To compensate for the extremely low penetration efficiency of the original PDS/1000-He Bio Rad biolistic® device and the deleterious blast effect, design modifications have been made to the launching module. These modifications were evaluated on Bombyx mori embryos and fragile tissues, such as oocytes and imaginal wing disks. The original floppy macrocarrier was replaced by a rigid macrocarrier to avoid the effects of the helium blast. The efficiency of the gene gun bombardment was reinforced by the addition of a focusing nozzle. The reduced blast effect allowed us to carry out high-pressure shootings to small organs with improved penetration. This system allowed potentially all the internal embryonic tissues to be transfected with optimal survival rates. The new module was effective on tissues that are difficult to transfect, such as the epithelial wing disk that is covered by a peripodial membrane, and the ovarian follicle cells that lie under the ovariole cell membrane. The new macrocarrier allowed both an aqueous delivery of particles and an ethanolic dry delivery. No significant differences were noted between these two modes of delivery. The major improvement is the possibility of high pressure shooting correlated with appreciable penetration and a weak blast effect.
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机译:为了补偿原始PDS / 1000-He Bio Radbiolistic®设备的极低穿透效率和有害的爆炸效果,对发射模块进行了设计修改。这些修饰是在家蚕胚胎和易碎组织(如卵母细胞和假想翼盘)上评估的。原来的软盘宏载波被刚性宏载波所取代,以避免氦气爆炸的影响。增加了聚焦喷嘴,增强了基因枪轰击的效率。爆炸效果的降低使我们能够对穿透较小的小器官进行高压射击。该系统允许以最佳存活率转染所有内部胚胎组织。新模块对难以转染的组织有效,例如被周二膜覆盖的上皮翼盘和位于卵巢细胞膜下的卵巢滤泡细胞。新的大载体允许颗粒的水性递送和乙醇的干递送。在这两种交付方式之间未发现明显差异。主要的改进是高压射出的可能性与可观的穿透力和较弱的爆炸效果相关。
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