Enhancement of shoot organogenesis in Polygonum tinctorium by sucrose and gelling agents

Q4 Agricultural and Biological Sciences

Journal of Phytology Pub Date : 2022-11-22 DOI:10.25081/jp.2022.v14.8055

S. Park, K. Kil

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引用次数: 0

Abstract

Indigo (Polygonum tinctorium), though it is a medicinal and dye crop, can also be grown in temperate areas, especially because it is commonly disseminated in Japan. To date, much research has been considered under investigation, especially for the regeneration of the indigo plant. Here in this study, we investigated the response of sucroses and gelling agents on the shoot organogenesis of the indigo plant. Micropropagation in terms of shoot regeneration and its growth was highly responded to sucrose and gelling agents. While culturing of internode explants on initial shoot regeneration media supplemented with sucrose and gelling agents of phytagar and gelrite significantly upgraded the regeneration efficiency as well as shoot growth. The regeneration capacity of the shoot was augmented with increased levels of sucrose up to 40 g L-1 and then started to decrease, whereas the increasing pattern continued even at the highest concentration (50 g L-1). The highest shoot regeneration (6.0 ± 0.5) was achieved by the treatment of 40 g L-1 giving 7.5 times higher shoot regeneration compared to the control. The increasing pattern for shoot length was more pronounced than that of shoot regeneration. The shoot length ranged from 10.2 mm to 23.5 mm within the sucrose treatments. In this study, the highest shoot length (23.5± 0.21) was observed by the treatment of 50 g L-1 exhibiting 2.3 times higher shoot length compared to the control. Gelling agent gelrite performed better than phytagar for both regeneration and shoot length growth. The shoot regeneration among the phytagar treatments ranged from 3.8 to 6.0 shoots/explant whereas the shoot regeneration ranged from 6.6 to 7.2 among the gelrite treatments. The highest shoots/explant (7.2) and the longest shoot length (22.4 mm) were observed due to the treatment of gelrite 3. The lowest shoot regeneration and shoot length were denoted when phytagar 9 was applied. It is proposed from our study that sucrose and gelling agent especially gelrite 3 could be applied in shoot organogenesis and plant transformation of any plant species, especially for P. tinctorium.

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蔗糖和胶凝剂对黄蓼芽器官发生的促进作用

靛蓝(Polygonum tinctorium)虽然是一种药用和染料作物，但也可以在温带地区种植，特别是因为它在日本普遍分布。到目前为止，许多研究已经被考虑在调查中，特别是靛蓝植物的再生。本研究研究了蔗糖和胶凝剂对靛蓝植株茎部器官发生的影响。蔗糖和胶凝剂对小繁苗的再生和生长反应强烈。节间外植体在初始再生培养基上添加蔗糖和植脂胶凝剂、明胶胶可显著提高植株的再生效率和生长速度。蔗糖浓度为40 g L-1时，植株的再生能力随蔗糖浓度的增加而增强，随后开始下降，在最高浓度(50 g L-1)时，植株的再生能力继续增加。40 g L-1处理的植株再生率最高(6.0±0.5)，是对照的7.5倍。茎长增加的规律比再生的规律更明显。蔗糖处理下植株的茎长在10.2 ~ 23.5 mm之间。在本研究中，50 g L-1处理的芽长最高(23.5±0.21)，是对照的2.3倍。胶凝剂明胶在再生和芽长方面均优于植苔石。植脂处理的再生量在3.8 ~ 6.0个/外植体之间，而明胶处理的再生量在6.6 ~ 7.2个/外植体之间。gelrite 3处理的芽数/外植体最高(7.2 mm)，芽长最长(22.4 mm)。植脂9处理的茎再生和茎长最低。我们的研究表明，蔗糖和胶凝剂，特别是胶凝剂3，可以应用于任何植物的茎部器官发生和植物转化，特别是对彩皮草。

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来源期刊

Journal of Phytology Agricultural and Biological Sciences-Plant Science

CiteScore

1.40

自引率

0.00%

发文量