| A Quantitative Single-cell Flow Cytometry Assay for Retrograde Membrane Trafficking Using Engineered Cholera Toxin
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Author:
Date:
2020-08-05
[Abstract] The organization and distribution of proteins, lipids, and nucleic acids in eukaryotic cells is an essential process for cell function. Retrograde trafficking from the plasma membrane to the Golgi and endoplasmic reticulum can greatly modify cell membrane composition and intracellular protein dynamics, and thus typifies a key sorting step. However, methods to efficiently quantify the extent or kinetics of these events are currently limited. Here, we describe a novel quantitative and effectively real-time single-cell flow cytometry assay to directly measure retrograde membrane transport. The ...
[摘要] [摘要]蛋白质、脂类和核酸在真核细胞中的组织和分布是细胞功能的重要过程。从质膜到高尔基体和内质网的逆向运输可以极大地改变细胞膜的组成和细胞内蛋白质的动态变化,因此是一个关键的分选步骤。然而,有效量化这些事件的程度或动力学的方法目前是有限的。在这里,我们描述了一种新的定量和有效的实时单细胞流式细胞术检测直接测量逆行膜转运。这项检测利用了众所周知的霍乱毒素逆行转移的特性,利用裂解荧光蛋白产生了新的工具,用于即时监测细胞内的转移。这种方法将大大扩展研究细胞内膜转运的生物学基础,以及细胞膜转运系统如何适应不同细胞类型和细胞状态的生理需要。
[背景]所有的真核细胞都依赖于它们动态地将分子分类和分离到膜结合的亚细胞器中的能力,以便组织和分配到细胞的特定区域。在这一过程中的一个重要步骤是早期分类内体和跨高尔基网络(TGN)。在从分选内体产生的其他贩运途径中,通过分泌途径到TGN的逆行贩运是一个关键的分选步骤(Johannes和Popoff,2008)。细胞膜蛋白和脂类发生逆向转运。从TGN到内质网(ER)的进一步逆行贩运可通过一些质膜脂质完成,并可巧妙地由几种细菌毒素和病毒协同作用而致病(Cho等人,2012年;Personnic等人,2016年;Williams和Tsai,2016年)。
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| Isolation, Culture, and Differentiation of Primary Myoblasts Derived from Muscle Satellite Cells
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Author:
Date:
2020-07-20
[Abstract] The skeletal muscle is key for body mobility and motor performance, but aging and diseases often lead to progressive loss of muscle mass due to wasting or degeneration of muscle cells. Muscle satellite cells (MuSCs) represent a population of tissue stem cells residing in the skeletal muscles and are responsible for homeostatic maintenance and regeneration of skeletal muscles. Growth, injury, and degenerative signals activate MuSCs, which then proliferate (proliferating MuSCs are called myoblasts), differentiate and fuse with existing multinuclear muscle cells (myofibers) to mediate muscle ...
[摘要] [摘要] 骨骼肌是身体活动和运动表现的关键,但是衰老和疾病通常会由于肌肉细胞的浪费或变性而导致肌肉质量的逐步丧失。肌卫星细胞(MuSCs)代表的组织STE群体米细胞小号居住在骨骼肌和负责骨骼肌的体内平衡维持和再生。生长,损伤和变性信号激活MuSC,然后增殖(增殖的MuSC被称为成肌细胞),分化并与现有的多核肌肉细胞(肌纤维)融合,以介导肌肉的生长和修复。在这里,我们描述了从小鼠骨骼肌中分离MuSC的体外实验方案分析。此外,我们提供了有关如何将原代成肌细胞培养和分化成肌管的详细协议,以及用于表征细胞的免疫荧光染色程序。这些方法对于在体外模拟再生肌生成以了解MuSC 的动力学,功能和分子调控至关重要。
[背景] 通过多种细胞功能维持肌肉的动态平衡,对于保持肌肉的完整性至关重要。组织特异性成体干细胞能够在整个生命中连续不断地再生局部组织。在成年骨骼肌中,称为肌肉卫星细胞(MuSC)的干细胞群具有强大的再生能力,这是肌肉动态平衡的关键(Yin 等人,2013; Dumont 等人,2016)。静态MuSC位于与肌肉纤维并列的基底层下方的壁iche中,负责肌肉的生长和再生(Yin 等人,2013; Dumont 等人,2016)。
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| Primary Culture of Mouse Neurons from the Spinal Cord Dorsal Horn
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Author:
Date:
2017-01-05
[Abstract] Primary afferents of sensory neurons mainly terminate in the spinal cord dorsal horn, which has an important role in the integration and modulation of sensory-related signals. Primary culture of mouse spinal dorsal horn neuron (SDHN) is useful for studying signal transmission from peripheral nervous system to the brain, as well as for developing cellular disease models, such as pain and itch. Because of the specific features of SDHN, it is necessary to establish a reliable culture method that is suitable for testing neural response to various external stimuli in vitro.
[摘要] 感觉神经元的主要传入主要终止于脊髓背角,其在感觉相关信号的整合和调节中具有重要作用。小鼠脊髓背角神经元(SDHN)的原代培养可用于研究从周围神经系统到脑的信号传递,以及用于发展诸如疼痛和瘙痒的细胞疾病模型。由于SDHN的具体特征,有必要建立一种可靠的培养方法,适合于测试体外各种外部刺激的神经反应。
背景 不同于目前用于培养分离的小鼠来自海马或大脑皮质的原代神经元的方案,报道了很少的在体外培养SDHN的方法。该协议主要基于以前描述的方法(Hu et al。,2003; Hugel和Schlichter,2000)。在这里,我们进行了一些修改,包括试剂,食谱,解剖和描述从新生小鼠的初步SDHN的解剖和培养的分步程序。在该方案中,使用来自新鲜脊髓背角组织的酶(木瓜蛋白酶)消化方法直接获得神经元。体外SDHN的培养可以用于进一步的实验,例如电生理记录,免疫细胞化学和Ca 2+成像,其更好地支持脊髓中的细胞行为。
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