the most vital dwarfing apple rootstocks used around the world, the cultivar ‘M9’ (Malus pumila Mill.; HÖHNLE and WEBER, 2007)

Summary

Introduction

The genus Malus has a place with the Rosaceae family and forms with its closely related fruits (Pyrus and Cydonia) and ornaments (Amelanchier, Aronia, Chaenomeles, Cotoneaster, Crateagus, Pyracantha, Sorbus) genera, the subfamily Maloideae (CORNILLE et al, 2012). The apple tree (Malus domestica Borkh) is a standout amongst the most financially imperative fruit grown from the berry crops in world agrarian practice. The application of somatic hybridization may augment the quality pool accessible for apple breeding and improvement, and might be especially imperative for a standout amongst the most vital dwarfing apple rootstocks used around the world, the cultivar ‘M9’ (Malus pumila Mill.; HÖHNLE and WEBER, 2007). Which got from the hybrid of Golden Delicious and Red Hadassiya has a decent fruit quality and successfully grown under Egypt conditions. As an initial step to create another cultivar of apple has great quality and low chilling requirements suitable for Egypt natural conditions The aim of this investigation was to build up a reliable protocol for the isolation and culture of mesophyll protoplasts from the leaves of Malus domestica ‘Anna’ cv. as an initial step to create another cultivar of apple has great quality and low chilling requirements suitable for Egypt natural conditions

Materials and methods

Results

Conclusion