ESTABLISHMENT OF AN IMPROVED, EFFICIENT AND ECO-FRIENDLY MICROPROPAGATION SYSTEM IN SALACIA CHINENSIS L. AN ENDANGERED ANTI-DIABETIC MEDICINAL PLANT

Majid BAGNAZARI; Mehdi SAIDI; Prakash HARISHCHANDRA SRIPATHY; Geetha NAGARAJA

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ESTABLISHMENT OF AN IMPROVED, EFFICIENT AND ECO-FRIENDLY MICROPROPAGATION SYSTEM IN SALACIA CHINENSIS L. AN ENDANGERED ANTI-DIABETIC MEDICINAL PLANT

机译：建立一种改良的，高效的和生态友好的微繁殖系统，在一种濒临灭绝的糖尿病药用植物中

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An efficient micropropagation system via indirect organogenesis was developed in Salacia chinensis L., an endangered anti-diabetic medicinal plant. Accurate investigation of the various plant sources (Leaf, node, shoot tip) and plant growth regulators (PGRs) impacts were accomplished in this study. Maximum rate of callus induction (93.43 ± 2.75%) was achieved from nodes inoculated on MS medium fortified with 1.0 mg/l NAA+ 2.0 mg/l BAP. Maximum shoot induction (93.33 ± 2.02%), number of shoots/explant (5.12 ± 0.09) and shoot length (3.17 ± 0.00 cm) were obtained from nodal explants inoculated on MS medium with 1.5 mg/l BAP + 1.0 mg/l NAA. IBA (2.0 mg/l) in ? MS medium was observed to be the best rooting treatment, which promoted the highest frequency of rooting (91.66 ± 2.33%). The results suggested an efficient regeneration system for conservation and large scale production for pharmaceutical industry demands.

机译：在濒危的抗糖尿病药用植物中华ala中开发了一种通过间接器官发生的有效微繁殖系统。在这项研究中，完成了对各种植物来源（叶，节，枝梢）和植物生长调节剂（PGR）影响的准确调查。从接种了1.0 mg / l NAA + 2.0 mg / l BAP的MS培养基上接种的结节，可以达到最大的愈伤组织诱导率（93.43±2.75％）。从接种于装有1.5 mg / l BAP + 1.0 mg / l NAA的MS培养基上的结点外植体中获得最大芽诱导（93.33±2.02％），芽/外植体数量（5.12±0.09）和芽长（3.17±0.00 cm）。 IBA（2.0 mg / l）在？观察到MS培养基是最好的生根处理，其促进了最高的生根频率（91.66±2.33％）。结果提出了一种高效的再生系统，可用于制药行业的需求保护和大规模生产。

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《Poljoprivreda i Sumarstvo: Agriculture and Forestry》 |2017年第3期|共10页
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Majid BAGNAZARI; Mehdi SAIDI; Prakash HARISHCHANDRA SRIPATHY; Geetha NAGARAJA;
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1. Rapid Mass Propagation of Salacia Chinensis L., an Endangered Valuable Medicinal Plant through Direct Organogenesis [J] . B. N. Majid, K. K. K. Sampath, H. S. Prakash, Indian Journal of Science and Technology . 2016,第4期

机译：通过直接器官发生对濒危珍贵药用植物中华ala快速繁殖。
2. Rapid Mass Propagation of Salacia Chinensis L., an Endangered Valuable Medicinal Plant through Direct Organogenesis [J] . B. N. Majid, K. K. K. Sampath, H. S. Prakash, Indian Journal of Science and Technology . 2016,第4期

机译：通过直接器官发生对濒危珍贵药用植物中华ala快速繁殖。
3. An efficient micropropagation system for Tylophora indica: an endangered, medicinally important plant [J] . Mohd. Faisal, Naseem Ahmad, Mohammad Anis Plant Biotechnology Reports . 2007,第3期

机译：一种有效的印度泰勒虫微繁殖系统：一种濒临灭绝的重要药用植物
4. Establishment of efficient transformation system using embryogenic suspension cultures and rgeneration of transgenic plants expressing exogenous genes in sweetpotato,Ipomoea batatas(L.)Lam. [C] . Shang Gao, Bo Yu, Ning Zang, 3rd China-Japan-Korea Workshop on Sweetpotato(第三届中日韩甘薯学术研讨会)论文集 . 2008

机译：利用胚悬浮培养建立高效转化系统，并在甘薯（Ipomoea batatas（L.）Lam）中表达外源基因的转基因植物再生。
5. Micropropagation of some of the endangered / threatened medicinal plants of North-East India [D] . Devi, Papori 2004

机译：印度东北部一些濒危/受威胁的药用植物的微繁殖
6. Two-stage culture procedure using thidiazuron for efficient micropropagation of Stevia rebaudiana an anti-diabetic medicinal herb [O] . Pallavi Singh, Padmanabh Dwivedi 2014

机译：使用噻唑隆的两阶段培养程序可有效地微生甜叶菊（一种抗糖尿病药）
7. Establishment of Efficient Regeneration System from Leaf Discs in Long Pepper an Important Medicinal Plant (Piper longum L.) [O] . Sathelly K, Podha S 2016

机译：长辣椒中叶片高效再生系统的建立重要药用植物（Piper Longum L.）

ESTABLISHMENT OF AN IMPROVED, EFFICIENT AND ECO-FRIENDLY MICROPROPAGATION SYSTEM IN SALACIA CHINENSIS L. AN ENDANGERED ANTI-DIABETIC MEDICINAL PLANT

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