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Preparation of Human Kidney Progenitor Cultures and Their Differentiation into Podocytes. 人肾祖细胞培养物的制备及其向足细胞的分化。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4757
Maria Elena Melica, Maria Lucia Angelotti, Giulia Antonelli, Anna J Peired, Carolina Conte, Letizia De Chiara, Benedetta Mazzinghi, Elena Lazzeri, Laura Lasagni, Paola Romagnani
Kidney diseases are a global health concern. Modeling of kidney disease for translational research is often challenging because of species specificities or the postmitotic status of kidney epithelial cells that make primary cultures, for example podocytes. Here, we report a protocol for preparing primary cultures of podocytes based on the isolation and in vitro propagation of immature kidney progenitor cells subsequently differentiated into mature podocytes. This protocol can be useful for studying physiology and pathophysiology of human kidney progenitors and to obtain differentiated podocytes for modeling podocytopathies and other kidney disorders involving podocytes.
肾脏疾病是一个全球性的健康问题。由于物种特异性或产生原代培养物(例如足细胞)的肾上皮细胞的有丝分裂后状态,为转译研究建立肾脏疾病模型通常具有挑战性。在这里,我们报告了一种制备足细胞原代培养的方案,该方案基于未成熟肾祖细胞的分离和体外繁殖,随后分化为成熟足细胞。该方案可用于研究人类肾脏祖细胞的生理和病理生理,并获得分化的足细胞,用于建模足细胞病变和其他涉及足细胞的肾脏疾病。
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引用次数: 0
Determination of Poly(3-hydroxybutyrate) Content in Cyanobacterium Synechocystis sp. PCC 6803 Using Acid Hydrolysis Followed by High-performance Liquid Chromatography. 酸水解-高效液相色谱法测定聚藻藻PCC 6803中聚(3-羟基丁酸酯)含量
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4790
Janine Kaewbai-Ngam, Aran Incharoensakdi, Tanakarn Monshupanee

Various photoautotrophic cyanobacteria accumulate intracellular poly(3-hydroxybutyrate) (PHB) granules. This protocol can be used for determining the PHB contents of the cells as % PHB weight per dry cell weight using acid hydrolysis followed by high-performance liquid chromatography (HPLC). This HPLC analysis is rapid, with a running time of approximately 5 min per sample. The technique can accurately determine PHB concentrations in the range of 2-1,000 μg/mL PHB. However, this technique is not applicable for determining the contents of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) in cyanobacteria.

各种光自养蓝藻在细胞内积累聚(3-羟基丁酸酯)(PHB)颗粒。该方案可用于测定细胞中PHB的含量(PHB重量/干细胞重量%),采用酸水解,然后采用高效液相色谱法(HPLC)。该HPLC分析快速,每个样品运行时间约为5分钟。该方法可在2 ~ 1000 μg/mL范围内准确测定PHB浓度。然而,该技术不适用于测定蓝藻中聚(3-羟基丁酸酯-co-3-羟基戊酸酯)的含量。
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引用次数: 0
Catheterization of Pulmonary and Carotid Arteries for Concurrent Measurement of Mean Pulmonary and Systemic Arterial Pressure in Rat Models of Pulmonary Arterial Hypertension. 在肺动脉高压大鼠模型中导管插入肺动脉和颈动脉以同时测量平均肺动脉压和全身动脉压
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4737
Tanoy Sarkar, Ayman Isbatan, Sakib M Moinuddin, Jiwang Chen, Fakhrul Ahsan

Pulmonary hypertension (PH) is a group of pulmonary vascular disorders in which mean pulmonary arterial pressure (mPAP) becomes abnormally high because of various pathological conditions, including remodeling of the pulmonary arteries, lung and heart disorders, or congenital conditions. Various animal models, including mouse and rat models, have been used to recapitulate elevated mPAP observed in PH patients. However, the measurement and recording of mPAP and mean systemic arterial pressure (mSAP) in small animals require microsurgical procedures and a sophisticated data acquisition system. In this paper, we describe the surgical procedures for right heart catheterizations (RHC) to measure mPAP in rats. We also explain the catheterization of the carotid artery for simultaneous measurement of mPAP and mSAP using the PowerLab Data Acquisition system. We enumerate the surgical steps involved in exposing the jugular vein and the carotid artery for catheterizing these two blood vessels. We list the tools used for microsurgery in rats, describe the methods for preparing catheters, and illustrate the process for inserting the catheters in the pulmonary and carotid arteries. Finally, we delineate the steps involved in the calibration and setup of the PowerLab system for recording both mPAP and mSAP. This is the first protocol wherein we meticulously explain the surgical procedures for RHC in rats and the recording of mPAP and mSAP. We believe this protocol will be essential for PH research. Investigators with little training in animal handling can reproduce this microsurgical procedure for RHC in rats and measure mPAP and mSAP in rat models of PH. Further, this protocol is likely to help master RHC in rats that are performed for other conditions, such as heart failure, congenital heart disease, heart valve disorders, and heart transplantation.

肺动脉高压(PH)是一组肺血管疾病,由于各种病理条件,包括肺动脉重塑、肺和心脏疾病或先天性疾病,肺动脉高压患者的平均肺动脉压(mPAP)会变得异常高。各种动物模型,包括小鼠和大鼠模型,都被用来再现 PH 患者观察到的 mPAP 升高。然而,测量和记录小动物的 mPAP 和平均全身动脉压 (mSAP) 需要显微外科手术和复杂的数据采集系统。本文介绍了测量大鼠 mPAP 的右心导管手术(RHC)。我们还解释了使用 PowerLab 数据采集系统同时测量 mPAP 和 mSAP 的颈动脉导管术。我们列举了暴露颈静脉和颈动脉以对这两种血管进行导管插入的手术步骤。我们列出了用于大鼠显微手术的工具,描述了准备导管的方法,并说明了将导管插入肺动脉和颈动脉的过程。最后,我们介绍了校准和设置用于记录 mPAP 和 mSAP 的 PowerLab 系统的步骤。这是第一份详细解释大鼠 RHC 手术步骤以及 mPAP 和 mSAP 记录的规程。我们相信该方案对 PH 研究至关重要。研究人员只需接受少量动物操作培训,就能在 PH 大鼠模型中重现 RHC 的显微手术过程并测量 mPAP 和 mSAP。此外,该方案还可能有助于掌握因心力衰竭、先天性心脏病、心脏瓣膜疾病和心脏移植等其他疾病而对大鼠进行的 RHC。
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引用次数: 0
Mass Spectrometry-based Lipidomics, Lipid Bioenergetics, and Web Tool for Lipid Profiling and Quantification in Human Cells. 质谱为基础的脂质组学,脂质生物能量学,和网络工具脂质分析和定量在人类细胞。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4742
Liang Cui, Meisam Yousefi, Xin Yap, Clara W T Koh, Kwan Sing Leona Tay, Yaw Shin Ooi, Kuan Rong Chan

Lipids can play diverse roles in metabolism, signaling, transport across membranes, regulating body temperature, and inflammation. Some viruses have evolved to exploit lipids in human cells to promote viral entry, fusion, replication, assembly, and energy production through fatty acid beta-oxidation. Hence, studying the virus-lipid interactions provides an opportunity to understand the biological processes involved in the viral life cycle, which can facilitate the development of antivirals. Due to the diversity and complexity of lipids, the assessment of lipid utilization in infected host cells can be challenging. However, the development of mass spectrometry, bioenergetics profiling, and bioinformatics has significantly advanced our knowledge on the study of lipidomics. Herein, we describe the detailed methods for lipid extraction, mass spectrometry, and assessment of fatty acid oxidation on cellular bioenergetics, as well as the bioinformatics approaches for detailed lipid analysis and utilization in host cells. These methods were employed for the investigation of lipid alterations in TMEM41B- and VMP1-deficient cells, where we previously found global dysregulations of the lipidome in these cells. Furthermore, we developed a web app to plot clustermaps or heatmaps for mass spectrometry data that is open source and can be hosted locally or at https://kuanrongchan-lipid-metabolite-analysis-app-k4im47.streamlit.app/. This protocol provides an efficient step-by-step methodology to assess lipid composition and usage in host cells.

脂质在代谢、信号传导、跨膜运输、调节体温和炎症等方面发挥着多种作用。一些病毒已经进化到利用人类细胞中的脂质来促进病毒进入、融合、复制、组装,并通过脂肪酸β氧化产生能量。因此,研究病毒-脂质相互作用为了解病毒生命周期中的生物学过程提供了一个机会,这可以促进抗病毒药物的开发。由于脂质的多样性和复杂性,评估感染宿主细胞的脂质利用可能具有挑战性。然而,质谱分析、生物能量谱分析和生物信息学的发展大大提高了我们对脂质组学研究的认识。在此,我们详细描述了脂质提取、质谱分析和脂肪酸氧化对细胞生物能量学的评估方法,以及在宿主细胞中进行详细脂质分析和利用的生物信息学方法。这些方法被用于研究TMEM41B-和vmp1缺陷细胞的脂质改变,我们之前在这些细胞中发现了脂质组的全局失调。此外,我们开发了一个web应用程序来绘制质谱数据的集群图或热图,这是开源的,可以托管在本地或https://kuanrongchan-lipid-metabolite-analysis-app-k4im47.streamlit.app/。该协议提供了一个有效的一步一步的方法来评估脂质组成和使用在宿主细胞。
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引用次数: 0
A Semi-throughput Procedure for Assaying Plant NADP-malate Dehydrogenase Activity Using a Plate Reader. 利用平板阅读器测定植物nadp -苹果酸脱氢酶活性的半通量方法。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4769
Kevin Baudry, Emmanuelle Issakidis-Bourguet

Chloroplast NADP-dependent malate dehydrogenase (NADP-MDH) is a redox regulated enzyme playing an important role in plant redox homeostasis. Leaf NADP-MDH activation level is considered a proxy for the chloroplast redox status. NADP-MDH enzyme activity is commonly assayed spectrophotometrically by following oxaloacetate-dependent NADPH oxidation at 340 nm. We have developed a plate-adapted protocol to monitor NADP-MDH activity allowing faster data production and lower reagent consumption compared to the classic cuvette format of a spectrophotometer. We provide a detailed procedure to assay NADP-MDH activity and measure the enzyme activation state in purified protein preparations or in leaf extracts. This protocol is provided together with a semi-automatized data analysis procedure using an R script.

叶绿体nadp依赖性苹果酸脱氢酶(NADP-MDH)是一种氧化还原调控酶,在植物氧化还原稳态中起重要作用。叶片NADP-MDH激活水平被认为是叶绿体氧化还原状态的一个代理。NADP-MDH酶活性通常通过草酸依赖NADPH氧化在340 nm分光光度法测定。我们开发了一种适用于平板的方案来监测NADP-MDH活性,与分光光度计的经典比色皿格式相比,可以更快地产生数据并降低试剂消耗。我们提供了一个详细的程序来测定NADP-MDH活性和测量酶的激活状态在纯化蛋白制剂或叶提取物。该协议与使用R脚本的半自动化数据分析过程一起提供。
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引用次数: 0
Quantification of Chromosomal Aberrations in Mammalian Cells. 哺乳动物细胞中染色体畸变的定量分析。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4739
Inés Paniagua, Jacqueline J L Jacobs

Maintenance of genome integrity requires efficient and faithful resolution of DNA breaks and DNA replication obstacles. Dysfunctions in any of the processes orchestrating such resolution can lead to chromosomal instability, which appears as numerical and structural chromosome aberrations. Conventional cytogenetics remains as the golden standard method to detect naturally occurring chromosomal aberrations or those resulting from the treatment with genotoxic drugs. However, the success of cytogenetic studies depends on having high-quality chromosome spreads, which has been proven to be particularly challenging. Moreover, a lack of scoring guidelines and standardized methods for treating cells with genotoxic agents contribute to significant variability amongst different studies. Here, we report a simple and effective method for obtaining well-spread chromosomes from mammalian cells for the analysis of chromosomal aberrations. In this method, cells are (1) arrested in metaphase (when chromosome morphology is clearest), (2) swollen in hypotonic solution, (3) fixed before being dropped onto microscope slides, and (4) stained with DNA dyes to visualize the chromosomes. Metaphase chromosomes are then analyzed using high-resolution microscopy. We also provide examples, representative images, and useful guidelines to facilitate the scoring of the different chromosomal aberrations. This method can be used for the diagnosis of genetic diseases, as well as for cancer studies, by identifying chromosomal defects and providing insight into the cellular processes that influence chromosome integrity.

维持基因组的完整性需要有效和忠实地解决DNA断裂和DNA复制障碍。在协调这种分解的任何过程中的功能障碍都可能导致染色体不稳定,表现为染色体数量和结构畸变。传统的细胞遗传学仍然是检测自然发生的染色体畸变或由基因毒性药物治疗引起的染色体畸变的金标准方法。然而,细胞遗传学研究的成功取决于高质量的染色体扩散,这已被证明是特别具有挑战性的。此外,缺乏用基因毒性药物治疗细胞的评分指南和标准化方法,导致不同研究之间存在显著差异。在这里,我们报告了一种简单而有效的方法,从哺乳动物细胞中获得分布良好的染色体,用于分析染色体畸变。在这种方法中,细胞(1)在中期(染色体形态最清晰的时候)被捕获,(2)在低渗溶液中肿胀,(3)在滴入显微镜载玻片之前固定,(4)用DNA染料染色以观察染色体。然后使用高分辨率显微镜分析中期染色体。我们还提供了例子,代表性的图像,和有用的指导方针,以促进不同染色体畸变的评分。这种方法可用于遗传疾病的诊断,以及癌症研究,通过识别染色体缺陷和提供洞察影响染色体完整性的细胞过程。
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引用次数: 0
Multi-color Flow Cytometry Protocol to Characterize Myeloid Cells in Mouse Retina Research. 小鼠视网膜髓系细胞的多色流式细胞术研究。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4745
Wei Xiao, Rami A Shahror, Carol A Morris, Ruth B Caldwell, Abdelrahman Y Fouda

Myeloid cells, specifically microglia and macrophages, are activated in retinal diseases and can improve or worsen retinopathy outcomes based on their inflammatory phenotype. However, assessing the myeloid cell response after retinal injury in mice remains challenging due to the small tissue size and the challenges of distinguishing microglia from infiltrating macrophages. In this protocol paper, we describe a flow cytometry-based protocol to assess retinal microglia/macrophage and their inflammatory phenotype after injury. The protocol is amenable to the incorporation of other markers of interest to other researchers. Key features This protocol describes a flow cytometry-based method to analyze the myeloid cell response in retinopathy mouse models. The protocol can distinguish between microglia- and monocyte-derived macrophages. It can be modified to incorporate markers of interest. We show representative results from three different retinopathy models, namely ischemia-reperfusion injury, endotoxin-induced uveitis, and oxygen-induced retinopathy.

髓系细胞,特别是小胶质细胞和巨噬细胞,在视网膜疾病中被激活,并可根据其炎症表型改善或恶化视网膜病变的结果。然而,评估小鼠视网膜损伤后骨髓细胞的反应仍然具有挑战性,因为组织尺寸小,并且很难区分小胶质细胞和浸润性巨噬细胞。在这篇协议论文中,我们描述了一种基于流式细胞术的方案来评估视网膜小胶质细胞/巨噬细胞及其损伤后的炎症表型。该方案适用于纳入其他研究人员感兴趣的其他标记。本协议描述了一种基于流式细胞术的方法来分析视网膜病变小鼠模型中的骨髓细胞反应。该方案可以区分小胶质细胞和单核细胞来源的巨噬细胞。它可以被修改为包含感兴趣的标记。我们展示了三种不同视网膜病变模型的代表性结果,即缺血再灌注损伤、内毒素诱导的葡萄膜炎和氧诱导的视网膜病变。
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引用次数: 0
Fluorescent Biosensor Imaging of Nitrate in Arabidopsis thaliana. 拟南芥硝酸盐的荧光生物传感器成像。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4743
Yen-Ning Chen, Cheng-Hsun Ho

Nitrate (NO3-) is an essential element and nutrient for plants and animals. Despite extensive studies on the regulation of nitrate uptake and downstream responses in various cells, our knowledge of the distribution of nitrogen forms in different root cell types and their cellular compartments is still limited. Previous physiological models have relied on in vitro biochemistry and metabolite level analysis, which limits the ability to differentiate between cell types and compartments. Here, to address this, we report a nuclear-localized, genetically encoded fluorescent biosensor, which we named nlsNitraMeter3.0, for the quantitative visualization of nitrate concentration and distribution at the cellular level in Arabidopsis thaliana. This biosensor was specifically designed for nitrate measurements, not nitrite. Through genetic engineering to create and select sensors using yeast, Xenopus oocyte, and Arabidopsis expression systems, we developed a reversible and highly specific nitrate sensor. This method, combined with fluorescence imaging systems such as confocal microscopy, allows for the understanding and monitoring of nitrate transporter activity in plant root cells in a minimally invasive manner. Furthermore, this approach enables the functional analysis of nitrate transporters and the measurement of nitrate distribution in plants, providing a valuable tool for plant biology research. In summary, we provide a protocol for sensor development and a biosensor that can be used to monitor nitrate levels in plants. Key features This protocol builds upon the concept of FRET biosensors for in vivo visualization of spatiotemporal nitrate levels at a cellular resolution. Nitrate levels can be quantified utilizing the biosensor in conjunction with either a plate reader or a fluorescence microscope.

硝态氮(NO3-)是动植物必需的元素和营养物质。尽管对各种细胞对硝酸盐吸收和下游反应的调控进行了广泛的研究,但我们对不同根细胞类型及其细胞室中氮形态分布的了解仍然有限。以前的生理模型依赖于体外生物化学和代谢物水平分析,这限制了区分细胞类型和区室的能力。在这里,为了解决这个问题,我们报道了一个核定位的,遗传编码的荧光生物传感器,我们命名为nlsNitraMeter3.0,用于在拟南芥细胞水平上定量可视化硝酸盐浓度和分布。这种生物传感器是专门为硝酸盐测量而设计的,而不是亚硝酸盐。利用酵母、爪蟾卵母细胞和拟南芥表达系统,通过基因工程创建和选择传感器,我们开发了一种可逆的、高特异性的硝酸盐传感器。该方法与荧光成像系统(如共聚焦显微镜)相结合,可以以微创的方式了解和监测植物根细胞中硝酸盐转运蛋白的活性。此外,该方法还可以实现硝酸盐转运体的功能分析和硝酸盐在植物体内分布的测量,为植物生物学研究提供了有价值的工具。综上所述,我们提供了一种传感器开发方案和一种可用于监测植物硝酸盐水平的生物传感器。该协议建立在FRET生物传感器的概念上,用于在细胞分辨率下的时空硝酸盐水平的体内可视化。硝酸盐水平可以定量利用生物传感器结合板读取器或荧光显微镜。
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引用次数: 0
In vitro Analysis of Stalled Ribosomes Using Puromycin Incorporation. 利用嘌呤霉素整合技术体外分析停滞的核糖体
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4744
MaKenzie R Scarpitti, Michael G Kearse

Ribosome footprint profiling has demonstrated that ribosomes can be slowed or stalled on select mRNAs, often due to the presence of rare codons, stalling motifs, or via a ribosome-binding protein (e.g., FMRP). Stalled ribosomes can act as physical roadblocks for trailing ribosomes and ultimately can cause ribosome collisions that stimulate no-go mRNA decay. Detecting stalled or slowed ribosomes in cells by ribosome footprint profiling or classic polysome profiling is laborious, technically challenging, and low throughput. Here, we present a protocol to assay for stalled ribosomes on in vitro-transcribed reporter mRNAs using a robust, commercially available mammalian in vitro translation lysate and an optimized low-speed sucrose cushion. In short, we take advantage of the ability of puromycin to incorporate into the nascent polypeptide and cause the ribosome to dissociate from the mRNA during active elongation, as well as the ability to selectively pellet ribosomes through a low-speed sucrose cushion due to their large molecular weight. Stalled ribosomes are not actively elongating and do not incorporate puromycin, allowing the ribosome-bound mRNA to pellet in the low-speed sucrose cushion. RT-qPCR is used to quantify the amount of ribosome-bound reporter mRNA in the pellet. This workflow allows for direct assessment of stalled ribosomes and is fully amendable to insertion of putative stalling motifs in the target mRNA, as well as supplementation with recombinant proteins or small molecule inhibitors that target translation elongation. Key features This protocol is optimized for cap-dependent in vitro translation in the dynamic linear range. Details for generating capped reporter mRNA in one day are provided. Requires as little as one day to complete if starting with in vitro-transcribed mRNA. This protocol requires access to an ultracentrifuge and a real-time PCR system.

核糖体足迹分析表明,核糖体可在特定 mRNA 上减速或停滞,这通常是由于存在罕见密码子、停滞基团或通过核糖体结合蛋白(如 FMRP)造成的。停滞的核糖体可作为尾随核糖体的物理路障,并最终导致核糖体碰撞,从而刺激 mRNA 的衰变。通过核糖体足迹图谱或经典多聚体图谱检测细胞中停滞或减慢的核糖体既费力,又具有技术挑战性,而且通量低。在这里,我们提出了一种检测体外转录报告 mRNA 上停滞核糖体的方案,使用的是市售的耐用哺乳动物体外翻译裂解液和优化的低速蔗糖垫。简而言之,我们利用了嘌呤霉素结合到新生多肽中并导致核糖体在主动伸长过程中与 mRNA 分离的能力,以及由于核糖体分子量大而通过低速蔗糖垫选择性地将其沉淀的能力。停滞的核糖体不会主动伸长,也不会结合嘌呤霉素,从而使与核糖体结合的 mRNA 在低速蔗糖垫中沉淀。RT-qPCR 用于量化颗粒中与核糖体结合的报告基因 mRNA 的数量。该工作流程可直接评估停滞的核糖体,并完全适用于在目标 mRNA 中插入推测的停滞基序,以及补充重组蛋白或针对翻译延伸的小分子抑制剂。主要特点 本方案针对动态线性范围内的帽子依赖性体外翻译进行了优化。提供了在一天内生成加帽报告 mRNA 的详细信息。如果从体外转录的 mRNA 开始,只需一天即可完成。本方案需要使用超速离心机和实时 PCR 系统。
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引用次数: 0
Improved Methods for Acetocarmine and Haematoxylin Staining to Visualize Chromosomes in the Filamentous Green Alga Zygnema (Charophyta). 改进乙酰卡明和血苏木精染色方法,以观察丝状绿藻(Charophyta)中的染色体。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4768
Nina Rittmeier, Andreas Holzinger

Genome sizes of Zygnema spp. vary greatly, being unknown whether polyploidization occurred. The exact number of chromosomes in this genus is unknown since counting methods established for higher plants cannot be applied to green algae. The massive presence of pectins and arabinogalactan proteins in the cell wall interferes with the uptake of staining solutions; moreover, cell divisions in green algae are not restricted to meristems as in higher plants, which is another limiting factor. Cell divisions occur randomly in the thallus, due to the intercalary growth of algal filaments. Therefore, we increased the number of cell divisions via synchronization by changing the light cycle (10:14 h light/dark). The number of observed mitotic stages peaked at the beginning of the dark cycle. This protocol describes two methods for the visualization of chromosomes in the filamentous green alga Zygnema. Existing protocols were modified, leading to improved acetocarmine and haematoxylin staining methods as investigated by light microscopy. A freeze-shattering approach with liquid nitrogen was applied to increase the accessibility of the haematoxylin dye. These modified protocols allowed reliable chromosome counting in the genus Zygnema. Key features Improved method for chromosome staining in filamentous green algae. Optimized for the Zygnema strains SAG 698-1a (Z. cylindricum), SAG 698-1b (Z. circumcarinatum), and SAG 2419 (Zygnema 'Saalach'). This protocol builds upon the methods of chromosomal staining in green algae developed by Wittmann (1965), Staker (1971), and Fujii and Guerra (1998). Cultivation and synchronization: 14 days; fixation and permeabilization: 24 h; staining: 1 h; image analysis and chromosome number quantification: up to 20 h.

Zygnema 属的基因组大小差异很大,不知道是否发生了多倍体化。由于高等植物的计数方法无法应用于绿藻,因此该属植物染色体的确切数目也不得而知。细胞壁中大量存在的果胶和阿拉伯半乳聚糖蛋白质影响了染色液的吸收;此外,绿藻的细胞分裂不像高等植物那样局限于分生组织,这也是另一个限制因素。由于藻丝的穿插生长,细胞分裂在菌丝体中随机发生。因此,我们通过改变光周期(10:14 小时光照/黑暗)来同步增加细胞分裂的次数。观察到的有丝分裂阶段数量在暗周期开始时达到峰值。本实验介绍了两种观察丝状绿藻 Zygnema 染色体的方法。对现有方案进行了修改,从而改进了乙酰卡明和血色素染色方法,并通过光学显微镜进行了研究。采用液氮冷冻粉碎法提高了血色素染料的可及性。这些改进后的方案可对姬蛙属进行可靠的染色体计数。主要特点 改进了丝状绿藻染色体染色的方法。针对 Zygnema 菌株 SAG 698-1a(Z. cylindricum)、SAG 698-1b(Z. circumcarinatum)和 SAG 2419(Zygnema 'Saalach')进行了优化。该方案借鉴了 Wittmann(1965 年)、Staker(1971 年)以及 Fujii 和 Guerra(1998 年)开发的绿藻染色体染色方法。培养和同步化:培养和同步:14 天;固定和通透:24 小时;染色:1 小时;图像分析和染色体数目定量:最多 20 小时。
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