| Quantification of the Composition Dynamics of a Maize Root-associated Simplified Bacterial Community and Evaluation of Its Biological Control Effect
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Author:
Date:
2018-06-20
[Abstract] Besides analyzing the composition and dynamics of microbial communities, plant microbiome research aims to understanding the mechanism of plant microbiota assembly and their biological functions. Here, we describe procedures to investigate the role of bacterial interspecies interactions in root microbiome assembly and the beneficial effects of the root microbiota on hosts by using a maize root-associated simplified seven-species (Stenotrophomonas maltophilia, Ochrobactrum pituitosum, Curtobacterium pusillum, Enterobacter cloacae, Chryseobacterium ...
[摘要] 除了分析微生物群落的组成和动态外,植物微生物群落研究的目的在于了解植物微生物群落组装的机制及其生物学功能。在这里,我们描述了通过使用与玉米根相关的简化的七种物种(嗜麦芽窄食单胞菌(Stenotrophomonas maltophilia),)来研究细菌种间相互作用在根微生物群组装中的作用以及根菌群对宿主的有益影响的程序。 Ochrobactrum pituitosum ,Curtobacterium pusillum ,阴沟肠杆菌, Chryseobacterium indologenes ,<在我们以前的工作中描述过的假单胞菌(pseudomonas putida))合成细菌群落。表面灭菌的玉米种子在含有多种细菌的悬浮液中浸泡后,在基于双管生长室的非生物体系中生长。通过对7种菌株中的每种菌株选择性培养基的培养依赖性方法追踪定殖在玉米根部的细菌群组成的动态。通过监测社区结构的变化来评估细菌相互作用对社区组装的影响。通过量化(1)真菌植物病原体,种子表面上的fusarium="" verticillioides和(2)幼苗枯萎的严重程度来评估简化的7种群落的植物保护效果真菌引起的疾病,在细菌群落的存在和不存在的情况下。我们的方案将作为研究实验室条件下植物="" -=""> ...
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| Measurement of Lysosomal Size and Lysosomal Marker Intensities in Adult Caenorhabditis elegans
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Author:
Date:
2018-02-05
[Abstract] Assays have been developed to study trafficking in various tissues of Caenorhabditis elegans. Adult C. elegans intestinal cells are large and have extensive endocytic networks, thus making them a good system for deciphering the endocytic pathway using live imaging techniques. However, the presence of auto-fluorescent gut granules in adult intestine can interfere with the signals of endocytic compartment reporters, like GFP. Here we demonstrate a protocol adapted from the original method developed by the Grant laboratory to identify signals from reporters in adult intestinal ...
[摘要] 已经开发了用于研究线虫的各种组织中的贩运的测定法。 成人 C。 线虫肠细胞很大,具有广泛的内吞网络,因此使它们成为使用实时成像技术破译内吞途径的良好系统。 然而,成年肠道中存在自身荧光的肠道颗粒会干扰吞噬细胞记者的信号,如GFP。 在这里,我们展示了一个协议,从格兰特实验室开发的原始方法改编,以确定记者在成人肠细胞的信号。 该方案的目标是识别标记有荧光标记物的内吞室,而在秀丽隐杆线虫成虫肠细胞中没有背景自发荧光消化道颗粒的混杂效应。
【背景】秀丽隐杆线虫(Caenorhabditis elegans)是一种多细胞生物,已被用于研究内吞运输。最初开发了用于研究内吞的试验。线虫卵母细胞,胚胎和体细胞(清道夫细胞)。简而言之,卵母细胞和胚胎中的测定通过在逗号至1.5倍发育阶段测量肠隔室中含有蛋黄 - 蛋白 - 绿色荧光蛋白报道分子(VIT-2 :: GFP)的区室的强度和大小来进行Grant和Hirsh,1999; Schaheen等人,2006a)。在成年人中,在转基因成虫的体细胞中测量了含有GFP的隔室的强度和大小(从体壁肌细胞分泌进入囊泡并由体细胞胞吞)。表达肌肉myo-3 :: ...
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| Mouse Subependymal Zone Explants Cultured on Primary Astrocytes
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Author:
Date:
2016-07-20
[Abstract] Neuroblast migration is a major component in the process of neuronal circuit assembly. In the rodent postnatal brain, the subependymal zone (SEZ) is the largest neurogenic niche where new neurons are born throughout life. These cells migrate several millimeters following a specific pathway called the rostral migratory stream (RMS) towards the olfactory bulb. Once they reach their final destination, they differentiate mainly as interneurons and integrate into already established neuronal circuits. Along the RMS, neuroblasts use a particular mode of migration known as chain migration. They stay ...
[摘要] 神经母细胞迁移是神经元电路组装过程中的主要组成部分。 在啮齿动物出生后的大脑中,子宫颈区(SEZ)是新生神经元生命中最大的神经源性生态位。 这些细胞沿着称为传播流(RMS)的特定途径朝向嗅球迁移几毫米。 一旦达到其最终目的地,它们主要区分为中间神经元并整合到已建立的神经元回路中。 沿着RMS,神经母细胞使用称为链转移的特定迁移模式。 它们在迁移时保持相互依赖,并与相邻的星形细胞过程密切相关。 为了解剖神经母细胞迁移中涉及的分子和细胞信号,我们开发了一种体外系统,其由在星形胶质细胞单层顶部共培养的经SEZ衍生的外植体组成。
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