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Detection and Quantification of Calcium Ions in the Endoplasmic Reticulum and Cytoplasm of Cultured Cells Using Fluorescent Reporter Proteins and ImageJ Software. 利用荧光报告蛋白和ImageJ软件检测和定量培养细胞内质网和细胞质中的钙离子。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4738
Shunsuke Saito, Kazutoshi Mori

This protocol describes a method for detecting and quantifying calcium ions in the endoplasmic reticulum (ER) and cytoplasm of cultured cells using fluorescent reporter proteins and ImageJ software. Genetically engineered fluorescent reporter proteins, such as G-CEPIA1er and GCaMP6f, localize to intracellular regions of interest (i.e., ER and cytoplasm) and emit green fluorescence upon binding to calcium ions. In this way, the fluorescence brightness of cells transfected with expression vectors for these reporters reflects the calcium ion concentration in each intracellular region. Here, we describe procedures for observing cultured cells expressing these fluorescent reporters under a fluorescence microscope, analyzing the obtained image using the free image analysis software ImageJ (https://imagej.net/ij/index.html), and determining the average fluorescence brightness of multiple cells present in the image. The current method allows us to quickly and easily quantify calcium ions on an image containing multiple cells and to determine whether there are relative differences in intracellular calcium ion concentration among experiments with different conditions. Key features Detection and quantification of calcium ions in the ER and cytoplasm using fluorescent reporter proteins Quick and easy verification of measurement results using ImageJ Simultaneous comparison between various experimental conditions (drug treatment, mutants, etc.).

本方案描述了一种利用荧光报告蛋白和ImageJ软件检测和定量培养细胞内质网(ER)和细胞质中钙离子的方法。基因工程荧光报告蛋白,如G-CEPIA1er和GCaMP6f,定位于感兴趣的细胞内区域(即内质网和细胞质),并在与钙离子结合时发出绿色荧光。这样,转染了这些报告基因表达载体的细胞的荧光亮度反映了细胞内各区域的钙离子浓度。在这里,我们描述了在荧光显微镜下观察表达这些荧光报告的培养细胞的过程,使用免费图像分析软件ImageJ (https://imagej.net/ij/index.html)分析获得的图像,并确定图像中存在的多个细胞的平均荧光亮度。目前的方法使我们能够快速,轻松地定量含有多个细胞的图像上的钙离子,并确定不同条件下的实验中细胞内钙离子浓度是否存在相对差异。使用荧光报告蛋白检测和定量内质网和细胞质中的钙离子使用ImageJ快速简便地验证测量结果各种实验条件(药物治疗,突变体等)的同时比较。
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引用次数: 0
Caste Transition and Reversion in Harpegnathos saltator Ant Colonies. Harpegnathos盐场蚂蚁殖民地的种姓转换和逆转。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4770
Comzit Opachaloemphan, Francisco Carmona-Aldana, Hua Yan

Living organisms possess the ability to respond to environmental cues and adapt their behaviors and physiologies for survival. Eusocial insects, such as ants, bees, wasps, and termites, have evolved advanced sociality: living together in colonies where individuals innately develop into reproductive and non-reproductive castes. These castes exhibit remarkably distinct behaviors and physiologies that support their specialized roles in the colony. Among ant species, Harpegnathos saltator females stand out with their highly plastic caste phenotypes that can be easily manipulated in a laboratory environment. In this protocol, we provide detailed instructions on how to generate H. saltator ant colonies, define castes based on behavioral and physiological phenotypes, and experimentally induce caste switches, including the transition from a non-reproductive worker to a reproductive gamergate and vice versa (known as reversion). The unusual features of H. saltator make it a valuable tool to investigate cellular and molecular mechanisms underlying phenotypic plasticity in eusocial organisms. Key features H. saltator is one of few ant species showing remarkable caste plasticity with striking phenotypic changes, being a useful subject for studying behavioral plasticity. Caste switches in H. saltator can be easily manipulated in a controlled laboratory environment by controlling the presence of reproductive females in a colony. The relatively large size of H. saltator females allows researchers to dissect various tissues of interest and conduct detailed phenotypic analyses.

生物体具有对环境线索做出反应并适应其行为和生理以生存的能力。群居昆虫,如蚂蚁、蜜蜂、黄蜂和白蚁,已经进化出先进的社会性:在群体中共同生活,个体天生发展成繁殖和非繁殖种姓。这些种姓表现出显著不同的行为和生理学,这支持了他们在群体中的特殊作用。在蚂蚁物种中,哈氏跳跃蚁的雌性以其高度可塑的种姓表型而脱颖而出,这些表型可以在实验室环境中轻松操作。在该方案中,我们提供了关于如何生成H.saltator蚁群的详细说明,根据行为和生理表型定义种姓,并通过实验诱导种姓转换,包括从非生殖工作者转变为生殖游戏玩家,反之亦然(称为逆转)。H.saltator的不同寻常的特征使其成为研究真社会生物表型可塑性的细胞和分子机制的宝贵工具。主要特征H.saltator是少数几个表现出显著种姓可塑性和显著表型变化的蚂蚁物种之一,是研究行为可塑性的有用课题。H.saltator的种姓开关可以在受控的实验室环境中通过控制繁殖雌性在群体中的存在来轻松操作。H.saltator雌性体型相对较大,研究人员可以解剖各种感兴趣的组织并进行详细的表型分析。
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引用次数: 0
T Cell Clonal Analysis Using Single-cell RNA Sequencing and Reference Maps. 利用单细胞RNA测序和参考图谱进行T细胞克隆分析。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4735
Massimo Andreatta, Paul Gueguen, Nicholas Borcherding, Santiago J Carmona

T cells are endowed with T-cell antigen receptors (TCR) that give them the capacity to recognize specific antigens and mount antigen-specific adaptive immune responses. Because TCR sequences are distinct in each naïve T cell, they serve as molecular barcodes to track T cells with clonal relatedness and shared antigen specificity through proliferation, differentiation, and migration. Single-cell RNA sequencing provides coupled information of TCR sequence and transcriptional state in individual cells, enabling T-cell clonotype-specific analyses. In this protocol, we outline a computational workflow to perform T-cell states and clonal analysis from scRNA-seq data based on the R packages Seurat, ProjecTILs, and scRepertoire. Given a scRNA-seq T-cell dataset with TCR sequence information, cell states are automatically annotated by reference projection using the ProjecTILs method. TCR information is used to track individual clonotypes, assess their clonal expansion, proliferation rates, bias towards specific differentiation states, and the clonal overlap between T-cell subtypes. We provide fully reproducible R code to conduct these analyses and generate useful visualizations that can be adapted for the needs of the protocol user. Key features Computational analysis of paired scRNA-seq and scTCR-seq data Characterizing T-cell functional state by reference-based analysis using ProjecTILs Exploring T-cell clonal structure using scRepertoire Linking T-cell clonality to transcriptomic state to study relationships between clonal expansion and functional phenotype Graphical overview.

T细胞被赋予T细胞抗原受体(TCR),赋予它们识别特定抗原和装载抗原特异性适应性免疫反应的能力。由于TCR序列在每个naïve T细胞中都是不同的,因此它们可以作为分子条形码,通过增殖、分化和迁移来跟踪具有克隆相关性和共享抗原特异性的T细胞。单细胞RNA测序提供了单个细胞中TCR序列和转录状态的耦合信息,使t细胞克隆型特异性分析成为可能。在本协议中,我们概述了基于R软件包Seurat, ProjecTILs和scRepertoire的计算工作流程,以执行t细胞状态和克隆分析scRNA-seq数据。给定具有TCR序列信息的scRNA-seq t细胞数据集,使用ProjecTILs方法通过参考投影自动标注细胞状态。TCR信息用于跟踪单个克隆型,评估其克隆扩增,增殖率,对特定分化状态的偏好以及t细胞亚型之间的克隆重叠。我们提供了完全可复制的R代码来执行这些分析并生成有用的可视化,这些可视化可以根据协议用户的需求进行调整。关键特征scRNA-seq和scTCR-seq配对数据的计算分析使用ProjecTILs通过参考分析表征t细胞功能状态使用scRepertoire探索t细胞克隆结构将t细胞克隆性与转录组状态联系起来研究克隆扩增与功能表型之间的关系图表概述
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引用次数: 0
A Method for Studying Social Signal Learning of the Waggle Dance in Honey Bees. 蜜蜂摇摆舞社会信号学习的研究方法。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4789
Shihao Dong, Tao Lin, James C Nieh, Ken Tan

Honey bees use a complex form of spatial referential communication. Their waggle dance communicates to nestmates the direction, distance, and quality of a resource by encoding celestial cues, retinal optic flow, and relative food value into motion and sound within the nest. This protocol was developed to investigate the potential for social learning of this waggle dance. Using this protocol, we showed that correct waggle dancing requires social learning. Bees (Apis mellifera) that did not follow any dances before they first danced produced significantly more disordered dances, with larger waggle angle divergence errors, and encoded distance incorrectly. The former deficits improved with experience, but distance encoding was set for life. The first dances of bees that could follow other dancers had none of these impairments. Social learning, therefore, shapes honey bee signaling, as it does communication in human infants, birds, and multiple other vertebrate species. However, much remains to be learned about insects' social learning, and this protocol will help to address knowledge gaps in the understanding of sophisticated social signal learning, particularly in understanding the molecular bases for such learning. Key features It was unclear if honey bees (Apis mellifera) could improve their waggle dance by following experienced dancers before they first waggle dance. Honey bees perform their first waggle dances with more errors if they cannot follow experienced waggle dancers first. Directional and disorder errors improved over time, but distance error was maintained. Bees in experimental colonies continued to communicate longer distances than control bees. Dancing correctly, with less directional error and disorder, requires social learning. Distance encoding in the honey bee dance is largely genetic but may also include a component of cultural transmission.

蜜蜂使用一种复杂的空间参照交流方式。它们的摇摆舞通过将天体信号、视网膜光流和相对食物价值编码为巢内的运动和声音,向巢内的同伴传达方向、距离和资源的质量。该协议的制定是为了调查这种摇摆舞的社会学习潜力。使用这个协议,我们证明了正确的摇摆舞需要社会学习。蜜蜂(Apis mellifera)在第一次跳舞之前没有跟随任何舞蹈,产生的舞蹈明显更混乱,摆动角度发散误差更大,距离编码不正确。前一种缺陷随着经验的增加而改善,但距离编码是终生的。第一批能跟随其他舞者跳舞的蜜蜂没有这些缺陷。因此,社会学习塑造了蜜蜂的信号,就像人类婴儿、鸟类和其他多种脊椎动物的交流一样。然而,关于昆虫的社会学习仍有许多有待了解的地方,该协议将有助于解决在理解复杂的社会信号学习方面的知识空白,特别是在理解这种学习的分子基础方面。目前还不清楚蜜蜂(Apis mellifera)是否能在第一次摇摆舞之前通过跟随有经验的舞者来提高摇摆舞的水平。如果蜜蜂不能跟随有经验的摇摆舞者,那么它们在第一次跳摇摆舞时会犯更多的错误。方向和无序误差随着时间的推移而改善,但距离误差保持不变。实验群体中的蜜蜂比对照组的蜜蜂交流距离更长。正确地跳舞,减少方向错误和混乱,需要社会学习。蜜蜂舞蹈中的距离编码主要是遗传的,但也可能包括文化传播的成分。
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引用次数: 0
Quantification of Botrytis cinerea Growth in Arabidopsis thaliana. 拟南芥灰霉病菌生长的定量研究。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4740
Patricia Scholz, Kent D Chapman, Till Ischebeck, Athanas Guzha

Yield losses attributed to plant pathogens pose a serious threat to plant productivity and food security. Botrytis cinerea is one of the most devastating plant pathogens, infecting a wide array of plant species; it has also been established as a model organism to study plant-pathogen interactions. In this context, development of different assays to follow the relative success of B. cinerea infections is required. Here, we describe two methods to quantify B. cinerea development in Arabidopsis thaliana genotypes through measurements of lesion development and quantification of fungal genomic DNA in infected tissues. This provides two independent techniques that are useful in assessing the susceptibility or tolerance of different Arabidopsis genotypes to B. cinerea. Key features Protocol for the propagation of the necrotrophic plant pathogen fungus Botrytis cinerea and spore production. Two methods of Arabidopsis thaliana infection with the pathogen using droplet and spray inoculation. Two readouts, either by measuring lesion size or by the quantification of fungal DNA using quantitative PCR. The two methods are applicable across plant species susceptible the B. cinerea. Graphical overview A simplified overview of the droplet and spray infection methods used for the determination of B. cinerea growth in different Arabidopsis genotypes.

植物病原体造成的产量损失对植物生产力和粮食安全构成严重威胁。灰霉病菌是最具破坏性的植物病原体之一,感染广泛的植物物种;它也被确立为研究植物与病原体相互作用的模式生物。在这种情况下,需要开发不同的检测方法来跟踪灰绿杆菌感染的相对成功。在这里,我们描述了两种方法,通过测量病变发展和真菌基因组DNA在感染组织中量化拟南芥基因型中灰绿杆菌的发展。这为评估不同拟南芥基因型对灰孢杆菌的易感性或耐受性提供了两种独立的技术。主要特点:坏死性植物病原菌灰霉病菌的繁殖和孢子的产生。拟南芥侵染病原菌的两种方法分别为液滴接种和喷雾接种。两个读数,要么通过测量病变大小或通过真菌DNA定量PCR定量。两种方法均适用于对灰霉病敏感的植物。简要介绍了测定不同基因型拟南芥中灰绿芽孢杆菌生长的液滴和喷雾感染方法。
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引用次数: 0
Analysis of Pectin-derived Monosaccharides from Arabidopsis Using GC-MS. 气相色谱-质谱法分析拟南芥果胶单糖。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4746
Patricia Scholz, Kent D Chapman, Till Ischebeck, Athanas Guzha

Pectin is a complex polysaccharide present in the plant cell wall, whose composition is constantly remodelled to adapt to environmental or developmental changes. Mutants with altered pectin composition have been reported to exhibit altered stress or pathogen resistance. Understanding the link between mutant phenotypes and their pectin composition requires robust analytical methods to detect changes in the relative monosaccharide composition. Here, we describe a quick and efficient gas chromatography-mass spectrometry (GC-MS)-based method that allows the differential analysis of pectin monosaccharide composition in plants under different conditions or between mutant plants and their respective wild types. Pectin is extracted from seed mucilage or from the alcohol-insoluble residue prepared from leaves or other organs and is subsequently hydrolysed with trifluoracetic acid. The resulting acidic and neutral monosaccharides are then derivatised and measured simultaneously by GC-MS. Key features Comparative analysis of monosaccharide content in Arabidopsis-derived pectin between different genotypes or different treatments. Procedures for two sources of pectin are shown: seed coat mucilage and alcohol-insoluble residue. Allows quick analyses of neutral and acidic monosaccharides simultaneously. Graphical overview.

果胶是存在于植物细胞壁中的一种复杂的多糖,其组成不断地改变以适应环境或发育的变化。据报道,果胶组成改变的突变体表现出改变的胁迫或病原体抗性。了解突变表型与其果胶组成之间的联系需要强大的分析方法来检测相对单糖组成的变化。在这里,我们描述了一种快速高效的气相色谱-质谱(GC-MS)方法,可以在不同条件下或突变植物与其各自的野生类型之间进行果胶单糖组成的差异分析。果胶是从种子粘液或从叶子或其他器官制备的醇不溶性残留物中提取的,随后用三氟乙酸水解。然后衍生得到酸性和中性单糖,并通过气相色谱-质谱同时测定。不同基因型及不同处理拟南芥果胶中单糖含量的比较分析。果胶的两种来源的程序显示:种皮粘液和醇不溶性残留物。允许同时快速分析中性和酸性单糖。图形的概述。
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引用次数: 0
Stereotactic Delivery of Helper-dependent Adenoviral Viral Vectors at Distinct Developmental Time Points to Perform Age-dependent Molecular Manipulations of the Mouse Calyx of Held. 在不同的发育时间点立体定向递送辅助依赖性腺病毒载体以对Hold的小鼠Calyx进行年龄依赖性分子操作。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4793
Christian Keine, Mohammed Al-Yaari, Tamara Radulovic, Samuel M Young

Synapses are specialized structures that enable neuronal communication, which is essential for brain function and development. Alterations in synaptic proteins have been linked to various neurological and neuropsychiatric disorders. Therefore, manipulating synaptic proteins in vivo can provide insight into the molecular mechanisms underlying these disorders and aid in developing new therapeutic strategies. Previous methods such as constitutive knock-out animals are limited by developmental compensation and off-target effects. The current approach outlines procedures for age-dependent molecular manipulations in mice using helper-dependent adenovirus viral vectors (HdAd) at distinct developmental time points. Using stereotactic injection of HdAds in both newborn and juvenile mice, we demonstrate the versatility of this method to express Cre recombinase in globular bushy cells of juvenile Rac1fl/fl mice to ablate presynaptic Rac1 and study its role in synaptic transmission. Separately, we overexpress CaV2 α1 subunits at two distinct developmental time points to elucidate the mechanisms that determine presynaptic CaV2 channel abundance and preference. This method presents a reliable, cost-effective, and minimally invasive approach for controlling gene expression in specific regions of the mouse brain and will be a powerful tool to decipher brain function in health and disease. Key features Virus-mediated genetic perturbation in neonatal and young adult mice. Stereotaxic injection allows targeting of brain structures at different developmental stages to study the impact of genetic perturbation throughout the development.

突触是实现神经元交流的特殊结构,这对大脑功能和发育至关重要。突触蛋白的改变与各种神经和神经精神疾病有关。因此,在体内操纵突触蛋白可以深入了解这些疾病的分子机制,并有助于开发新的治疗策略。以前的方法,如组成型敲除动物,受到发育补偿和脱靶效应的限制。目前的方法概述了在不同发育时间点使用辅助依赖性腺病毒载体(HdAd)在小鼠中进行年龄依赖性分子操作的程序。通过在新生和幼年小鼠中立体定向注射HdAds,我们证明了这种方法在幼年Rac1fl/fl小鼠的球状浓密细胞中表达Cre重组酶以消融突触前Rac1的多功能性,并研究了其在突触传递中的作用。另外,我们在两个不同的发育时间点过表达CaV2α1亚基,以阐明决定突触前CaV2通道丰度和偏好的机制。这种方法为控制小鼠大脑特定区域的基因表达提供了一种可靠、成本效益高、微创的方法,并将成为解读健康和疾病中大脑功能的有力工具。主要特征病毒介导的新生儿和年轻成年小鼠的遗传干扰。立体定向注射可以靶向不同发育阶段的大脑结构,以研究遗传扰动在整个发育过程中的影响。
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引用次数: 0
Perforated Patch Clamp Recordings in ex vivo Brain Slices from Adult Mice. 成年小鼠离体脑切片穿孔膜片钳记录。
Pub Date : 2023-08-20 DOI: 10.21769/BioProtoc.4741
Simon Hess, Helmut Wratil, Peter Kloppenburg

Intracellular signaling pathways directly and indirectly regulate neuronal activity. In cellular electrophysiological measurements with sharp electrodes or whole-cell patch clamp recordings, there is a great risk that these signaling pathways are disturbed, significantly altering the electrophysiological properties of the measured neurons. Perforated-patch clamp recordings circumvent this issue, allowing long-term electrophysiological recordings with minimized impairment of the intracellular milieu. Based on previous studies, we describe a superstition-free protocol that can be used to routinely perform perforated patch clamp recordings for current and voltage measurements.

细胞内信号通路直接或间接调节神经元活动。在使用尖锐电极或全细胞膜片钳记录的细胞电生理测量中,这些信号通路被干扰的风险很大,显著改变了被测神经元的电生理特性。穿孔膜片钳记录避免了这个问题,允许长期电生理记录,最小化细胞内环境的损害。基于先前的研究,我们描述了一种无迷信的方案,可用于常规执行穿孔膜片钳记录电流和电压测量。
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引用次数: 0
A Simple Sonication Method to Isolate the Chloroplast Lumen in Arabidopsis thaliana. 拟南芥叶绿体管腔的简单超声分离方法研究。
Pub Date : 2023-08-05 DOI: 10.21769/BioProtoc.4756
Jingfang Hao, Alizée Malnoë

The chloroplast lumen contains at least 80 proteins whose function and regulation are not yet fully understood. Isolating the chloroplast lumen enables the characterization of the lumenal proteins. The lumen can be isolated in several ways through thylakoid disruption using a Yeda press or sonication, or through thylakoid solubilization using a detergent. Here, we present a simple procedure to isolate thylakoid lumen by sonication using leaves of the plant Arabidopsis thaliana. The step-by-step procedure is as follows: thylakoids are isolated from chloroplasts, loosely associated thylakoid surface proteins from the stroma are removed, and the lumen fraction is collected in the supernatant following sonication and centrifugation. Compared to other procedures, this method is easy to implement and saves time, plant material, and cost. Lumenal proteins are obtained in high quantity and purity; however, some stromal membrane-associated proteins are released to the lumen fraction, so this method could be further adapted if needed by decreasing sonication power and/or time.

叶绿体管腔包含至少80种蛋白质,其功能和调控尚未完全了解。分离叶绿体管腔可以表征管腔蛋白。可以通过几种方法分离管腔,通过使用叶达压或超声破坏类囊体,或通过使用洗涤剂溶解类囊体。在这里,我们提出了一个简单的程序,分离类囊体腔声波利用植物拟南芥叶片。步骤如下:从叶绿体中分离出类囊体,从基质中去除松散相关的类囊体表面蛋白,超声和离心后在上清中收集管腔部分。与其他方法相比,该方法易于实施,节省时间、植物材料和成本。获得高数量和高纯度的管腔蛋白;然而,一些基质膜相关蛋白被释放到管腔部分,因此如果需要,可以通过降低超声功率和/或时间进一步调整该方法。
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引用次数: 0
Development of a Mouse Model of Hematopoietic Loss of Y Chromosome. Y染色体造血缺失小鼠模型的建立。
Pub Date : 2023-08-05 DOI: 10.21769/BioProtoc.4729
Soichi Sano, Kenneth Walsh

This protocol describes the generation of chimeric mice in which the Y chromosome is deleted from a proportion of blood cells. This model recapitulates the phenomenon of hematopoietic mosaic loss of Y chromosome (mLOY), which is frequently observed in the blood of aged men. To construct mice with hematopoietic Y chromosome loss, lineage-negative cells are isolated from the bone marrow of ROSA26-Cas9 knock-in mice. These cells are transduced with a lentivirus vector encoding a guide RNA (gRNA) that targets multiple repeats of the Y chromosome centromere, effectively removing the Y chromosome. These cells are then transplanted into lethally irradiated wildtype C57BL6 mice. Control gRNAs are designed to target either no specific region or the fourth intron of Actin gene. Transduced cells are tracked by measuring the fraction of blood cells expressing the virally encoded reporter gene tRFP. This model represents a clinically relevant model of hematopoietic mosaic loss of Y chromosome, which can be used to study the impact of mLOY on various age-related diseases. Graphical overview.

该方案描述了嵌合小鼠的产生,其中Y染色体从一定比例的血细胞中删除。该模型概括了Y染色体造血马赛克缺失(mLOY)的现象,这种现象在老年男性血液中经常观察到。为了构建造血Y染色体缺失的小鼠,从ROSA26-Cas9敲入小鼠的骨髓中分离出谱系阴性细胞。这些细胞用慢病毒载体进行转导,慢病毒载体编码引导RNA (gRNA),靶向Y染色体着丝粒的多次重复,有效地去除Y染色体。然后将这些细胞移植到经过致死照射的野生型C57BL6小鼠体内。对照grna被设计为不针对特定区域或肌动蛋白基因的第四个内含子。通过测量表达病毒编码的报告基因tRFP的血细胞的比例来跟踪转导细胞。该模型代表了Y染色体造血马赛克缺失的临床相关模型,可用于研究mLOY对各种年龄相关疾病的影响。图形的概述。
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引用次数: 0
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