In vitro Secondary Metabolite Production from the Roots of Decalepis arayalpathra KMA 05 Clones and its Antimicrobial Potential using Methylobacterium sp. VP103 as an Elicitor

S. Srivastava, Nellie Laisram, V. P. Singh
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Abstract

Decalepis arayalpathra KMA 05 clones were elicited with a bacterium, Methylobacterium sp. VP103 isolated from the leaves of ex-vitro established plantlets of D. arayalpathra KMA 05 clones, with the aim of increasing the production of root specific secondary metabolites. D. arayalpathra KMA 05 shoot tip cultures were triggered for root initiation by keeping the cultures for one month in ½ strength Woody Plant Medium (WPM)+Thidiazuron (TDZ) 0.3 mg/l. They were then shifted to ½ strength WPM supplemented with auxins [0.5 mg/l indole-3-butyric acid (IBA) + 0.05 mg/l Naphthalene acetic acid (NAA)] along with 40 mg/l activated charcoal with a fixed concentration (0.4 mg/l) of lyophilized bacterium powder (LBP) dissolved in 30% methanol. The effect of elicitation was studied on three root specific secondary metabolites, i.e. 2-hydroxy 4-methoxy benzaldehyde (MBALD), 2-methoxy-4-vinylphenol (2M4VP) and α-amyrin. The production of α-amyrin was found to be enhanced in all 12, 24 and 36 week old treated root extracts. Antibacterial activity was also found to be enhanced against all the bacteria selected from the 36 week elicited extracts among which Rhodococcus sp. UKS7 (34 ± 0.0 mm.) showed maximum inhibition. The findings provide an insight into the use of Methylobacterium sp. VP103 as an elicitor in the growth of the roots and enhanced production of α-amyrin.
以甲基细菌sp. VP103为激发子的arayalpatha Decalepis KMA 05克隆体外次生代谢物的产生及其抑菌潜力
利用分离的Methylobacterium sp. VP103细菌,从arayalpathra KMA 05离体植株的叶片中,诱导出一种具有根特异性的次生代谢产物。在1 / 2浓度木本植物培养基(WPM)+ 0.3 mg/l噻脲(TDZ)中培养1个月,触发D. arayalpathra KMA 05茎尖形成根。然后将它们转移到补充生长素的1 / 2强度WPM [0.5 mg/l吲哚-3-丁酸(IBA) + 0.05 mg/l萘乙酸(NAA)]以及40 mg/l活性炭,其中含有固定浓度(0.4 mg/l)溶解在30%甲醇中的冻干细菌粉(LBP)。研究了诱导对2-羟基4-甲氧基苯甲醛(MBALD)、2-甲氧基4-乙烯基酚(2M4VP)和α-amyrin 3种根特异性次生代谢产物的影响。12周、24周和36周处理后,α-amyrin的产量均有所增加。对36周提取液中所有细菌的抑菌活性均有增强,其中红球菌(Rhodococcus sp. UKS7)(34±0.0 mm.)抑菌活性最强。该研究结果为甲基细菌VP103作为诱导子在根生长和α-amyrin生成中的应用提供了新的思路。
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