不同外植体直接体细胞胚再生的研究

World Academy of Science, Engineering and Technology, International Journal of Bioengineering and Life Sciences Pub Date : 2015-04-13 DOI:10.21275/v4i11.nov151774

N. Khatik, R. Joshi

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引用次数: 0

摘要

以一种重要药用植物龙葵(Murraya koenigii, L.)的不同外植体为材料，通过直接体细胞胚发生建立了离体植株再生体系。以60 d的幼苗为外植体，切除春子叶(COT)、下胚轴(HYP) (10 ~ 15mm)和根(RT)段(10 ~ 20mm)。在添加不同浓度6-苄基氨基嘌呤(BAP) 1.33 ~ 8.40 μM和噻唑脲(TDZ) 1.08 ~ 9.82 μM的Murashige和Skoog (MS)基础培养基上诱导体细胞胚。在30-40天内，根的切端和整个表面、下胚轴外植体和子叶边缘形成球形胚。在添加6.20 μM BAP和8.64 μM TDZ的MS基础培养基中，HYP外植体的体细胞胚诱导率(94.21±5.77%)显著高于其他外植体。在添加了8.64 μM TDZ的MS培养基中，水雷级、心级和子叶级由球状级转化的速率最高。将成熟体细胞胚转移到不添加植物生长调节剂(pgr)的MS基础培养基上。将成熟胚转移到1 / 2 MS无PGR的基础培养基中，萌发率最高，达到88%，再生长3-4周。在76株硬化植株中，70株(92%)在田间条件下健康。

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Regeneration of Plantlets via Direct Somatic Embryogenesis from Different Explants of Murraya koenigii

An in vitro plant regeneration system was developed via direct somatic embryogenesis from different seedling explants of an important medicinal plant Murraya koenigii (L.) Spreng Cotyledons (COT), Hypocotyl (HYP) (10 to 15 mm) and Root (RT) segments (10 to 20 mm) were excised from 60 days old seedling as explants. The somatic embryos induction was achieved on Murashige and Skoog (MS) basal medium augmented with different concentrations of 6-benzyleaminopurine (BAP) 1.33 to 8.40 μM and thidiazuron (TDZ) 1.08 to 9.82 μM. The globular embryos originated from cut ends and entire surface of the root, hypocotyl explants and margins of cotyledons within 30-40 days. The percentage of somatic embryos induction per explant was significantly higher in HYP explants (94.21±5.77%) in the MS basal medium supplemented with 6.20 μM BAP and 8.64 μM TDZ. The highest rate of conversion of torpedo, heart and cotyledonary stages from globular stage was obtained in MS medium supplemented with 8.64 μM TDZ. The matured somatic embryos were transferred to the MS basal medium without Plant Growth Regulators (PGRs). Highest 88% of the matured embryos were germinated on transfer to 1⁄2 MS basal medium without PGR, where they grew for a further 3-4 weeks. Out of seventy six hardened plants seventy (92%) plantlets were found healthy under field conditions.

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World Academy of Science, Engineering and Technology, International Journal of Bioengineering and Life Sciences

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