| Differential Fractionation of Erythrocytes Infected by Plasmodium berghei
|
|
Author:
Date:
2020-06-05
[Abstract] The study of host/pathogen interactions at the cellular level during Plasmodium intra-erythrocytic cycle requires differential extraction techniques aiming to analyze the different compartments of the infected cell. Various protocols have been proposed in the literature to study specific compartments and/or membranes in the infected erythrocyte. The task remains delicate despite the use of enzymes or detergents theoretically capable of degrading specific membranes inside the infected cell.
The remit of this protocol is to propose a method to isolate the erythrocyte cytosol and ghosts from the other compartments of the infected cell via a percoll gradient. Also, the lysis of the erythrocyte membrane is done using equinatoxin II, which has proven to be more effective at ...
[摘要] [摘要 ] 疟原虫内红细胞周期中细胞水平上宿主/病原体相互作用的研究需要采用差异提取技术来分析感染细胞的不同区室,文献中提出了各种方案来研究特定的区室和/或尽管理论上使用酶或去污剂能够降解被感染细胞内部的特定膜,但这项工作仍然很棘手。
该方案的任务是提出一种通过percoll 梯度从感染细胞的其他区室中分离出红细胞胞浆和鬼影的方法,此外,使用equinatoxin II 裂解红细胞膜的方法已经被证明是更有效的方法。有效的在红细胞裂解不管细胞感染状态,相比常用链球菌溶血素。该虫空泡(PV)的含量收集皂素后,恢复细胞膜和寄生虫胞液蛋白通过的Triton X-100裂解,裂解液由此获得的前通过分析W¯¯ 西部时代印迹以评估各种提取steps.This协议的准确度允许主机室的从寄生虫隔间(PV和寄生虫)的分离,从而导致出口到主机宿主蛋白质的潜力的研究,以及寄生虫蛋白质细胞。
[背景] 本文所介绍的协议是,我们最初发表在一个协议的一个改进的科学报告.The 该协议的最初的目标是执行的表征P. 疟原虫由寄生虫出口到它的主机cell.This蛋白允许的免疫荧光测定法的证实,证实了蛋白质的输出-以及被布雷菲德菌素A 阻断-以及在被感染的红细胞中输出时相互作用蛋白的分析(Gnangnon et al。,2019)。
...
|
|
|
| Preparation of a Bacteriophage T4-based Prokaryotic-eukaryotic Hybrid Viral Vector for Delivery of Large Cargos of Genes and Proteins into Human Cells
|
|
Author:
Date:
2020-04-05
[Abstract] A viral vector that can safely and efficiently deliver large and diverse molecular cargos into cells is the holy grail of curing many human diseases. Adeno-associated virus (AAV) has been extensively used but has a very small capacity. The prokaryotic virus T4 has a large capacity but lacks natural mechanisms to enter mammalian cells. Here, we created a hybrid vector by combining T4 and AAV into one nanoparticle that possesses the advantages of both. The small 25 nm AAV particles are attached to the large 120 nm x 86 nm T4 head through avidin-biotin cross-bridges using the phage decoration proteins Soc (small outer capsid protein) and Hoc (highly antigenic outer capsid protein). AAV thus “piggy-backed” on T4 capsid, by virtue of its natural ability to enter many types of human cells ...
[摘要] [摘要 ] 一种病毒载体,可以安全有效地将大量多样的分子货物运送到细胞中 是治愈许多人类疾病的圣杯。腺伴随病毒(AAV)已被广泛使用,但容量很小。T4原核病毒容量大,但缺乏进入哺乳动物细胞的天然机制。在这里,我们通过将T4和AAV结合到一个具有两者优势的纳米颗粒中,创建了一种杂交载体。使用噬菌体修饰蛋白Soc(小的外衣壳蛋白)和Hoc(高度抗原化的外衣壳蛋白),通过亲和素-生物素交叉桥将25 nm的AAV小颗粒连接到120 nm x 86 nm的大T4头上。因此,AAV凭借其固有的进入多种类型人体细胞的自然能力,可以“背负”于T4衣壳上,从而有效地充当了“驱动器”,以运送与T4头相关的大型货物。这种独特的T4-AAV杂交载体方法可为将来开发新型疗法铺平道路。
[背景 ] 已经有新的和有效的递送载体能够运输基因和蛋白质的大货物进入人类细胞,以刺激生产治疗性生物分子的和/或修复的细胞和遗传缺陷的迫切需要。这样的载体将允许将快速出现的技术(例如CRISPR,CAR T细胞等)转化为用于大规模应用以及个性化医学的疗法(Stewart 等,2016)。
将具有不同特性的纳米粒子组装到杂化复合物中是开发新型功能材料的有力策略,因为这些杂化复合物显示出集体和协作的属性,其中某些属性可能与单个粒子所显示的属性不同(Ghosh 等人,2012; ...
|
|
|
| Conjugation Protocol Optimised for Roseburia inulinivorans and Eubacterium rectale
|
|
Author:
Date:
2020-04-05
[Abstract] Roseburia and Eubacterium species of the human gut microbiota play an important role in the maintaince of human health, partly by producing butyrate, the main energy source of our colonic epithelial cells. However, our knowledge of the biochemistry and physiology of these bacteria has been limited by a lack of genetic manipulation techniques. Conjugative transposons previously introduced into Roseburia species could not be easily modified, greatly limiting their applicability as genetic modification platforms. Modular plasmid shuttle vectors have previously been developed for Clostridium species, which share a taxonomic order with Roseburia and Eubacterium, raising the possibility that these vectors could be used in these organisms. ...
[摘要] [摘要 ] 人体肠道菌群中的玫瑰菌属和真细菌属在维持人类健康中起着重要作用,部分原因是产生丁酸盐,这是我们结肠上皮细胞的主要能源。但是,由于缺乏基因操作技术,我们对这些细菌的生物化学和生理学的认识受到限制。先前引入玫瑰花属物种的共轭转座子不容易被修饰,极大地限制了它们作为基因修饰平台的适用性。MOD ular质粒穿梭载体先前已经开发了用于梭菌物种,其与共享一个分类次序ř oseburia 和真杆菌,提高这些矢量可以在这些生物体中使用的可能性。在这里,我们描述了一种优化缀合协议使得能够自主复制的质粒的从转印大肠杆菌供体菌株为罗斯氏inulinivorans 和真杆菌rectale 。质粒的模块性质及其通过自主复制在受体细菌中得以维持的能力使其成为研究异源基因表达的理想之选,并成为其他遗传工具(包括反义RNA沉默或II 型移动子中断子基因破坏策略)的平台。
[背景 ] 玫瑰菌和真细菌属人类肠道菌群中含量最高的细菌(Zhernakova 等,2016),它们通过利用饮食和宿主衍生的多糖影响人类健康(Scott 等,2006和2011; Cockburn 等) 。,2015 ; 谢里登等人,2016 )并产生促进健康的代谢物丁酸作为发酵终产物(邓肯等人,2002和2006) 。另外,这些物种能够通过鞭毛调节宿主免疫(Neville ...
|
|
|