Factors Affecting the Micropropagation of Sapindus trifoliatus from Nodal Explants of Mature Tree

Pooja Asthana, Manoj K. Rai, U. Jaiswal
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Abstract

Explant recalcitrance is one of the major challenges during the tissue culture of a tree species, especially when explants are derived from mature plants. It is mainly as-sociated with the genotypes/species, source and physiological status of explants, seasonal varia-tions, and competency/incompetency of explants towards PGRs for in vitro manipulations. There-fore, to optimize the appropriate conditions and minimize explant recalcitrance, it is necessary to elucidate the different factors influencing the tissue culture of a tree species. Several factors influencing in vitro shoot induction from nodal explants derived from mature plants of Sapindus trifoliatus were investigated. Nodal segment obtained from mature plants was used as an explant for shoot regenera-tion. The factors assessed in this study included the types and concentrations of plant growth reg-ulators, nutrient composition of MS (Murashige and Skoog) medium, sucrose concentrations, the position of nodes on their respective branches, seasonal variations, and successive transfers of mother explant. The performance of nodal explants was better on modified MS medium, i.e., M4 medi-um (half-strength of MS major salts and full-strengths of MS minor salts, Fe-EDTA and MS or-ganic nutrients each) than the full-strength MS medium. The addition of BAP in the medium re-sulted in a higher shoot induction rate than other cytokinins i.e., Kin, Zeatin, TDZ. M4 medium supplemented with 3.0 mg l-1 BAP and 2% sucrose was optimum for shoot proliferation. Howev-er, elongation of shoots was observed only when induced shoots, along with the mother explant, were subcultured on a medium containing 1.0 mg l-1 BAP. The shoot multiplication was positive-ly affected by the repeated transfer of the mother explant for different passages on the multiplica-tion medium. Mother explant transferred to multiplication medium (0.8% agar-solidified M4 me-dium + 2% sucrose + 1.0 mg l-1 BAP) proliferated maximum shoots after fourth passages. Regen-erated shoots were rooted in vitro and further successfully acclimatized in field conditions. The in vitro regeneration system developed from an explant obtained from mature trees can be successfully exploited for mass multiplication of Sapindus trifoliatus, a medicinally and commercially important tree.
影响从成熟树的节部外植体微繁殖三叶无患子的因素
外植体复活力是树种组织培养过程中的主要挑战之一,尤其是当外植体来自成熟植株时。它主要与基因型/品种、外植体的来源和生理状态、季节变化以及外植体对离体操作所需的 PGRs 的适应性/不适应性有关。因此,为了优化适当的条件并尽量减少外植体的抗逆性,有必要阐明影响树种组织培养的不同因素。本研究调查了从三叶无患子(Sapindus trifoliatus)成熟植株上提取的节状外植体体外诱导芽的几个影响因素。本研究评估的因素包括植物生长调节剂的类型和浓度、MS(Murashige 和 Skoog)培养基的营养成分、蔗糖浓度、节在各自分枝上的位置、季节变化以及母体外植体的连续转移、在改良的 MS 培养基上,即 M4 medium-um(半浓度的 MS 主要盐类和全浓度的 MS 次要盐类、Fe-EDTA 和 MS 或有机营养素)上,节的外植体表现优于全浓度的 MS 培养基。与其他细胞分裂素(如 Kin、Zeatin 和 TDZ)相比,在培养基中添加 BAP 会导致更高的芽诱导率。添加了 3.0 mg l-1 BAP 和 2% 蔗糖的 M4 培养基对嫩芽增殖最为适宜。然而,只有在含有 1.0 mg l-1 BAP 的培养基上对诱导芽和母体外植体进行移栽时,才能观察到芽的伸长。将母体外植体在增殖培养基上重复不同的传代,对芽的增殖有积极影响。母体外植体转移到增殖培养基(0.8%琼脂固化的 M4 铵+2%蔗糖+1.0 mg l-1 BAP)上,第四次传代后增殖的芽最多。从成熟树木获得的外植体开发的体外再生系统可成功用于无患子的大规模繁殖,无患子是一种具有重要药用和商业价值的树木。
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