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Droplet-vitrification of Aranda Broga Blue orchid: Role of ascorbic acid on the antioxidant system and genetic fidelity assessments via RAPD and SCoT markers

Soo Ping Khor, Lit Chow Yeow, Ranjetta Poobathy, Rahmad Zakaria, Bee Lynn Chew, Sreeramanan Subramanıam

2020Biotechnology Reports25 citationsDOIOpen Access PDF

Abstract

Broga Blue orchid hybrid using protocorm-like bodies (PLBs). However, maximum growth regeneration percentage was recorded at 5% only based on previous report. Thus, to improve growth recovery of cryopreserved PLBs, cryopreservation stages were supplemented with ascorbic acid, tested at 50, 100 and 150 mg/L. However, results demonstrated that exogenous ascorbic acid was not favorable in regeneration of cryopreserved explants (maximum value of 1.67 % with 50 mg/L ascorbic acid supplementation). Total soluble protein and various antioxidant enzyme activities such as catalase (CAT), superoxide dismutase (SOD) and ascorbate peroxidase (APX) were evaluated after each cryopreservation stages in conjunction with the application of exogenous ascorbic acid. Addition of antioxidant must be carefully evaluated and its application may not guarantee successful growth recovery. RAPD and SCoT molecular analysis confirmed the genetic stability of regenerated cryopreserved PLBs as no polymorphism was detected compared to control PLBs culture.

Topics & Concepts

Ascorbic acidCryopreservationVitrificationRAPDAntioxidantAPXSuperoxide dismutaseCatalaseChemistryFood sciencePeroxidaseBiochemistryBiologyAndrologyEnzymeGeneticsEmbryoGenetic diversityMedicineEnvironmental healthPopulationPlant tissue culture and regenerationSeed Germination and PhysiologyPlant Genetic and Mutation Studies
Droplet-vitrification of Aranda Broga Blue orchid: Role of ascorbic acid on the antioxidant system and genetic fidelity assessments via RAPD and SCoT markers | Litcius