Hairy root culture of Strobilanthes cusia for the production and enhancement of indigo biosynthesis

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-27 DOI:10.1007/s11240-024-02791-9
Rajkumari Lunphasana Devi, Sanasam Thoibi Devi, Keithellakpam Sanatombi
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Abstract

Strobilanthes cusia is an indigo-yielding plant and scarcity of both wild and cultivated plants has increased the supply pressure of the natural dye. Since hairy root cultures are suitable for the in vitro production of secondary metabolites, the hairy root culture of Strobilanthes cusia was established using two Rhizobium rhizogenes strains (ATCC 15834 and MTCC 532). Polymerase chain reaction (PCR) using rol B primer confirmed the molecular evidence of hairy root transformation. The differential transformation frequency was studied based on factors like explants types (leaves, shoot tips, and stem); infection techniques, infection period, co-cultivation period, bacterial strain types, acetosyringone concentration, and antibiotic treatment conditions. Leaf explants, infected with ATCC 15834 exhibited the highest induction rate (58.67%) among the three explants. The most efficient hairy root transformation was achieved with the immersion technique, involving 10 min of infection and 5 days of co-cultivation using 100 µM acetosyringone during infection. When the indigo content of the hairy roots and different parts of in vitro plantlets were compared, the hairy roots produced 0.314 mg/g fresh weight (FW) of indigo, slightly more than the roots (0.21 mg/g FW), but less than the leaves (1.08 mg/g FW) of in vitro plantlets. Further, the indigo content of the hairy root cultures treated with 200 µM indican and 200 µM salicylic acid were enhanced up to 0.78 mg/g FW and 0.71 mg/g FW, respectively. Thus, this study reveals the potential of hairy roots of S. cusia for indigo biosynthesis, which may serve as a potential alternative source for natural indigo.

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用于生产和提高靛蓝生物合成的石蒜毛根培养物
茜草是一种产靛植物,野生和栽培植物的稀缺增加了天然染料的供应压力。由于毛根培养物适合于离体生产次生代谢产物,因此我们使用两种根瘤菌(ATCC 15834 和 MTCC 532)建立了石蒜的毛根培养物。使用 rol B 引物进行聚合酶链式反应(PCR)证实了毛根转化的分子证据。根据外植体类型(叶片、芽尖和茎)、感染技术、感染期、共培养期、细菌菌株类型、乙酰丁香酮浓度和抗生素处理条件等因素,研究了不同的转化频率。在三种外植体中,感染 ATCC 15834 的叶片外植体的诱导率最高(58.67%)。浸泡技术实现了最有效的毛细根转化,包括 10 分钟的感染和 5 天的共培养,感染期间使用 100 µM 的乙酰丁香酮。在比较毛根和离体小植株不同部位的靛蓝含量时,毛根产生的靛蓝含量为 0.314 毫克/克鲜重(FW),略高于离体小植株的根(0.21 毫克/克 FW),但低于叶片(1.08 毫克/克 FW)。此外,经 200 µM indican 和 200 µM 水杨酸处理的毛根培养物的靛蓝含量分别提高到 0.78 mg/g FW 和 0.71 mg/g FW。因此,这项研究揭示了 S. cusia 的毛根在靛蓝生物合成方面的潜力,可作为天然靛蓝的潜在替代来源。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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