| Purification of Rice Stripe Virus
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Author:
Date:
2020-03-20
[Abstract] Although many spherical and rod-shaped plant virus purification protocols are now available, only a few protocols on filamentous plant virus purification have been published. Here, we report a protocol for large-scale purification of Rice stripe virus (RSV) from RSV-infected rice tissues. RSV virions with high infectivity were first precipitated with polyethylene glycol (PEG) followed by pelleting through primary ultracentrifugation, ultracentrifugation in a glycerol cushion and ultracentrifugation in density gradient. The purified RSV virions can not only be viewed as filamentous particles ...
[摘要] [摘要 ] 尽管现在可以使用许多球形和杆状植物病毒的纯化方案,但有关丝状植物病毒纯化的协议却只有少数。在这里,我们提出一个协议水稻的大规模纯化小号牛肚v IRUS 从RSV感染的水稻组织(RSV)。首先用聚乙二醇(PEG)沉淀具有高感染力的RSV 病毒颗粒,然后通过一次超速离心,在甘油垫层中超速离心和密度梯度超速离心沉淀。纯化的RSV 病毒体不仅可以在电子显微镜下观察为丝状颗粒,而且还可以通过昆虫载体直接注入昆虫体内或在送入水稻之前通过膜饲喂获得。
[背景 ] 许多purificatio n,用于球形和棒状病毒协议已被发表(安德烈é 等人,2002; BALKE 。等人,2018) 。这些协议都依赖于化学沉淀或密度梯度离心。但是,丝状病毒的纯化方案目前受到限制。
大米小号肚v 病毒属(RSV)是负链RNA病毒,属于属纤细病毒,订单Bunyavirales 。在许多东亚国家,RSV经常对水稻生产造成严重损害(Whitfield 等,2015; Liu 等,2018)。与生产球状和包膜病毒体的Bunyavirales 顺序中的其他成员不同,RSV 病毒体是丝状的。然而,RSV基因组编码在纯化的RSV 病毒体中未发现的糖蛋白(Toriyama,19 86; Lu 等人,2019)。已知RSV ...
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| Transmission Electron Microscopy of Centrioles, Basal Bodies and Flagella in Motile Male Gametes of Land Plants
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Author:
Date:
2017-10-05
[Abstract] Motile male gametes (spermatozoids) of land plants are coiled and contain a modified and precisely organized complement of organelles that includes a locomotory apparatus with two to thousands of flagella. Each flagellum is generated from a basal body that originates de novo as a centriole in spermatogenous cell lineages. Much of what is known about the diversity of plant male gametes was derived from detailed transmission electron microscopic studies. Because the process of spermatogenesis results in complete transformation of the shape and organization of these cells, TEM studies ...
[摘要] 土地植物的运动雄性配子(精子)卷曲,并含有修改和精确组织的细胞器的补体,其包括具有两至数千个鞭毛的运动器官。每个鞭毛都是从起源于新生细胞的基底体产生的,作为精子细胞谱系中的中心粒。关于植物雄性配子多样性的许多知识来自详细的透射电子显微镜研究。由于精子发生过程导致这些细胞的形状和组织的完全转化,TEM研究已经产生了关于细胞分化的大量信息。由于绿藻藻类祖细胞含有中心粒和各种运动细胞,所以土地植物精子也提供了大量的机会来检验土地殖民时期的中心粒和运动器具的演化和最终的损失。
在这里,我们简要概述了我们在过去20年进行的研究和方法,不仅阐明了这些细胞的结构多样性,而且阐明了微管组织中心的发展。 >中心粒的起源和结构复杂的运动细胞的个体发育。
【背景】土地植物的运动配子是非常多样化的,通过涉及重新定位和重塑细胞组分以及组装复杂运动器官的变革来发展(Renzaglia和Garbary,2001; Lopez和Renzaglia,2008)。由于细胞壁施加的限制,细胞和鞭毛的伸长在几乎球形的空间周围,导致成熟配子的盘绕构型(Renzaglia和Garbary,2001; Lopez和Renzaglia,2014)。卷取程度从每个单元只有一到多到十转。每个配子的鞭毛数量甚至更为可变,从苔藓植物(苔藓植物, ...
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