Abstract
BackgroundPrevious literatures revealed that gamma rays have an increasing effect on salt tolerance in different plants. In vitro experiment was conducted to study the effect of gamma rays (20 Gray) on salt tolerance of four potato cultivars (Lady Rosetta, Diamante, Gold, and Santana).ResultsGamma-treated Santana plantlets were more tolerant to salinity as compared to other cultivars. It showed a significant increment of fresh weight (250% over the untreated). Gamma-treated plantlets of Lady Rosetta, Diamante, and Gold showed higher activity of peroxidase (POD) and polyphenol oxidase (PPO). Isoenzymes analysis showed an absence of POD 3, 4, and 5 in Gold plantlets. The dye of most PODs and PPOs bands were denser (more active) in gamma-treated plantlets of Santana as compared to other cultivars. Both gamma-treated and untreated plantlets showed the absence of PPO1 in Lady Rosetta and Diamante, and PPO 3, 4, and 5 in Gold plantlets. Genetic marker analysis using ISSR with six different primers showed obvious unique negative and positive bands with different base pairs in mutant plantlets as compared to the control, according to primer sequence and potato genotype. The 14A primer was an efficient genetic marker between mutated and unmutated potato genotypes. Santana had a unique fingerprint in the 1430-pb site, which can be a selectable marker for the cultivar. An increment in genetic distance between Gold cultivar and others proved that the mutation was induced because of gamma rays.ConclusionWe assume that irradiation of potato callus by 20-Gy gamma rays is an effective process for inducing salt resistance. However, this finding should be verified under field conditions.Graphic
Highlights
Previous literatures revealed that gamma rays have an increasing effect on salt tolerance in different plants
The aim of this research was to study the differential Inter simple sequences repeat (ISSR) amplified fragments over four potato cultivars (Lady Rosetta, Diamante, Gold and Santana) and to examine the ability of gamma rays for inducing salt resistant in potato cultivars, confirm these results using molecular characteristics under field conditions compared with non-irradiated plantlets
The biochemical and molecular analysis of potato plantlets were carried out: Activity of peroxidase (POD) and polyphenol oxidase (PPO) Enzyme extraction 200 mg of fresh plantlets were homogenized with 10 ml of 0.1 M phosphate buffer, and centrifuged (20000 rpm) at 20 °C for 20 min
Summary
Previous literatures revealed that gamma rays have an increasing effect on salt tolerance in different plants. In vitro experiment was conducted to study the effect of gamma rays (20 Gray) on salt tolerance of four potato cultivars (Lady Rosetta, Diamante, Gold, and Santana). Potato tubers are known for their high nutritional value (20–30% starch, 2% protein, vitamins B1, B2, C, minerals, etc.). Potato cultivars such as Lady Rosetta are used for cooking and in chips industry. Cultivars such as Diamante and Santana with superficial eyes-tubers, creamy pulp and more than 20% of dry matter are used as half-fried [1]. Agric. (2021) 8:35 detoxification signals to repair stress damages coordinate cell division [7]
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