Status and prospects of yam somatic embryogenesis: a pathway for biotechnology applications

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Chukwunalu O. Ossai, Morufat O. Balogun, Norbert G. Maroya
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引用次数: 0

Abstract

Yam is an important staple in sub-Saharan Africa, but the availability of quality seed yam is majorly constrained by the low propagation ratio. This is because the propagating explant is limited to the tuber and nodal parts as yam rarely flowers. There are several reports of the use of somatic embryogenesis (SE) in the rapid propagation of different crop species and as a regenerative pathway in plant genetic engineering. However, SE deployment in yam is still at the protocol development stage. This review thus exploits the status of SE application in improving the yam propagation rate. This article reviews the potential of the various yam propagation techniques in rapidly multiplying disease-free yam with their propagating explants. The advantages SE offers are rapidly propagating yam, the factors to consider in the protocol optimization of SE application in rapidly multiplying different yam varieties, and as a platform for full utilization of genetic engineering in yam. The findings so far show that SE potentially offers a faster rate of propagating yam varieties. However, due to the differences in varietal endogenous hormonal and gene products, response to SE in yam is constrained by varietal specificity. Hence, the applicability of SE in yam is still at the protocol development state. This review, thus, presents the need for more research efforts to elucidate the molecular and phytochemical controlling mechanisms of SE in yam to improve the yam multiplication rate and lay an efficient platform for the exploitation of other biotechnological advancements in improving yam species.

山药体细胞胚胎发生的现状和前景:生物技术应用的途径
山药是撒哈拉以南非洲地区的重要主食,但优质山药种子的供应主要受制于低繁殖率。这是因为山药很少开花,繁殖的外植体仅限于块茎和结节部分。有多篇报道称,体细胞胚胎发生(SE)可用于不同作物物种的快速繁殖,也可作为植物基因工程的再生途径。然而,体细胞胚胎发生在山药中的应用仍处于协议制定阶段。因此,本综述探讨了 SE 在提高山药繁殖率方面的应用现状。本文综述了各种山药繁殖技术在利用其繁殖外植体快速繁殖无病山药方面的潜力。SE在快速繁殖山药方面的优势,SE应用于快速繁殖不同山药品种的方案优化中需要考虑的因素,以及作为山药基因工程充分利用的平台。目前的研究结果表明,SE 有可能加快山药品种的繁殖速度。然而,由于山药品种内源激素和基因产物的差异,山药对 SE 的反应受到品种特异性的制约。因此,SE 在山药中的应用仍处于协议开发阶段。因此,本综述认为有必要开展更多的研究工作,以阐明山药中 SE 的分子和植物化学控制机制,从而提高山药的繁殖率,并为利用其他生物技术进步改良山药品种奠定一个有效的平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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