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Flow Cytometry Analysis of Fungal Ploidy 真菌倍性的流式细胞术分析
Pub Date : 2018-07-20 DOI: 10.1002/cpmc.58
Robert T. Todd, Ann L. Braverman, Anna Selmecki

Ploidy, the number of sets of homologous chromosomes in a cell, can alter cellular physiology, gene regulation, and the spectrum of acquired mutations. Advances in single-cell flow cytometry have greatly improved the understanding of how genome size contributes to diverse biological processes including speciation, adaptation, pathogenesis, and tumorigenesis. For example, fungal pathogens can undergo whole genome duplications during infection of the human host and during acquisition of antifungal drug resistance. Quantification of ploidy is dramatically affected by the nucleic acid staining technique and the flow cytometry analysis of single cells. Ploidy in fungi is also impacted by samples that are heterogeneous for both ploidy and morphology, and control strains with known ploidy must be included in every flow cytometry experiment. To detect ploidy changes within fungal strains, the following protocol was developed to accurately and dependably interrogate single-cell ploidy. © 2018 by John Wiley & Sons, Inc.

倍性,即细胞中同源染色体的数量,可以改变细胞生理、基因调控和获得性突变的谱。单细胞流式细胞术的进步极大地提高了对基因组大小如何促进多种生物过程的理解,包括物种形成、适应、发病机制和肿瘤发生。例如,真菌病原体在感染人类宿主和获得抗真菌药物耐药性期间可以进行全基因组复制。核酸染色技术和单细胞流式细胞术分析对倍性的定量有很大影响。真菌的倍性也受到倍性和形态异质样品的影响,每次流式细胞术实验都必须包括具有已知倍性的对照菌株。为了检测真菌菌株的倍性变化,制定了以下方案,以准确可靠地询问单细胞倍性。©2018 by John Wiley &儿子,Inc。
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引用次数: 15
Genetic Manipulation of Cryptococcus neoformans 新型隐球菌的遗传操作
Pub Date : 2018-07-17 DOI: 10.1002/cpmc.59
Kwang-Woo Jung, Kyung-Tae Lee, Yee-Seul So, Yong-Sun Bahn

Cryptococcus neoformans is an opportunistic fungal pathogen, which causes life-threatening meningoencephalitis in immunocompromised individuals and is responsible for more than 1,000,000 infections and 600,000 deaths annually worldwide. Nevertheless, anti-cryptococcal therapeutic options are limited, mainly because of the similarity between fungal and human cellular structures. Owing to advances in genetic and molecular techniques and bioinformatics in the past decade, C. neoformans, belonging to the phylum basidiomycota, is now a major pathogenic fungal model system. In particular, genetic manipulation is the first step in the identification and characterization of the function of genes for understanding the mechanisms underlying the pathogenicity of C. neoformans. This unit describes protocols for constructing target gene deletion mutants using double-joint (DJ) PCR, constitutive overexpression strains using the histone H3 gene promoter, and epitope/fluorescence protein-tagged strains in C. neoformans. © 2018 by John Wiley & Sons, Inc.

新型隐球菌是一种机会性真菌病原体,可在免疫功能低下的个体中引起危及生命的脑膜脑炎,每年在世界范围内造成超过100万例感染和60万例死亡。然而,抗隐球菌的治疗选择是有限的,主要是因为真菌和人类细胞结构之间的相似性。近十年来,随着遗传、分子技术和生物信息学的发展,担子菌门的新生C. neoformans已成为主要的病原真菌模式系统。特别是,基因操作是鉴定和表征基因功能的第一步,是了解新形态芽孢杆菌致病性机制的基础。本单元描述了使用双联合(DJ) PCR构建靶基因缺失突变体的方案,使用组蛋白H3基因启动子的组成型过表达菌株,以及新形态C.的表位/荧光蛋白标记菌株。©2018 by John Wiley &儿子,Inc。
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引用次数: 17
In Vitro Culturing and Screening of Candida albicans Biofilms 白色念珠菌生物膜的体外培养与筛选
Pub Date : 2018-07-11 DOI: 10.1002/cpmc.60
Megha Gulati, Matthew B. Lohse, Craig L. Ennis, Ruth E. Gonzalez, Austin M. Perry, Priyanka Bapat, Ashley Valle Arevalo, Diana L. Rodriguez, Clarissa J. Nobile

Candida albicans is a normal member of the human microbiota that asymptomatically colonizes healthy individuals, however it is also an opportunistic pathogen that can cause severe infections, especially in immunocompromised individuals. The medical impact of C. albicans depends, in part, on its ability to form biofilms, communities of adhered cells encased in an extracellular matrix. Biofilms can form on both biotic and abiotic surfaces, such as tissues and implanted medical devices. Once formed, biofilms are highly resistant to antifungal agents and the host immune system, and can act as a protected reservoir to seed disseminated infections. Here, we present several in vitro biofilm protocols, including protocols that are optimized for high-throughput screening of mutant libraries and antifungal compounds. We also present protocols to examine specific stages of biofilm development and protocols to evaluate interspecies biofilms that C. albicans forms with interacting microbial partners. © 2018 by John Wiley & Sons, Inc.

白色念珠菌是人类微生物群的正常成员,在健康个体中无症状地定殖,但它也是一种机会性病原体,可引起严重感染,特别是在免疫功能低下的个体中。白色念珠菌的医学影响部分取决于其形成生物膜的能力,即包裹在细胞外基质中的粘附细胞群落。生物膜可以在生物和非生物表面形成,例如组织和植入的医疗设备。一旦形成,生物膜对抗真菌药物和宿主免疫系统具有高度的抵抗力,并且可以作为种子播散性感染的保护库。在这里,我们提出了几种体外生物膜方案,包括针对突变文库和抗真菌化合物的高通量筛选进行优化的方案。我们还提出了检查生物膜发展的特定阶段的方案和评估白色念珠菌与相互作用的微生物伙伴形成的种间生物膜的方案。©2018 by John Wiley &儿子,Inc。
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引用次数: 61
Shigella Pathogenesis Modeling with Tissue Culture Assays 志贺氏菌发病机制的组织培养模型
Pub Date : 2018-05-24 DOI: 10.1002/cpmc.57
Benjamin J. Koestler, Cara M. Ward, Shelley M. Payne

Shigella is an enteroinvasive human pathogen that infects the colonic epithelium and causes Shigellosis, an infectious diarrheal disease. There is no vaccine for the prevention or treatment of Shigellosis and antibiotic-resistant strains of Shigella are increasing, emphasizing the need for a deeper understanding of Shigella pathogenesis in order to design effective antimicrobial therapies. Small animal models do not recapitulate Shigellosis, therefore tissue-cultured cells have served as model systems to study Shigella pathogenesis. Here, protocols to enumerate Shigella invasion, cell-cell spread, and plaque formation in the tissue-cultured cell lines Henle-407 and CoN-841 are described. Additionally, a new method to study Shigella invasion in primary intestinal enteroids is described. These protocols can be used to examine different aspects of Shigella virulence. © 2018 by John Wiley & Sons, Inc.

志贺氏菌是一种侵入肠道的人类病原体,它感染结肠上皮并引起志贺氏菌病,一种传染性腹泻疾病。目前还没有预防或治疗志贺氏菌病的疫苗,而且耐抗生素的志贺氏菌菌株正在增加,这强调需要更深入地了解志贺氏菌的发病机制,以便设计有效的抗微生物疗法。小动物模型不能概括志贺氏菌病,因此组织培养细胞可作为研究志贺氏菌发病机制的模型系统。本文描述了在组织培养细胞系Henle-407和CoN-841中枚举志贺氏菌侵袭、细胞-细胞扩散和斑块形成的方法。此外,本文还介绍了一种研究志贺氏菌在原发性肠样肠内侵袭的新方法。这些方案可用于检查志贺氏菌毒力的不同方面。©2018 by John Wiley &儿子,Inc。
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引用次数: 11
Use of Axenic Culture Tools to Study Coxiella burnetii 利用无菌培养工具研究伯氏杆菌
Pub Date : 2018-05-18 DOI: 10.1002/cpmc.52
Savannah E. Sanchez, Eduardo Vallejo-Esquerra, Anders Omsland

Coxiella burnetii is a highly infectious obligate intracellular bacterium and the etiological agent of the zoonosis Query (Q) fever. This Gram-negative gamma-proteobacterium has adapted to replicate within a specialized compartment in mammalian phagocytic cells, known as the Coxiella-containing vacuole (CCV). Knowledge of critical characteristics of the CCV microenvironment (e.g., luminal pH), analysis of the C. burnetii genome sequence, and strategic metabolic profiling have provided the basis for determining the physicochemical and nutritional conditions necessary to support axenic replication of C. burnetii. In this unit, the media currently utilized for axenic culture of C. burnetii are described, with emphasis on application. To aid in experimental reproducibility and interpretation of results, considerations and limitations are discussed. Lastly, expected results for C. burnetii axenic growth under control conditions are provided as a reference. © 2018 by John Wiley & Sons, Inc.

伯纳蒂克希菌是一种传染性很强的专性细胞内细菌,是人畜共患病Query (Q)热的病原。这种革兰氏阴性γ -变形杆菌已经适应在哺乳动物吞噬细胞的一个特殊隔间内复制,称为含科希氏菌液泡(CCV)。了解CCV微环境的关键特征(例如,管内pH值),分析伯纳氏梭菌基因组序列和战略代谢谱,为确定支持伯纳氏梭菌无性复制所需的物理化学和营养条件提供了基础。在本单元中,介绍了目前用于burnetii无菌培养的培养基,重点是应用。为了帮助实验再现性和结果的解释,讨论了注意事项和限制。最后,给出了控制条件下布氏梭菌无性系生长的预期结果,作为参考。©2018 by John Wiley &儿子,Inc。
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引用次数: 25
Salmonella Typhimurium Infection of Human Monocyte-Derived Macrophages 鼠伤寒沙门菌感染人单核细胞源性巨噬细胞
Pub Date : 2018-05-18 DOI: 10.1002/cpmc.56
Stephanie K. Lathrop, Kendal G. Cooper, Kelsey A. Binder, Tregei Starr, Veena Mampilli, Corrella S. Detweiler, Olivia Steele-Mortimer

The successful infection of macrophages by non-typhoidal serovars of Salmonella enterica is likely essential to the establishment of the systemic disease they sometimes cause in susceptible human populations. However, the interactions between Salmonella and human macrophages are not widely studied, with mouse macrophages being a much more common model system. Fundamental differences between mouse and human macrophages make this less than ideal. Additionally, the inability of human macrophage-like cell lines to replicate some properties of primary macrophages makes the use of primary cells desirable. Here we present protocols to study the infection of human monocyte-derived macrophages with Salmonella Typhimurium. These include a method for differentiating monocyte-derived macrophages in vitro and protocols for infecting them with Salmonella Typhimurium, as well as assays to measure the extent of infection, replication, and death. These protocols are useful for the investigation of both bacterial and host factors that determine the outcome of infection. © 2018 by John Wiley & Sons, Inc.

肠道沙门氏菌非伤寒血清型成功感染巨噬细胞可能是建立它们有时在易感人群中引起的全身性疾病所必需的。然而,沙门氏菌与人类巨噬细胞之间的相互作用尚未得到广泛研究,小鼠巨噬细胞是一种更常见的模型系统。小鼠和人类巨噬细胞之间的根本差异使得这种方法不太理想。此外,人巨噬细胞样细胞系无法复制原代巨噬细胞的某些特性,因此需要使用原代细胞。在这里,我们提出了研究人类单核细胞来源的巨噬细胞感染鼠伤寒沙门菌的方案。这些包括在体外分化单核细胞来源的巨噬细胞的方法和鼠伤寒沙门氏菌感染它们的方案,以及测量感染程度、复制和死亡的试验。这些方案对于调查决定感染结果的细菌和宿主因素都是有用的。©2018 by John Wiley &儿子,Inc。
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引用次数: 12
Human Intestinal Enteroids for the Study of Bacterial Adherence, Invasion, and Translocation 人类肠道细菌粘附、侵袭和易位的研究
Pub Date : 2018-05-17 DOI: 10.1002/cpmc.55
Nina M. Poole, Anubama Rajan, Anthony W. Maresso

Adherence, invasion, and translocation to and through the intestinal epithelium are important drivers of disease for many enteric bacteria. However, most work has been limited to transformed intestinal cell lines or murine models that often do not faithfully recapitulate key elements associated with human disease. The recent technological advances in organotypic tissue and cell culture are providing unparalleled access to systems with human physiology and complexity. Human intestinal enteroids (HIEs), derived from patient biopsy or surgical specimens of intestinal tissues, are organotypic cultures now being adapted to the study of enteric infections. HIEs are comprised of the dominant cell types of the human gastrointestinal epithelium, can be grown in two- or three-dimensional structures, form a crypt–villus axis with defined apical and basolateral compartments, and undergo physiologic responses to many different stimuli. Here, we describe a series of protocols that encompass the use of human enteroids for the measurement of the adherence, invasion, and translocation of E. coli to and through the intestinal epithelium. We also outline the steps needed to grow and prepare enteroids for this purpose and highlight some common problems to troubleshoot. © 2018 by John Wiley & Sons, Inc.

粘附、侵袭和易位到并通过肠上皮是许多肠道细菌疾病的重要驱动因素。然而,大多数工作仅限于转化的肠细胞系或小鼠模型,这些模型往往不能忠实地概括与人类疾病相关的关键因素。最近在器官型组织和细胞培养方面的技术进步为人类生理学和复杂性系统提供了无与伦比的途径。人类肠道样肠(HIEs),来源于患者的肠组织活检或手术标本,是现在适应于肠道感染研究的器官型培养物。HIEs由人类胃肠道上皮的主要细胞类型组成,可以在二维或三维结构中生长,形成隐窝绒毛轴,具有明确的顶端和基底外侧室室,并对许多不同的刺激产生生理反应。在这里,我们描述了一系列的方案,包括使用人类肠道来测量大肠杆菌对肠上皮的粘附、侵袭和易位。我们还概述了为此目的培养和准备肠样体所需的步骤,并强调了一些需要排除故障的常见问题。©2018 by John Wiley &儿子,Inc。
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引用次数: 15
In Situ Detection of Adenovirus DNA and mRNA in Individual Cells 单个细胞中腺病毒DNA和mRNA的原位检测
Pub Date : 2018-04-27 DOI: 10.1002/cpmc.54
Tanel Punga, Sibel Ciftci, Mats Nilsson, Tomasz Krzywkowski

Infection by DNA viruses such as human adenoviruses (HAdVs) causes a high-level accumulation of viral DNA and mRNA in the cell population. However, the average viral DNA and mRNA content in a heterogeneous cell population does not inevitably reflect the abundance in individual cells. As the vast majority of virus infection studies is carried out using standard experimental procedures with heterogeneous cell populations, there is a need for a method allowing simultaneous detection and quantitative analysis of viral genome accumulation and gene expression in individual infected cells within a population. This article describes a padlock probe–based rolling-circle amplification protocol that allows simultaneous detection of HAdV type 5 (HAdV-5) DNA and various virus-encoded mRNAs, as well as quantitative analysis of HAdV-5 DNA copies and mRNA species, in individual cells within a heterogeneous population. This versatile method can be used to detect the extent of pathogenic DNA virus infection in different cell types over prolonged infection times. Furthermore, simultaneous viral DNA and mRNA quantification in individual cells allows identification of cells in which persistent infections may be established. © 2018 by John Wiley & Sons, Inc.

DNA病毒如人腺病毒(HAdVs)的感染导致细胞群中病毒DNA和mRNA的高水平积累。然而,异质细胞群中病毒DNA和mRNA的平均含量并不一定反映单个细胞的丰度。由于绝大多数病毒感染研究是使用异质细胞群体的标准实验程序进行的,因此需要一种方法可以同时检测和定量分析群体内单个感染细胞中的病毒基因组积累和基因表达。本文描述了一种基于挂锁探针的滚动圈扩增方案,该方案允许同时检测hav 5型(hav -5) DNA和各种病毒编码的mRNA,以及在异质群体中的单个细胞中对hav -5 DNA拷贝和mRNA种类进行定量分析。这种多功能方法可用于检测不同细胞类型的致病性DNA病毒感染的程度,并延长感染时间。此外,在单个细胞中同时进行病毒DNA和mRNA的定量分析,可以鉴定出可能存在持续感染的细胞。©2018 by John Wiley &儿子,Inc。
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引用次数: 2
Mucor circinelloides: Growth, Maintenance, and Genetic Manipulation 环形毛霉:生长、维持和基因操作
Pub Date : 2018-04-27 DOI: 10.1002/cpmc.53
Sandeep Vellanki, Maria Isabel Navarro-Mendoza, Alexis Garcia, Laura Murcia, Carlos Perez-Arques, Victoriano Garre, Francisco E. Nicolas, Soo Chan Lee

Mucor circinelloides is a fungus that belongs to the order Mucorales. It grows as mold in the environment and can cause mucormycosis, a potentially fatal infection in immunocompromised patients. M. circinelloides is a biodiesel producer and serves as a model organism for studying several biological processes, such as light responses and RNA interference–mediated gene silencing. Over the past decade, the increasing number of molecular tools has also allowed us to manipulate the genome of this fungus. This article outlines the fundamental protocols for the in vitro growth, maintenance, and genetic manipulation of M. circinelloides in the laboratory. © 2018 by John Wiley & Sons, Inc.

毛霉(Mucor circinelloides)是毛霉目的一种真菌。它在环境中以霉菌的形式生长,并可引起毛霉病,这是免疫功能低下患者的一种潜在致命感染。M. circinelloides是一种生物柴油生产者,是研究光反应和RNA干扰介导的基因沉默等生物过程的模式生物。在过去的十年里,越来越多的分子工具也使我们能够操纵这种真菌的基因组。本文概述了在实验室中体外生长、维持和遗传操作的基本方案。©2018 by John Wiley &儿子,Inc。
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引用次数: 38
Molecular Genetic Manipulation of Sarcocystis neurona 神经元肌囊虫的分子遗传操作
Pub Date : 2018-02-22 DOI: 10.1002/cpmc.48
Daniel K. Howe, Michelle Yeargan, Landon Simpson, Sriveny Dangoudoubiyam

Sarcocystis neurona is a member of the important phylum Apicomplexa and the primary cause of equine protozoal myeloencephalitis (EPM). Moreover, S. neurona is the best-studied species in the genus Sarcocystis, one of the most successful parasite taxa, as virtually all vertebrate animals may be infected by at least one species. Consequently, scientific investigation of S. neurona will aid in the control of EPM and neurologic disease in sea mammals, while also improving our understanding of a prominent branch on the apicomplexan phylogenetic tree. These protocols describe methods that expand the capabilities to study this prominent member of the Apicomplexa. © 2018 by John Wiley & Sons, Inc.

神经性肌囊虫是重要的顶复合体门的成员,是马原生动物髓脑炎(EPM)的主要病因。此外,神经胞丝虫是肉囊虫属中研究得最好的物种,是最成功的寄生虫分类之一,因为几乎所有脊椎动物都可能被至少一种寄生虫感染。因此,对神经藻的科学研究将有助于海洋哺乳动物EPM和神经系统疾病的控制,同时也有助于我们对顶复体系统发育树上的一个重要分支的理解。这些协议描述的方法,扩大能力,以研究这一突出成员的顶复合体。©2018 by John Wiley &儿子,Inc。
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引用次数: 3
期刊
Current Protocols in Microbiology
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