丹麦Capp移液器及德国Hermle离心机介绍.培科实验室仪器科技

本操作手册适用于离心法从140ul 血清、血浆、尿液、细胞培养上清液、无细胞体液、拭子浸液中纯化病毒RNA 。

如需配合QIAcube 核酸纯化工作站实现自动化病毒RNA 纯化，请参阅QIAcbue 操作说明。

如处理更大量的样本（可多至560ul ），按照标准操作流程增加适当比例的裂解液以及载样次数即可。

针对一些病毒含量很低的样本，可参照附录中样本浓缩操作步骤对样本进行浓缩。

注意事项注意事项：：1、 所有步骤所有步骤均均于室温下室温下操作操作(15–25°C)。

2、 样本收集和离心后，血浆（未经处理，或用肝素之外的抗凝剂处理）或血清可在2–8°C 下储存至多6个小时。

如需长期保存，推荐分装后在–20°C 或 –80°C 保存。

冷冻血浆或血清样本不可反复冻融样本不可反复冻融样本不可反复冻融。

反复冻融将会促使蛋白变性沉淀，因而病毒含量降低，导致纯化得到的病毒RNA 的量减少。

并且，反复冻融形成的冷凝蛋白将有可能导致QIAamp 膜堵塞。

冷凝蛋白可通过 6800 x g 下快速离心3 分钟去除，小心吸取上清后立即进行下一步操作。

这一步骤不会影响病毒的含量。

3、 本操作步骤不适用于RNA 和DNA 分离，样本中存在的样本中存在的DNA 和RNA 会被同时纯化出来会被同时纯化出来。

如需完全去除DNA 的影响，推荐使用无细胞体液作为病毒RNA 纯化的起始样本。

含有细胞的样本，例如脑脊液、骨髓、尿液、以及大部分拭子，首先需要过滤，或者1500 x g 离心10分钟以上取上清使用。

如DNA 和RNA 已经一并完成纯化，可将洗脱液经过无RNA 酶的DNA 酶消化处理，接着热处理将DNA 酶灭活。

4、 可以纯化所有大于大于200nt 的RNA 分子分子，小分子RNA 将不能得到高效率的纯化。

本操作手册仅限内部学习使用！如有任何疑问，请联系：胡川（189****3075）准备事项准备事项：：1、 所有样本所有样本平衡至室温平衡至室温2、 Buffer AVE 平衡至室温3、 每个样本每个样本提供提供4个2ml 收集管收集管，，根据不同需要适当自备根据不同需要适当自备无无RNA 酶超净2ml 收集管/1.5ml 离心管4、 按照按照下面的配方准备下面的配方准备AW1 和AW2 BufferBuffer AW1以浓缩液的形式提供。

Piston-stroke pipettes with an air cushion are subject to the effects of temperature, air pressure and air humidity. Such effects are kept to a minimum by constructive measures which are designed to ensure that dispensingaccuracy is not significantly affected. Liquids whose physical properties differ significantly from those of water, or temperature differences between the pipette, the pipette tip and the dispensed liquid may also lead to incorrect dispensing volumes. These factors make it necessary to be able to readjust the devices for different physical conditions. Thanks to its numerous adjustment possibilities the new electronic pipette Xplorer from Eppendorf allows for easy compensation of such physical effects.The electronic Eppendorf Xplorer® pipette – Versatile adjustmentUserguideKornelia Ewald, Eppendorf AG, Hamburg, GermanySince piston-stroke pipettes are mainly used for pipetting of aqueous solutions, they are adjusted with distilled water as a test medium. Depending on the density of theparticular liquid the air volume over the liquid expands in different ways. Consequently, other liquid volumes may, under certain circumstances, be aspirated into the tip when dispensing non-aqueous solutions. Liquids with ahigh vapor pressure, such as organic solvents, can also not be dispensed with the level of accuracy specified for distilled water. The air pressure, which is dependent on the height of the location above sea level, is a further factor to be considered during dispensing operations with air cushion pipettes.Solutions whose physical data is very different from water with regard to their density, viscosity, surface tension and/ or vapor pressure may lead to incorrect dispensing volumes. This makes it necessary to readjust piston-stroke pipettes with an air cushion to account for this. If the density of an aqueous solution changes by approximately 10 %, for example, because of the salt concentration, the volume will change by approximately 0.2 %. This statement does only apply if other relevant properties of the liquid do not change at the same time.Another reason for changing the factory settings canbe, for example, the altitude of the location at which the pipette is used. If the pipette is used at an extremely high altitude, it must be adjusted to the ambient air pressure. At 1000 meters above sea level, the volume error of a 100 µL pipette is about -0.3 %. In addition, when using pipette tips that significantly differ from standard tips in their geometry, changing the adjustment can also improve dispensing accuracy.In contrast to performing calibration which involves determining the measured random (precision) and systematic (accuracy) errors from the nominal value and which does not require any alterations that will permanently change the dispensing system, performing an adjustment will change the device for all subsequent dispensing operations. Changes made to the adjustment do not affect dispensing precision. Precision can only be improved by exchanging parts. Precision is also considerably affected by handling errors.The actual volume of a pipette can be checked by weighing as follows:If the set volume corresponds to the actual volume, no correction is necessary.If there is a difference between the actual volume andthe set volume, make sure to check the following factors before readjusting a pipette:Is there any liquid dripping from the tip?Is the pipette tip fitted leak-proof?Is the tip cone undamaged?Are the piston and the cylinder leak-proof?Does the temperature of the pipetted liquid correspond to the temperature of the device and the ambient air?Is the weighing location free from drafts?Does the work method and pipetting speed permit complete aspiration and dispensing of the liquid?Has the correct value for “Density liquids at weighing temperature” been used for the calculation of the actual volume?Is the pipette volume setting correct?Is the balance sufficiently sensitive (balance resolution 0.001 mg) for very small volumes (< 10 µL)?Were original epT.I.P.S. pipette tips used with the correct volume (see technical data) as test tips?The factory setting of the Eppendorf Xplorer may onlybe changed after all of the above listed points have been thoroughly checked and the pipette volume setting is still different from the measured volume.The Eppendorf Xplorer offers several individual adjustment options which can be used as an alternative to adjusting the pipette, depending on the application.The following adjustment options are available for selection:Liquid type ethanol 75 % or glycerol 50 %When this adjustment option is selected, the factory setting is changed by an internal factor which considers the density of the ethanol or the glycerol. This means that the substance can be dispensed with greater accuracy (smaller systematic error) with the Xplorer pipette.epT.I.P.S. longThis enables the pipette to be adjusted to the different lengths of a pipette tip, such as, epT.I.P.S. 1200 µL elongated or epT.I.P.S. 10 mL L. When this adjustment option is selected, the tip geometry of the longer tip is considered in the internal volume calculation. This means that the technical data of the original tip (test tip) is reached. This function can also be used when the Xplorer pipette is not used with its test tip, e.g., when using the 300 µL epT.I.P.S. for the pipette size 5–100 µL. When using the following tips dispensing accuracy can be increased with this function:Eppendorf Xplorer 10 µL (medium gray):epT.I.P.S. long 20 µL L (light gray tray)Eppendorf Xplorer 100 µL (yellow):epT.I.P.S. 300 µL (orange tray)Eppendorf Xplorer 1000 µl (blue):epT.I.P.S. long 1250 µl L (dark green tray)Eppendorf Xplorer 1200 µL (green, 8-channels):epT.I.P.S. long 1250 µL L (dark green tray)Eppendorf Xplorer 10 mL (turquoise):epT.I.P.S. long 10 mL L Geographic altitudeThe mean air pressure of a location depends on its height above sea level. When testing a piston-stroke pipetteit is thus important to take fluctuations in pressure into account. At higher altitudes with a drop in air pressure the aspiration volume of a piston-stroke pipette is reduced. The Xplorer pipette’s stroke is corrected taking into account the air pressure at the respective altitude. This can be easily accomplished using the “Geographic altitude” adjustment function that allows the altitude to be adjusted in increments of 250 m (820 ft). The maximum altitude that can be selected is 5000 m.The adjustment options Liquid Type, epT.I.P.S. long and Geographic Altitude can be combined with each other.Another possibility of readjusting the Xplorer is to use the “Individual adjustment” function. With this option, the gradient or axis intercept is changed taking into account the exact density of the solution to be dispensed. 1-point, 2-point or 3-point adjustment are available for selection. To create the weighing results, the use of a fine balance with a high resolution is required. Dispensing volumes below 10 µL require a balance with a resolution of 0.001 mg. The arithmetic operations required for performing the correction are automatically performed by the Xplorer pipette during the 1-3-point adjustment, so that the user does not have to carry out any complicated calculations.In this example the factory piston-stroke setting is increased by a factor (Fig.1). Strictly speaking, thecorrection only applies to the testing volume, but it is used for the entire volume range. The correction is different to that for a mechanical pipette.A correction with a factor results in a smaller stroke correction for a small volume than for a large volume.In the case of a mechanical pipette the stroke can only be changed by a fixed volume (Fig. 2). This volume change applies to the entire measurement range of the mechanical pipette. The existing adjustment is changed in parallel by a fixed amount.Fig. 1: Example for the piston-stroke correction of a 1-point adjustmentmax.Piston stroke of XplorerVolume display of Xplorermin.25 %50 %75 %max.– Factory setting– –1-point adjustmentFig. 2: Example for the change of the piston stroke of a mechanical pipettePiston stroke of manual pipetteDigital volume display of manual pipettemax.min. max.– Factory setting– – Manual pipette; change by a fixed amount for all volumesFig. 3:Example for a 2-point adjustmentmax.Piston stroke of XplorerVolume display of Xplorermin. 25 % 50 % 75 % max.– Factory setting– – 2-point adjustment at 25 % and 50 %1-point adjustmentAfter you input the density, the selected volume and the corresponding weighing result, the Xplorer determines a correction factor. The factor is only valid for the selected volume and the selected work technique (speed, prewetting, wall dispensing method, etc.).2-point adjustmentAfter you input the density, two different volumes and the corresponding weighing results, the Xplorer determines a correction factor. The factor applies to the volume range between the tested volumes and only for the selected work technique. However, the factor is also used here for the entire volume range, that is, also below and above the two measuring points (Fig. 3).3-point adjustmentAfter you input the density, three different volumes and the corresponding weighing results, the Xplorer determines two correction factors. The factors are correct frommeasuring point to measuring point in the selected volume regions and only for the selected work technique. However, the respective factor is also used below and above the first or third measuring point (Fig.4).Fig. 4:Example for a 3-point adjustmentmax.Piston stroke of XplorerVolume display of Xplorermin. 25 % 50 % 75 % max.– Factory setting– – 3-point adjustment at 25 %, 50 % and 75 %Today, it is expected that pipettes should not only offer ease of use and precision. Other features, such as simple volume adjustment, have become standard requirementsfor such devices. The electronic pipette Eppendorf Xplorer meets such requirements in every respect, making it ideally suited as an instrument for daily use in the lab.In contrast to 1-point and 2-point adjustment, 3-point adjustment is more accurate. If three significantly different volumes are used for calculating the two correction factors, the corrected volume range is considerably larger and thus also more precise. However, 3-point adjustment is more time-consuming.It is necessary to carry out a gravimetric test for eachXplorer pipette whose factory setting has been changed by one of the above-mentioned adjustment options.This is the only way of ensuring that the selected adjustment meets the required measurement errors.To ensure that other users are informed of the changed adjustment, each Xplorer pipette that has been changed by the adjustment must be additionally marked by a clearly visible label indicating the type of change made.The precise work technique relating to the individual adjustment options is described in the adjustment instructions of the Eppendorf Xplorer (see Xplorer Adjustment Instructions).Factory settingsA pipette that has been readjusted can be reset to the original settings using the “Reset to Factory Settings” adjustment option at any time.e p p e n d o rf ®, E p p e n d o r f X p l o r e r ® a n d e p T .I .P .S .® a r e r eg i s t e r e d t r a d e m a r k s o f E p p e n d o r f A G . A l l r i gh t s r e s e r v e d ,i n c l u d i n g g r a p h i c s a n d i m a g e s . C o p y r i g h t © 2010 b y E p p e n d o r f A G .O r d e r N o . A U 036 W W 020/G B 2/W E B /1210/N E U HYour local distributor: /worldwideEppendorfAG·22331Hamburg·Germany·Tel:+494053801-0·Fax:+494053801-556·E-mail:***********************Eppendorf North America, Inc. · 102 Motor Parkway · Hauppauge, N.Y. 11788-5178 · USATel:+15163347500·Tollfreephone:+1800-645-3050·Fax:+15163347506·E-mail:******************Application Support Europe: Tel: +49 1803 666 789 (Preis je nach Tarif im Ausland; 9 ct/min aus dem dt. Festnetz; Mobilfunkhöchstpreis 42 ct/min)E-mail:*********************NorthAmerica:Tel:+18006453050·E-mail:**********************AsiaPacific:Tel:+60380236869·E-mail:*********************************®®。

CHAPTER离心机定义及作用定义离心机是一种利用离心力，分离液体与固体颗粒或不同密度的液体的设备。

作用在生物医学、化学、环境等领域中，离心机广泛应用于各种样品的分离、纯化和提取等实验过程。

工作原理简介离心力的产生离心机通过高速旋转产生的离心力，使得样品中的不同成分根据密度差异进行分离。

分离过程在离心力的作用下，密度较大的颗粒或液体会被甩向离心管底部，而密度较小的成分则留在上层，从而实现分离。

超速离心机具有极高的转速和离心力，用于分离极小颗粒或高粘度液体，提供更高的分离效果。

结合冷冻技术，用于分离温度敏感或易挥发的样品，保持样品的活性和稳定性。

分离式离心机根据液体密度差异进行分离，适用于不同密度液体的分离和纯化。

沉淀式离心机主要用于分离悬浮液中的固体颗粒，具有结构简单、操作方便等特点。

过滤式离心机通过过滤介质将液体中的固体颗粒截留，适用于含固体颗粒较多的悬浮液的分离。

常见类型及其特点CHAPTEREppendorf公司简介成立于1945年，总部位于德国汉堡，是全球领先的实验室设备制造商之一。

提供广泛的实验室解决方案，包括离心机、移液器、自动化工作站等。

以高品质、可靠性和创新著称，服务于科研、临床诊断和生物技术等领域。

高性能台式离心机，适用于各种常规实验需求。

Eppendorf 5400系列落地式大容量离心机，满足高通量实验需求。

Eppendorf 5800系列超高速冷冻离心机，用于高级研究和特殊应用。

Eppendorf 5900系列如细胞培养离心机、血液分离离心机等。

其他专用离心机实验室离心机系列产品先进的驱动系统独特的制冷技术人性化设计高安全性技术创新与优势采用高性能电机和精确控制系统，确保离心机运行平稳、准确。

易于操作和维护，配备大屏幕液晶显示屏和直观的操作界面。

采用先进的制冷系统和温控技术，确保离心机在高速运转时保持稳定的温度。

采用多重安全防护措施，如电子门锁、超速保护、不平衡保护等，确保实验人员和设备安全。

美国贝克曼库尔特流式细胞分析仪（Beckman coulter cell）产品型号：Cell Lab Quanta SC当前价格：0.00元产品数量：0新旧程度：全新有效期至：0000-00-00所在地：产品简介：仪器简介：T细胞亚群检测的CD45/CD4/CD8/CD3、CD45/CD56/CD19/CD3；阵发性血红蛋白尿（PNH）检测的CD55、CD59；血小板无力症（GT）检测的CD41、CD61等等详细信息仪器简介：T细胞亚群检测的CD45/CD4/CD8/CD3、CD45/CD56/CD19/CD3；阵发性血红蛋白尿（PNH）检测的CD55、CD59；血小板无力症（GT）检测的CD41、CD61等等。

但对于白血病/淋巴瘤免疫分型，国际上迄今为止也没有统一的抗体组合。

在2000年国际细胞分析学会（ISAC）大会上，临床血细胞计数协会组织了一次国际专家会议，以期对检测血液淋巴系统肿瘤所需最少、最有效的单抗数达成共识。

75%与会者一致认为，对于慢性淋巴系统增殖性疾病（CLD）有9种单抗：CD5,CD19,κ,λ,CD3,CD20,CD23,CD10,CD45对初诊来说是最基本的。

淋巴瘤和CLD相似，需要至少12-16种单抗。

对于急性白血病（AL），75%的与会者认为大约13-15种单抗是最基本的：CD10,CD19,CD79a,CD13,CD33,CD34,CD45,CD2,MPO，CD7,CD14,CD3,HLA-DR等，对初步鉴别白血病系列是必需的。

其他一些（CD16,CD56,CDw65,TdT,cyCD3）可能对某些病例有用。

几乎所有的投票者都认为，要对急性白血病完善分类所需单抗的恰当数量平均为20-24种。

但这些抗体之间组合也是一大难题，目前也无统一规定（如表二）。

大会多数发言者(11/13)指出，对已确诊病人的监护和分期来说，仅需较少单抗。

抗体的质量控制是实验的关键环节。

抗体的质量包括其特异性、灵敏度、精密度。

heraeus multifuge x1r 离心半径一、引言Heraeus Multifuge X1R 是一款高性能的离心机，广泛应用于实验室和科研领域。

离心半径是离心机的一个重要参数，它决定了样本在离心过程中所受到的离心力。

本文将详细介绍 Heraeus Multifuge X1R 的离心半径及其对实验的影响。

二、Heraeus Multifuge X1R 离心机简介Heraeus Multifuge X1R 离心机是一款高效、可靠的实验室离心机，具有多种转速和离心力选择。

它采用先进的数字控制技术，确保实验结果的准确性和可重复性。

此外，该离心机还具有易于操作和清洁的特点，能够满足各种实验室的需求。

三、离心半径的定义与计算离心半径是指离心机转子中心到样本容器的距离。

离心力与离心半径、转速和物质的质量成正比，而与物质的质量分布、密度和粘度成反比。

离心半径的计算公式如下：r = (m * v²) / (2 * w * t)其中，r 为离心半径，m 为物质质量，v 为转速，w 为角速度，t 为时间。

四、离心半径对实验的影响离心半径对实验结果具有重要影响。

在相同的转速下，离心力随离心半径的增加而增大，这可能导致样本分层不均或产生过多热量，影响实验结果。

因此，选择合适的离心半径对于实验的成功至关重要。

在 Heraeus Multifuge X1R 离心机中，有多种转头和适配器可供选择，以满足不同实验需求。

正确选择转头和适配器能够确保样本在适当的离心力下进行分离，提高实验效率和质量。

五、结论离心半径是离心机的重要参数之一，对实验结果具有重要影响。

在选择和使用 Heraeus Multifuge X1R 离心机时，了解离心半径的概念、计算方法和对实验的影响至关重要。

正确选择离心半径能够确保实验结果的准确性和可重复性，提高实验效率和质量。

因此，在使用 Heraeus Multifuge X1R 离心机时，建议根据实验需求仔细选择合适的转头和适配器，以获得最佳的实验效果。

Sealing SolutionsMiniature Elastomer SealsParker is able to create high qualityand consistent biocompatibleParFab™ Extruded Profi lesParker offers a wide variety ofPTFE FlexiSeals®Our full line of spring energized PTFE lip seals are used on rod, Composite SealsParker’s composite seals are rubber-to-metal, or rubber-to-plastic customFDA and USP Class VI Seal CompoundsO -r i n g s / C u s t o m M o l d e dE x t r u d e d P r o fi l e sMaterialHardness(Shore A)ColorComments ETHYLENE PROPYLENE – materials with temperature range -70°F to 250°F X XE7001-6060Black FDA X E1028-7070Black FDA X X E7736-7070Black FDAXE3609-7070Black FDA, USP Class VI X E7925-7070Black FDAX EJ590-7070White FDA, USP Class VI X E7871-7575Black FDA XE7126-8080Black FDA FLUOROCARBON – materials with temperature range -15° to 400°FX V0680-7070Red FDA X X V7108-7070White FDA X V1274-8080Black FDA PERFLUORINATED – materials with temperature range -5° to 608°FX FF200-7575Black FDAX FF350-7575White FDA, USP Class VI X FF500-7575Black FDA X V8545-7575Black FDA X V8562-7575White FDA NITRILE - materials with temperature range -30° to 225°FX N1219-6060Black FDA X NJ253-7070Black FDA X N1220-7070Black FDA XN1069-7070Black FDA XN7068-7070Black FDA XN0508-7575Black FDA XN7219-8080Black FDA SILICONE - materials with temperature range -60° to 450°FXS0802-4040White FDA X S7577-40(1)40Translucent USP Class VI XS7317-4040Translucent FDA XS7442-4040Rust FDA XXS7561-4040White FDA X S7433-50(1)50White USP Class VI X S7489-50(1)50Translucent USP Class VI X S7318-5050White FDA X S7405-5050Translucent FDA X S7435-5050Rust FDA X S7469-5050Red FDAXS1538-5555Translucent FDA, USP Class VI X S7530-55(1)55Translucent USP Class VI X S7311-5555Rust FDA X S7396-5555White FDAXS0317-6060RustFDA, USP Class VIO -r i n g s / C u s t o m M o l d e dE x t r u d e dP r o fi l e sMaterial Hardness(Shore A)Color Comments SILICONE - materials with temperature range -60° to 450°F (continued) X S7490-60(1)60Translucent USP Class VI X S7349-6060Red FDA X S7350-6060Green FDA X S7351F-6060White FDA X S7354-6060Blue FDA X S7355-6060White FDA X S7359-6060Black FDA X S7413-6060Rust FDA X S7526-6060Yellow FDA X S1138-7070Rust FDA X S7387-70(1)70Translucent USP Class VI X S7492-70(1)70Translucent USP Class VI X S7314F-7070Black FDA X S7494-7070Red FDA X S7525-7070White FDA X S0355-7575Rust FDA X S7386F-7575White FDA X S7383-80(1)80White USP Class VI X S7300F-8080White FDA X S7309-8080Black FDA X S7313-8080Blue FDA X S7548-8080Blue FDA X S7568-8080Red FDA THERMOPLASTIC - materials with temperature range -76° to 275°FX J7976-4545Beige USP Class VI X J7976-5555Beige USP Class VIXJ7737-5555Black USP Class VI X J7969-5555Beige FDA X J7813-5555Black FDA X J7902-6464Beige USP Class VIXJ7974-6464Black USP Class VI X J7959-6464Beige FDA X J7967-6464Black FDA X J7876-7373Beige USP Class VIXJ7975-7373Black USP Class VI X J7267-7373Beige FDA X J7968-7373Black FDA X J7970-8080Beige FDAXJ7907-8787Beige USP Class VI X J7971-8787Beige FDA X J7977-40D 40(2)Beige USP Class VI X J7972-40D40(2)Beige FDA XJ7973-50D50(2)BeigeFDA(1) Platinum cured silicone rubber(2) Hardness of compound is Shore DYour Local Authorized Parker Distributor © 2007 Parker Hannifi n Corporation. Product names are trademarks or registered trademarks of their respective companies.PSG 5028 2.5 AMD 10/07Parker Hannifi n CorporationEngineered Materials Group6035 Parkland BoulevardCleveland, OH 44124phone800 C PARKER/emg。

移液枪设备简介基本分类分类情况简介微量加样器（移液器）最早出现于1956年，由德国生理化学研究所的科学家Schnitger发明，其后，在1958年德国公司开始生产按钮式微量加样器，成为一家生产微量加样器的公司。

这些微量加样器的吸液范围在1-1000μl之间，适用于临床常规化学实验室使用。

微量加样器发展到今天，不但加样更为精确，而且品种也多种多样，如微量分配器、多通道微量加样器等，其加样的物理学原理有下面两种:①使用空气垫（又称活塞冲程）加样;②使用无空气垫的活塞正移动（positivedisplacement）加样。

上述两种不同原理的微量加样器有其不同的特定应用范围。

空气垫加样器活塞冲程（空气垫）加样器可很方便地用于固定或可调体积液体的加样，加样体积的范围在小于1ul至l0ml之间。

加样器中的空气垫的作用是将吸于塑料吸头内的液体样本与加样器内的活塞分隔开来，空气垫通过加样器活塞的弹簧样运动而移动，进而带动吸头中的液体，使体积和移液吸头中高度的增加决定了加样中这种空气垫的膨胀程度。

因此，活塞移动的体积必须比所希望吸取的体积要大约2%~4%，温度、气压和空气湿度的影响必须通过对空气垫加样器进行结构上的改良而降低，使得在正常情况下不至于影响加样的准确度。

一次性吸头是本加样系统的一个重要组成部分，其形状、材料特性及与加样器的吻合程度均对加样的准确度有很大的影响。

活塞正移动加样器以活塞正移动为原理的加样器和分配器与空气垫加样器所受物理因素的影响不同，因此，在空气垫加样器难以应用的情况下，活塞正移动加样器可以应用，如具有高蒸汽压的、高黏稠度以及密度大于2.0g/cm3的液体;又如在临床聚合酶链反应（PCR）测定中，为防止气溶胶的产生，最好使用活塞正移动加样器。

活塞正移动加样器的吸头与空气垫加样器吸头有所不同，其内含一个可与加样器的活塞耦合的活塞，这种吸头一般由生产活塞正移动加样器的厂家配套生产，不能使用通常的吸头或不同厂家的吸头。

实验室常用英文术语1. 1.当你进入国外的实验室之前，如果不能熟练掌握实验过程中相关物品的英文名称及读音，你与同处一室的技术人员之间必将产生强烈的交流障碍，实验效率也将因此大打折扣。

这里我汇总了数篇文章的相关内容，并结合自己实验室的情况，补充了大量词汇，希望对即将出国留学的生物学科研人员有所帮助。

欢迎大家补充指正。

小瓶vial量杯measuring cup烧杯beaker量筒measuringflask/measuringcylinderer土甘期crucible州禺钳crucible clamp试管test tube漏斗funnel比色皿cuvette鱼缸aquarium烧瓶flask锥形瓶conical flask塞子stopper/plug洗并p plastic wash bottle 搅拌棒stirring rod容量瓶volumetric flask/measuring flask移液管(one-mark) pipette吸液管pipette滤器filter滤名氏filter paper培养皿culture dish移液枪pipette移液枪枪头pipette tips剃刀刀片razor blade手术刀scalpel. 容器与耗材( vessel & consumable material )玻璃活塞stopcock试齐U瓶reagent bottles玻棒glass rod垃圾袋disposable bag垃圾桶garbage bin橡皮筋rubber band托盘Tray车吕箔aluminium foil洗耳球rubber suction bulb保鲜膜preservative film研磨钵mortar研杵pestle小滴管dropper蒸储装置distilling apparatus桶bucket广口瓶wide-mouth bottle离心机转子rotor试管架test tube holder/rack酒精灯alcohol burner酒精喷灯blast alcohol burner搅拌装置stirring device石蜡封口膜Parafilm微量离心管（EP管）Eppendorf tube 载玻片Slide 盖玻片Cover glass离心管Centrifuge tube 电泳槽Gel tank电线Electrical leads 牙签Toothpick螺丝钉Screw锁紧螺母Nut, Cap nut 复印纸Copy paper复写纸Carbon paper钉Nail试管刷test-tube brush 计时器Timer闹钟Alarm clockU 形钉Staple衣服挂钩Coat hanger 电泳用的梳子Comb扳手Shifting spanner 订书机Stapler订书钉staple圆珠笔芯Refill灯?U Globe记号笔marker pen注射器syringe注射器活塞plunger铁架台iron support万能夹extension clamp止水夹flatjaw pinchcock圆形漏斗架cast-iron ring 橡胶管rubber tubing药匙lab spoon镣子forceps/ tweezers蜂鸣器buzzer架子shelf剪刀scissor打孑L器stopper borer移液吸管serological pipette 血球计数板hemocytometerpH 试名氏universal ph indicator paper称量纸weighing paper透明月声带sellotape筛子sieve网眼mesh格子grid擦镜纸wiper for lens水冷艮温度计mercury-filled thermometer白大褂white gown真空泵vacuum pump水浴锅water bath kettle口罩respirator电极electrode阳极，正极anode阴极，负极cathode.实验操作(manipulation ):丢弃discard转移容器decant吸出aspirate吹吸blowing and suction 离心收集pelletresuspend絮状沉淀flocculent precipitate 浑浊的turbid烘bake灭菌sterilize均质化homogenize分装aliquot培养foster通风ventilate冷去口chill down稀释dilute洗月elute孵育incubate超声破碎ultrasonication 淬灭quench裂解物Lysate沉淀物Sediment上清Supernatant小滴droplet一批batch色谱chromatograph沉淀precipitate接种inoculate探针probe蒸储distil/distill搅拌Stir/agitate旋转swirl/ spin 中和neutralize校准calibrate平衡equilibrate结块、块斗犬沉淀clump 粘稠的viscous漂洗rinse脱水dehydrate发酵fermentation溶解dissolve燃烧combustion水解hydrolysis过滤filtrate浓缩condense催化剂catalyst研磨grind破碎crush催化彳^用catalysis分角d dissolution涡旋震荡Vortex电泳Electrophoresis抽滤suction filtration电转化electrotransformation.仪器(apparatus )高压蒸汽灭菌器autoclave电泳电源 Electrophoresis power supply 紫外灯 Ultraviolet illumination 真空泵 Vacuum pump 天平 balance/scale分析天平 analytical balance 台秤 platform balance涡旋振荡器 Vortexing machineCO2 培养箱 CO2 Incubators电子显微镜 Electro Microscopy 电泳仪 Electrophoresis System 恒流泵 constant flow pump 解剖镜 anatomical lensPCR 仪 Thermocycler倒置显微镜 Inverted Microscope 核磁共振波谱仪 Nuclear MagneticResonance Spectrometer光学显微镜 Optical Microscopy收菌 harvest 切碎 chop/mince灌注 perfusion 浆液slurry恒温循环仪 Thermostatic circulator 空调机 Air conditionerpH 计 pH meter照度计(测量荧光素酶酶活)luminometer 磁力搅拌器 magnetic stirrer 烘箱oven微波炉 microwave oven 电磁炉 electromagnetic oven 凝胶系统Gel system电子天平 Electronic balance 转接器Adapter 离心机 centrifuge 盖子 lid/ cap封口设备 Sealing equipment 复印机 Duplicator, copying machine 超净工作台 super clean bench 通风橱 fume cupboard 药柜 Cupboard摇床Shaker培养箱incubator超滤器Ultrahigh Purity Filter超低温冰箱Ultra-low Temperature Freezer超声破碎仪Ultrasonic Cell Disruptor紫外观察灯Ultraviolet Lamp紫外-可见光分光光度计UV-VisibleSpectrophotometer计算器calculator/numerator四.化学试剂（reagent ）1、氨基酸丙氨酸alanine (Ala, A)缴氨酸valine (Val, V)亮氨酸leucine (Leu, L)异亮氨酸isoleucine (Ile,I) 脯氨酸proline (Pro, P) 苯丙氨酸phenylalanine (Phe, F) 色氨酸tryptophan (Trp, W) 蛋氨酸methionine (Met, M) 甘氨酸glycine (Gly, G) 丝氨酸serine (Ser, S) 苏氨酸threonine (Thr, T) 半胱氨酸cysteine (Cys, C) 酪氨酸tyrosine(Tyr, Y)天冬氨酸asparagines (Asn, N) 谷氨酰胺glutamine (Gln, Q)赖氨酸lysine (Lys, K)精氨酸arginine (Arg, R)组氨酸histidine (His, H)天冬氨酸aspartic acid (Asp, D) 谷氨酸glutamic acid (Glu, E) 2、核甘酸腺昔adenosine鸟喋吟核昔guanosine胞昔cytidine胸腺喀咤脱氧核昔thymidine 尿口密咤核昔uridine脱氧deoxy-3、其他化学试剂二甲苯 Xylene冰乙酸Acetic acid glacial硼酸Boric acid氯化钙Calcium chloride疏基乙醇mercaptoethanol咪陛Imidazole盐酸月瓜guanidine hydrochloride 无水乙醇absolute ethanol乙酸钠Sodium acetate氯化钠Sodium chloride生理盐水physiological saline洗涤剂detergent十二烷基磺酸钠Sodium dodecyl sulphate盐酸hydrochloric acid氢氧化钠sodium hydrate/hydroxide 胰蛋白月东Tryptone酵母提取物yeast extract琼脂Agar甘¥由glycerin内毒素endotoxin 两性霉素amphotericin氨茉Ampicillin月干素heparin卡那霉素Kanamycin胰蛋白酶Trypsin澳化乙锭ethidium bromide胰岛素Insulin树脂resin糖类saccharide蔗糖Sucrose醋酸钾Potassium acetate异丙醇Isopropanol醋酸镂Ammonium acetate异戊醇Isoamyl alcohol氯仿Chloroform甲醇methanol遗传霉素geneticin糖原glycogen血1# serum高镒酸钾potassium hypermanganate 考马斯亮蓝Coomassie brilliant blue 液氮liquid nitrogen次氯酸钠clorox 苯酚phenol实验室常用英语-化学生物类1.2.来美国学习遇到了一个很郁闷的事：走进实验室跟别人交流非常困难，自己做实验也是磕磕碰碰。

Eppendorf-移液器使用宝典-移液器的规范操作和日常保养移液器使用宝典pagepagepage3456公司简介Eppendorf移液器的历史Eppendorf移液器的工作原理和分类移液器的操作使用-移液器规范操作步骤-错误的操作方式-移液器日常使用小贴士page11移液器的清洁和消毒-移液器内外部清洁方法-移液器的消毒灭菌处理-移液器上DNA污染的去除pagepage1314实验室内移液器的自行快速检测移液器的专业校准-专业校准的基本条件-不同量程范围的移液器的校准方法-移液器校准的操作过程-PICASO®专业校准软件page10移液器的自行拆卸和组装page一、公司简介Eppendorf公司始创于1945年，总部位于德国汉堡，是全球领先的生物技术公司，主要从事生命科学领域仪器和耗材的开发、制造和经营业务。

公司在2006年的销售总额达3.14亿欧元，全球范围内拥有员工1,800多名。

1962年，随着第一个eppendorf管的诞生，拥有全球第一支活塞式移液器专利的Eppendorf公司以其创新的技术和卓越的品质，成为实验室仪器标准的代名词。

Eppendorf长期与《Nature》，《Science》杂志合作，分别设立欧洲青年科学家成就奖和全球神经生物学奖，旨在为生命科学领域发掘和培养更多的人才。

2003年作为全球发展的重点市场，Eppendorf在中国上海注册成立艾本德中国有限公司。

公司秉承“质量，创新和服务”的宗旨，为中国客户提供符合国际标准、高品质和人性化的产品，并提供一系列优质的服务。

符合体外诊断（IVD）98/79/EC欧盟标准符合IVD（InVitroDiagnotic）标准的Eppendorf移液产品有：●Reearch®移液器●Reference®移液器●Multipette®plu分液器●®plu分液头典宝用使器液移03移液器使用宝典04二、Eppendorf移液器的历史1958年，Eppendorf公司发明了世界上第一支微量加样器，并于1961年成功申请气体活塞式移液器专利。

WA-1C型微量水分测定仪使用说明书湖南赫西仪器装备有限公司是一家集研发/生产/销售离心机、真空离心浓缩仪等实验室仪器为一体的专业高新科技公司。

一． 概 述采用卡尔—菲休库伦滴定法，对不同物质进行微量水分的测定，是最可靠的 方法。

型微量水分测定仪成功的应用了这一方法，采用了先进的自动控制电路，外型结构新颖，从而使该仪器工作更可靠，使用更方便。

其分析速度快、操作简单、精度高、自动性强等特点。

广泛应用于石油、化工、电力、铁路、农药、医药、环保等部门。

湖南赫西仪器装备有限公司是一家集研发/生产/销售离心机、真空离心浓缩仪等实验室仪器为一体的专业高新科技公司。

仪器特点：· 采用32位嵌入式微处理器作为主控核心，嵌入迷你型操作系统。

· 恒压检测，精度高、测定速度快、稳定可靠。

· 操作简单、超长寿命· 含有6个计算公式，满足客户需求。

· 全数字键盘，可随时输入数据，数据计算方便快捷。

· 主机带有自动排、加液功能，大大改善工作环境。

· 实时的电解曲线图，随时观察试剂状态· 带有时间的记录，查找更方便。

二． 技术参数滴定方式：电量滴定（库伦分析）显 示：大屏幕液晶显示（LCD）电解电流控制：0～400mA自动控制测量范围：3ug～100mg灵 敏 阀：0.1µg H2O精 确 度：10µg～1000µg±3µg1mg以上不大于0.3%打印机：微型热敏打印机加排液：主机自带，自动加液、自动排液（可选配置）电 源：220V±10%、50Hz功 率：＜ 40W湖南赫西仪器装备有限公司是一家集研发/生产/销售离心机、真空离心浓缩仪等实验室仪器为一体的专业高新科技公司。

使用环境温度：5～40℃使用环境湿度：≤ 85%外型尺寸：320×280×200重 量：约2.5kg三． 工作原理卡尔菲休试剂同水的反应式为：I2 + SO2+ 3C5H5N + H2O —→ 2C5 H5N•HI + C5H5N•SO3 (1)C5H5N•SO3 + CH3OH —→ C5H5N•HSO4CH3 (2)所用试剂溶液是由占优势的碘和充有二氧化硫的砒啶、甲醇等混合而成。

离心机专用中英文术语1.1离心机centrifuge利用机件旋转产生的离心力实现悬浮液、乳浊液及其他物料的分离或浓缩的机器。

1.2 过滤离心机filtering centrifuge实现离心过滤的离心机。

1.2.1 三足式离心机three - column centifuge旋转部件及机壳垂直支承在三根可摆动的摆杆上或三块弹性元件上的立式离心过滤机。

1.2.2 上悬式离心机top - suspended centrifuge主轴支点高于旋转部件重心的立式过滤离心机。

1.2.3 卧式刮刀卸料离心机peeler centrifuge采用刮刀卸料的卧式过滤离心机。

1.2.4 卧式活塞推料离心机pus her centrifuge采用活塞推料的卧式过滤离心机，按转鼓结构可分为单级、双级和多级。

1.2.5 离心卸料离心机slip - discharge screen centrifuge采用离心卸料的过滤离心机。

1.2.6 振动卸料离心机vibrating - discharge screen centrifuge采用振动卸料的过滤离心机。

1.2.7 进动卸料离心机tumbling centrifuge采用进动卸料的过滤离心机。

1.2.8 螺旋卸料过滤离心机scroll discharge screen centrifuge采用螺旋卸料的过滤离心机。

1.2.9 翻袋卸料离心机inverting filter centrifuge采用翻转滤袋卸料的过滤离心机。

1.2.10 导向螺旋式离心机direted flow screening centrifuge采用离心卸料的过滤离心机，转鼓内有多头螺旋与转鼓同速旋转，落选对滤饼的运动起导向作用，增加滤饼在转鼓中的停留时间。

1.3 沉降离心机sedimenting centrifuge实现离心沉降的离心机。

1.3.1 螺旋卸料沉降离心机solid - bowlscroll discharge centrifuge,decanter采用螺旋卸料的沉降离心机。