Steinmacher D A, Krohn N G, Dantas A C M, Stefenon V M, Clement C R, Guerra M P
Universidade Federal de Santa Catarina, Programa de Pós Graduação em Recursos Genéticos Vegetais-CCA, 88040-900 Florianópolis, SC, Brazil.
Ann Bot. 2007 Oct;100(4):699-709. doi: 10.1093/aob/mcm153. Epub 2007 Jul 31.
The thin cell layer (TCL) technique is based on the use of very small explants and has allowed enhanced in vitro morphogenesis in several plant species. The present study evaluated the TCL technique as a procedure for somatic embryo production and plantlet regeneration of peach palm.
TCL explants from different positions in the shoot apex and leaf sheath of peach palm were cultivated in MS culture medium supplemented with 0-600 microM Picloram in the presence of activated charcoal. The production of primary calli and embryogenic calli was evaluated in these different conditions. Histological and amplified fragment length polymorphism (AFLP) analyses were conducted to study in vitro morphogenetic responses and genetic stability, respectively, of the regenerated plantlets.
Abundant primary callus induction was observed from TCLs of the shoot meristem in culture media supplemented with 150-600 microM Picloram (83-97%, respectively). The production of embryogenic calli depends on Picloram concentration and explant position. The best response observed was 43% embryogenic callus production from shoot meristem TCL on 300 microM Picloram. In maturation conditions, 34+/-4 somatic embryos per embryogenic callus were obtained, and 45.0+/-3.4% of these fully developed somatic embryos were converted, resulting in plantlets ready for acclimatization, of which 80% survived. Histological studies revealed that the first cellular division events occurred in cells adjacent to vascular tissue, resulting in primary calli, whose growth was ensured by a meristematic zone. A multicellular origin of the resulting somatic embryos arising from the meristematic zone is suggested. During maturation, histological analyses revealed bipolarization of the somatic embryos, as well as the development of new somatic embryos. AFLP analyses revealed that 92% of the regenerated plantlets were true to type. The use of TCL explants considerably improves the number of calli and somatic embryos produced in comparison with previously described protocols for in vitro regeneration of peach palm.
The present study suggests that the TCL somatic embryogenesis protocol developed is feasible, although it still requires further optimization for in vitro multiplication of peach palm, especially the use of similar explants obtained from adult palm trees.
薄细胞层(TCL)技术基于使用非常小的外植体,已使多种植物物种的体外形态发生得到增强。本研究评估了TCL技术作为桃棕体细胞胚胎生产和植株再生的一种方法。
将取自桃棕茎尖和叶鞘不同位置的TCL外植体培养在添加了0 - 600微摩尔毒莠定的MS培养基中,并添加活性炭。在这些不同条件下评估初生愈伤组织和胚性愈伤组织的产生情况。分别进行组织学和扩增片段长度多态性(AFLP)分析,以研究再生植株的体外形态发生反应和遗传稳定性。
在添加150 - 600微摩尔毒莠定的培养基中,从茎尖分生组织的TCL观察到大量初生愈伤组织诱导(分别为83% - 97%)。胚性愈伤组织的产生取决于毒莠定浓度和外植体位置。观察到的最佳反应是在300微摩尔毒莠定上,茎尖分生组织TCL产生43%的胚性愈伤组织。在成熟条件下,每个胚性愈伤组织获得34±4个体细胞胚胎,其中45.0±3.4%的这些完全发育的体细胞胚胎转化为植株,准备好进行驯化,其中80%存活。组织学研究表明,最初的细胞分裂事件发生在与维管组织相邻的细胞中,形成初生愈伤组织,其生长由一个分生组织区保证。推测由此产生的体细胞胚胎起源于分生组织区的多细胞。在成熟过程中,组织学分析揭示了体细胞胚胎的两极化以及新体细胞胚胎的发育。AFLP分析表明,92%的再生植株与类型相符。与先前描述的桃棕体外再生方案相比,使用TCL外植体显著提高了产生的愈伤组织和体细胞胚胎数量。
本研究表明所开发的TCL体细胞胚胎发生方案是可行的,尽管它仍需要进一步优化以用于桃棕的体外增殖,特别是使用从成年棕榈树获得的类似外植体。
