Rajasekaran K
Southern Regional Research Center, USDA-ARS, New Orleans, LA, USA.
Methods Mol Biol. 2019;1902:35-45. doi: 10.1007/978-1-4939-8952-2_3.
Biolistic transformation of cotton (Gossypium hirsutum L.) meristems, isolated from mature seed, is detailed in this report. A commercially available, helium-driven biolistic device (Bio-Rad PDS1000/He ) was used to bombard gold particles coated with a marker gene (uidA or "GUS") into the shoot meristem. The penetration of gold particles was dependent on bombardment parameters, and it was mostly one- to two-cell layers deep. Stable transformation of epidermal L1 layer was consistently observed in approximately 5% of the seedlings. Germ line transformation was observed in up to 0.71% of bombarded meristems by several laboratories. Using this method identification of germ line transformation is laborious and time-consuming. However, the protocol described here represents a simple and efficient method for generating germ line transformation events. In addition, this procedure offers a quick method to evaluate gene constructs in cotton tissues (embryos, cotyledons, leaf) especially fibers which originate as single cells from the maternal epidermis layer.
本报告详细介绍了从成熟种子中分离出的棉花(陆地棉)分生组织的生物弹道转化。使用市售的氦驱动生物弹道装置(伯乐PDS1000/He)将包被有标记基因(uidA或“GUS”)的金颗粒轰击到茎尖分生组织中。金颗粒的穿透取决于轰击参数,其深度大多为一到两个细胞层。在约5%的幼苗中始终观察到表皮L1层的稳定转化。几个实验室在高达0.71%的轰击分生组织中观察到种系转化。使用这种方法鉴定种系转化既费力又耗时。然而,这里描述的方案是一种产生种系转化事件的简单而有效的方法。此外,该程序提供了一种快速方法来评估棉花组织(胚、子叶、叶)尤其是从母体表皮层单个细胞起源的纤维中的基因构建体。