| Measurement of Dopamine Using Fast Scan Cyclic Voltammetry in Rodent Brain Slices
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Author:
Date:
2018-10-05
[Abstract] Fast scan cyclic voltammetry (FSCV) is an electrochemical technique that allows sub-second detection of oxidizable chemical species, including monoamine neurotransmitters such as dopamine, norepinephrine, and serotonin. This technique has been used to record the physiological dynamics of these neurotransmitters in brain tissue, including their rates of release and reuptake as well as the activity of neuromodulators that regulate such processes. This protocol will focus on the use of ex vivo FSCV for the detection of dopamine within the nucleus accumbens in slices obtained from rodents. We have included all necessary materials, reagents, recipes, procedures, and analyses in order to successfully perform this technique in the laboratory setting. Additionally, we have also included ...
[摘要] 快速扫描循环伏安法(FSCV)是一种电化学技术,可以亚秒检测可氧化的化学物质,包括单胺类神经递质,如多巴胺,去甲肾上腺素和血清素。 该技术已被用于记录这些神经递质在脑组织中的生理动态,包括它们的释放和再摄取速率以及调节这些过程的神经调节剂的活性。 该方案将集中于使用离体 FSCV检测从啮齿动物获得的切片中的伏隔核内的多巴胺。 我们已经包含了所有必要的材料,试剂,配方,程序和分析,以便在实验室环境中成功地执行该技术。 此外,我们还提供了一些警示点,我们认为这些警告点对于那些在该领域的新手有帮助。
【背景】由于首先将用于检查生理系统的电特性的能力用于临床前科学研究,因此已经开发了许多用于研究突触生理学的技术。从鱿鱼轴突电生理记录的早期到现在的快速扫描循环伏安法(FSCV)在人类帕金森病患者中进行(Kishida et al。,2016; Lohrenz et al。,2016),该领域在相对较短的时间内取得了重大进展。该协议的重点是FSCV,是物理学家,分析化学家和神经科学家之间40多年的创新和合作的技术成果。早在19世纪(Bard和Zoski,2000年),电化学与Michael Faraday和Alessandro Volta一起诞生(Bard and Zoski,2000),直到20世纪20年代,Jaroslav ...
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| Preparation of Sequencing RNA Libraries through Chemical Cross-linking Coupled to Affinity Purification (cCLAP) in Saccharomyces cerevisiae
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Author:
Date:
2018-10-05
[Abstract] Ribonucleoprotein particles (mRNPs) are complexes consisting of mRNAs and RNA-binding proteins (RBPs) which control mRNA transcription localization, turnover, and translation. Some mRNAs within the mRNPs have been shown to undergo degradation or storage. Those transcripts can lack general mRNA elements, like the poly(A) tail or 5’ cap structure, which prevent their identification through the application of widely-used approaches like oligo(dT) purification. Here, we describe a modified cross-linking affinity purification protocol (cCLAP) based on existing cross-linking and immunoprecipitation (CLIP) methods to isolate mRNAs which could be deadenylated, decapped and/or partially degraded in mRNPs, opening the possibility to detect different types of non-coding RNAs (ncRNAs). Once isolated, ...
[摘要] 核糖核蛋白颗粒(mRNP)是由mRNA和RNA结合蛋白(RBP)组成的复合物,其控制mRNA转录定位,转换和翻译。已显示mRNP内的一些mRNA经历降解或储存。那些转录物可能缺乏一般的mRNA元件,如poly(A)尾或5'帽结构,这通过应用广泛使用的方法如oligo(dT)纯化来阻止它们的鉴定。在这里,我们描述了基于现有的交联和免疫沉淀(CLIP)方法的修饰的交联亲和纯化方案(cCLAP),以分离mRNP中可被去腺苷酸化,去除和/或部分降解的mRNA,从而开启了检测不同的可能性。非编码RNA(ncRNA)的类型。分离后,将RNA进行衔接子连接,然后进行下一代测序(NGS)。由于快速有效的交联和淬灭步骤,该方案也适用于瞬时诱导的mRNP颗粒。实例包括由外在应激物触发的处理体(PB)或应力颗粒(SG)。其重现性和广泛应用使该方案成为研究特定RNP的RNA组成的有用且有力的工具。
【背景】mRNP内转录物的表征对于理解细胞转录和转录后过程至关重要。通过交联和免疫沉淀,然后通过RNA-Seq从mRNP颗粒中分离RNA已经成为鉴定mRNA靶标的常用方法(Tagwerker et al。,2006; Hafner et al。,2010; Kishore et al。,2011)。 ...
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| In vivo and in vitro 31P-NMR Study of the Phosphate Transport and Polyphosphate Metabolism in Hebeloma cylindrosporum in Response to Plant Roots Signals
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Author:
Date:
2018-08-20
[Abstract] We used in vivo and in vitro phosphorus-31 nuclear magnetic resonance (31P-NMR) spectroscopy to follow the change in transport, compartmentation and metabolism of phosphate in the ectomycorrhizal fungus Hebeloma cylindrosporum in response to root signals originating from host (Pinus pinaster) or non-host (Zea mays) plants. A device was developed for the in vivo studies allowing the circulation of a continuously oxygenated mineral solution in an NMR tube containing the mycelia. The in vitro studies were performed on fungal material after several consecutive treatment steps (freezing in liquid nitrogen; crushing with perchloric acid; elimination of perchloric acid; freeze-drying; dissolution in an appropriate liquid ...
[摘要] 我们使用体内和体外磷-31核磁共振( 31 P-NMR)光谱来跟踪运输,分区和 外生菌根真菌 Hebeloma cylindrosporum 中的磷酸盐代谢响应来自宿主( Pinus pinaster )或非宿主( Zea mays )的根信号植物。 开发了一种用于体内研究的装置,其允许连续氧化的矿物质溶液在含有菌丝体的NMR管中循环。 在几个连续的处理步骤(在液氮中冷冻;用高氯酸压碎;消除高氯酸;冷冻干燥;在适当的液体培养基中溶解)后,对真菌材料进行体外研究。
【背景】 菌根真菌和植物之间的关联改善了宿主植物的P营养(Smith和Read,2008; Plassard和Dell,2010; Cairney,2011; Smith 等人,,2015)。这种积极效应主要归因于真菌菌丝对磷酸盐(Pi)的吸收,探测了在活跃吸收根周围的耗竭区以外的大量土壤(Smith和Read,2008; Cairney,2011; Smith et al。< em="">,2015)和真菌细胞分泌细胞外磷酸酶(Quiquampoix和Mousain,2005)。吸收的Pi部分地掺入磷酸化的代谢物,磷脂和核酸中,并且部分地浓缩成多磷酸盐(PolyP),其中它们构成液泡中的储存池(Ashford 等人,,1994)。该协议详述了一种装置,该装置允许通过 31 ...
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