海马脑片盲法膜片钳全细胞记录技术

本文较为详细地介绍了海马脑片盲法膜片钳全细胞记录技术,对其关键步骤和需要注意的问题进行了重点说明,同时对CA1区锥体神经元突触活动的特点,电压门控性Ca^2 通道以及谷氨酸（glutamate,Glu)γ－氨基丁酸（GABA）受体通道电流性质等进行了观察和分析,实验结果为采用海马脑片盲法膜片钳全细胞记录技术研究海马神经元离子通道动力学性质和中枢神经系统药物对突触活动的影响提供了可靠的依据。     

大鼠多通道在体记录北大核心

多通道在体记录技术,能在自由活动的动物脑内,观察和记录局部脑区群体神经元的活动状况,是分析大脑神经信息编码的有力工具。要开展多通道在体记录研究,多电极阵列驱动器的设计非常关键,也是实现该技术的一大难点。根据转动螺杆推动螺帽移动的机械驱动原理,作者设计了适合大鼠多通道在体记录的、独立可调式16道电极阵列驱动装置。通过该装置,可对16道记录电极中的任意一道进行独立驱动,从而控制每根记录电极在大鼠大脑中的垂直记录位置。运用该多电极阵列驱动装置,对大鼠单侧海马脑区的多通道在体记录表明,在大鼠海马CA1区,存在不同放电波形和放电模式的神经元,它们分别与海马CA1区的锥体神经元和中间神经元相对应。一般锥体神经元动作电位的放电波形较宽,放电频率则较低。在海马CA1区还存在编码空间环境中特定位置信息的神经元,被称为位置细胞。这些位置细胞在某一空间环境中有各自对应的反应区域,在该区域内位置细胞的放电频率增加,在区域外则基本维持在一较低的活动水平。     

在体膜片钳技术的新进展

在体膜片钳是指在整体动物上直接对其中枢神经元进行全细胞膜片钳记录的技术,在生理学和药理学研究中具有良好的应用前景.常规采用的是盲法记录,最近出现的可视法记录,采用双光子靶向膜片钳（two-photon targeted patching,TPTP）技术,通过基因操作在动物脑内目标神经元中构建特异表达的荧光标志,可以做到对特定神经元亚群的靶向研究.对这两种方法的原理和操作进行了简单的介绍.     

中枢神经元放电的在体多通道同步记录技术

中枢神经元放电的在体多通道同步记录技术是采用细胞外记录的方法来监测神经元群的同步电活动。该系统包括微电极阵列(microarray)、数据采集和分析系统。应用这一技术可以同步记录多个脑区的大量神经元的电活动,研究不同脑区的神经元放电在时间和空间上的联系,进而通过分析神经元的放电模式来研究大脑对外部事件的编码机制。     

膜片钳技术及其在高等植物细胞研究中的应用与展望

本文就膜片钳技术及其在高等植物细胞研究中的应用作了介绍与回顾,并对其潜在的和广泛的应用前景作了论述。     

活体动物全细胞记录技术及其应用

活体动物全细胞记录技术不仅可以用于研究感觉系统对自然刺激（如视觉系统的光刺激、听觉系统的声音刺激等）反应的特性和规律,还可以较准确地记录细胞的突触电位（包括阈下反应）,实现EPSP和IPSP的相对分离,并实现活体细胞内灌流,从而进一步研究感觉信息的处理机制。本文较为详细地介绍了在活体动物上进行全细胞记录的方法,包括一些技术细节和关键仪器设备的选取原则,举例说明了该技术在视觉系统研究和体感系统研究中的应用,并讨论了这一方法在神经科学中的应用前景。     

大鼠下丘脑离体脑薄片视上核神经元的全细胞记录

在大鼠下丘脑薄片标本上对52例视上核神经元进行了全细胞膜片箝记录。膜被动及主动电生理参数测量如下：静息电位,59±8mV;输入阻抗,535±129MΩ;时间常数,32±9ms;动作电位幅度,99±11mV;超射值,37±13mV（n＝39）。大多数神经元在接受去极化刺激时出现明显的慢后超极化电位或电流。我们发现,在电压箱状态下几乎所有的视上核神经元均接受兴奋性和／或抑制性突触传λ（n=13）。药理学实验表明,兴奋性突触后电流是由non－NMDA亚型谷氨酸受体介导,而抑制性突触后电流由GABAA受体介导。     

拟南芥下胚轴原生质体的膜片钳全细胞记录（简报）

建立了拟南芥下胚轴原生质体的膜片钳全细胞记录方法,观测到的全细胞电流主要是外向K＋电流,其对胞外K＋浓度具有一定的依赖性,并为K＋通道阻断剂Ba2 显著抑制,外源ATP和Ca2 分别对拟南芥下胚轴原生质体的全细胞外向K 电流有显著影响,表明拟南芥下胚轴细胞质膜外向K＋通道,可能通过蛋白磷酸化或Ca2 信使调控的机制,参与细胞信号转导。     

AmphotericinB在全细胞穿孔膜片钳技术中的应用研究

目的：为研究海德氏突触的电生理特性,建立用amphotericinB穿孔的膜片钳技术。方法：本文应用两性霉素B（amphotericinB）在小鼠脑干的calyx细胞上进行穿孔膜片钳技术的研究。结果：应用amphotericinB进行穿孔后,通道电流衰减现象显著变慢。AmphotericinB的最适浓度为400tc／ml。结论：本研究摸索出了一种稳定的穿孔膜片钳全细胞记录技术,可以更有效,更真实的反应神经元通道电流的电生理特性。为穿孔膜片钳技术在听觉信息传导和调控研究中的应用提供了基础资料。     

A reliable whole cell clamp technique

This article describes a simple whole cell formation technique that the author invented in teaching and experiments. The implementation of the invented technique is a syringe with a hole and slot. With the newly invented technique, novices will shorten their learning curve and veterans will increase their success rate. The invented technique lightens the labor of the experimenter and improves the success rate and quality of whole cell preparations. The article also provides an idea to design an automated whole cell formation implementation. The tools developed in this technique make the patch-clamp experiment easy to teach and learn.     

Thalamic activation modulates the responses of neurons in rat primary auditory cortex: an in vivo intracellular recording study

Auditory cortical plasticity can be induced through various approaches. The medial geniculate body (MGB) of the auditory thalamus gates the ascending auditory inputs to the cortex. The thalamocortical system has been proposed to play a critical role in the responses of the auditory cortex (AC). In the present study, we investigated the cellular mechanism of the cortical activity, adopting an in vivo intracellular recording technique, recording from the primary auditory cortex (AI) while presenting an acoustic stimulus to the rat and electrically stimulating its MGB. We found that low-frequency stimuli enhanced the amplitudes of sound-evoked excitatory postsynaptic potentials (EPSPs) in AI neurons, whereas high-frequency stimuli depressed these auditory responses. The degree of this modulation depended on the intensities of the train stimuli as well as the intervals between the electrical stimulations and their paired sound stimulations. These findings may have implications regarding the basic mechanisms of MGB activation of auditory cortical plasticity and cortical signal processing.     

Stretch-activated whole cell currents in adult rat cardiac myocytes

Mechanoelectric transduction can initiate cardiac arrhythmias. To examine the origins of this effect at the cellular level, we made whole cell voltage-clamp recordings from acutely isolated rat ventricular myocytes under controlled strain. Longitudinal stretch elicited noninactivating inward cationic currents that increased the action potential duration. These stretch-activated currents could be blocked by 100 microM Gd(3+) but not by octanol. The current-voltage relationship was nearly linear, with a reversal potential of approximately -6 mV in normal Tyrode solution. Current density varied with sarcomere length (SL) according to I (pA/pF) = 8.3 - 5.0 SL (microm). Repeated attempts to record single channel currents from stretch-activated ion channels failed, in accord with the absence of such data from the literature. The inability to record single channel currents may be a result of channels being located on internal membranes such as the T tubules or, possibly, inactivation of the channels by the mechanics of patch formation.     

植保网络应用技术初步研究

ASP(Active Server Pages动态服务器网页）是Microsoft公司1997年推出的,WINDOWS面向WEB特征的,功能强大而成熟一种技术。2000年以来,笔对其应用于植保网络化、可视化与自动化方面作了一些探讨与开发,建立了我省第一个植保专业网站,网址www.fizb.com。阐述了植保在互联网上的初步应用研究。     

Thermogenic shivering in the anesthetized rat

In normal pentobarbital-anaesthetized rats (20 mg/kg, i.p.), Ketanserine (2.5 to 10 mg/kg, i.v.) increases the temperature of the paw skin and decreases the central one. A strong thermogenetic shivering appears when central temperature falls below 35 degrees C. This shivering is a specific characteristics of Ketanserine activity, probably related to its fixation on 5-HT2 central receptors.     

在体神经元胞外记录用于大脑皮层可塑性研究

神经元网络可塑性是大脑学习和记忆功能的基础,可塑性的变化也是某些脑功能疾病的成因。研究大脑皮层可塑性不仅可以为认识可塑性机制提供基本方法,也可对自然衰老过程和神经退行性疾病的病理过程进行观测,进而可以为评价抗衰老药物和治疗神经退行性疾病提供新方法。本文基于经典的大鼠胡须配对模型建立了一套实验方案,通过在体细胞外记录实验的数据分析,比较修剪胡须后相同时间内神经元感受野不对称变化程度的差异,衡量不同生理条件下大鼠体感皮层神经元网络可塑性。本文以中年和青年大鼠体感皮层神经元网络可塑性比较为例,详细介绍了实验方法中的关键技术和操作,如皮层D2功能柱的定位和D2功能柱内不同层神经元的定位等,结果和我室以前相关研究证明了此实验方案的可行性。     

Effect of perezone on arrhythmias and markers of cell injury during reperfusion in the anesthetized rat

In the in vivo rat heart model with transient (5 min) regional ischemia, as induced by left coronary artery ligation, we have demonstrated that perezone reduces dramatically the incidence of reperfusion-induced-arrhythmias. Administered 5 minutes before coronary occlusion, at a dose of 3.1 mg/kg, this drug effectively protects against the high incidence of arrhythmias and the fall of blood pressure. In addition, it inhibits the release of lactic dehydrogenase and creatine-kinase enzymes to the plasma. We propose that the protective effect of perezone might be related to its well documented action of promoting the release of intramitochondrial Ca2+, thus, maintaining ATP production during reperfusion.