Golgi Cox staining or Golgi-Cox impregnation with golgi stain has been recognized as one of the most elegant and effective procedures for studying the morphology of neurons as well as glia. In recent years the Golgi-Cox staining method remains as a primary technique for visualization of the dendritic branching pattern and dendritic spines, because it allows isolation and visualization of the dendritic arbours from a minor random fraction of the neurons in a certain brain area. Accordingly, Golgi techniques are not only useful for pure anatomical studies, but are also widely used in studies examining behavioral-morphological relationships. In some studies, the Golgi-Cox method has been used to identify and study the autonomic innervations in the heart and the results show that the Golgi-Cox method is an attainable and useful tool to identify and study the morphological characteristics of the autonomic innervations in peripheral tissues. However, the Golgi-Cox staining procedure is time-consuming, it requires usage of vibratome, the yields of stained cells are usually low and the results are often unreliable.Hito Golgi-Cox OptimStain™ Kit offers a simple solution to these problems. Designed based on the methods described by Glaser and Van der Loos, this kit makes dramatic improvement of the Golgi-Cox technique. The procedures are simplified and the processing time is greatly reduced. Users can use cryostat with temperature set at -19ºC. This kit delivers stable and improved staining quality, with minimal overstains and artifacts when used properly. Standard Kit can be used for 50 mouse brains.If you do not have a cryostat, processed tissue can be prepared as paraffin sections with microtome as an alternative option.Hito Golgi-Cox OptimStain™ Kit has been tested extensively on the brains, spinal cords and hearts from several species of animals and proven to be sensitive for demonstrating morphological details of neurons and gila, It is a simple solution for your research.The Hito Golgi-Cox OptimStain™ Kit Solution-1 is designed to contain reagents that are toxic and harmful. To enhance safe transportation and handling, the Solution-1 is designed to include two parts: Stock Solution and Prepare Solution. The Stock Solution is individually wrapped according to the highest shipping package standard.
| Kit Contents | Standard Kit | Small Kit |
| Solution-1A (Stock Solution) | 100 ml | 50 ml |
| Solution-1B (Prepare Solution) | 150 ml | 75 ml |
| Solution-2 | 250 ml | 125 ml |
| Solution-3 | 500 ml | 250 ml |
| Solution-4 | 250 ml | 125 ml |
| Solution-5 | 250 ml | 125 ml |
| Dropper Bottle (30 ml Solution-3) | 1 | 1 |
| Staining Jar (12 ml) | 2 | 1 |
| Fine Tip Natural Hair Brush | 2 | 1 |
| Glass Specimen Transfer Tool | 2 | 1 |
| User Manual and MSDS | 1 | 1 |
Before using Hito Golgi-Cox OptimStain™ Kit, please make sure you have the following Required Equipment / Materials in your lab (not included in the kit):Cryostat (capable of cutting 80- to 200-µm thick sections at –19°C)Dry ice, O.C.T. compound, isopentane, ethanol, xylene, double distilled or deionized waterPlastic/glass tubes or vialsGelatin-coated Slide (recommend Hito Dual-Safe Gelatin-coated Slide Cat# HTHS0102) and coverslipsStaining jars for slides washResinous mounting mediumLight microscope  Hito Golgi-Cox OptimStain™ Kit Manual and MSDS | ||
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产品主要应用:点击化学(Clickchemistry)、蛋白质组学研究中的双向荧光差异凝胶电泳(2DDIGE)和实时荧光定量PCR(RealtimePCR)。
菁染料是性能优良的荧光标记染料,摩尔吸光系数在荧光染料中是最高的。N-羟基琥珀酰亚胺酯是最常用的脂肪氨基标记试剂,广泛用于蛋白质、氨基酸多肽、抗体、核酸及其他生物分子的标记和检测。通过改变次甲基链的长度,可改变其荧光发射波长,每增加一个双键,按照Huoffman规则正好红移约100nm。
菁染料Cy3和Cy5已成为基因芯片的首选荧光标记物;另外,Cy5,Cy5.5和Cy7,Cy7.5的吸收在近红外区背景非常低,是荧光强度最高、最稳定的长波长染料,特别适合于活体小动物体内成像。但由于菁染料,尤其是不对称菁染料的合成副反应多,副产物极性相近,产物的分离提纯相当困难。菁染料特别是水溶性菁染料分子极性大,分离提纯越加困难。Lumiprobe供应脂溶性和水溶性菁染料。
相关产品:
产品分子结构可替代染料编号:AGF1371A
6-ROX-N-羟基琥珀酰亚胺酯
ROXNHSester,pure6-isomer[img]/KindEditor_4.0.1/attached/image/20130704/20130704102819_7906.jpg[/img]AlexaFluor568编号:AGF1326A
Cy3-N-羟基琥珀酰亚胺酯
Cy3NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103024_8531.jpg[/img]AlexaFluor546NHSester
DyLight549NHSester
编号:AGF1330A
Cy3.5-N-羟基琥珀酰亚胺酯
Cy3.5NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103242_2437.jpg[/img]AlexaFluor594NHSester
DyLight594NHSester
编号:AGF1338A
Cy5-N-羟基琥珀酰亚胺酯
Cy5NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103422_4468.jpg[/img]AlexaFluor647NHSester
DyLight649NHSester
编号:AGF1345A
Cy5.5-N-羟基琥珀酰亚胺酯
Cy5.5NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103557_5875.jpg[/img]AlexaFluor680NHSester
DyLight680NHSester
编号:AGF1349A
Cy7-N-羟基琥珀酰亚胺酯
Cy7NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103713_8843.jpg[/img]编号:AGF1356A
Cy7.5-N-羟基琥珀酰亚胺酯
Cy7.5NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103756_5406.jpg[/img]编号:AGF1374A
磺酸基-Cy3-N-羟基琥珀酰亚胺酯
Sulfo-Cy3NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704103830_1656.jpg[/img]AlexaFluor546
DyLight549
编号:AGF1377A
磺酸基-Cy5-N-羟基琥珀酰亚胺酯
Sulfo-Cy5NHSester[img]/KindEditor_4.0.1/attached/image/20130705/20130705095752_6656.jpg[/img]AlexaFluor647
DyLight649
编号:AGF1379A
磺酸基-Cy7-N-羟基琥珀酰亚胺酯
Sulfo-Cy7NHSester[img]/KindEditor_4.0.1/attached/image/20130704/20130704104047_6968.jpg[/img]相似系列产品:
羰基活性荧光染料
氨基类染料
巯基反应性染料
羧酸类染料
健那绿——高中唯一一个活体染色剂。染线粒体的,染成蓝绿色
2、苏丹三 脂肪 橙红
3、苏丹四 脂肪 红
4、双缩脲 蛋白质 紫
5、龙胆紫 染色质 紫
6、碘 淀粉 蓝
7、健那绿 线粒体 绿
8、甲基绿 DNA 绿
9、吡罗红 RNA 红
10、溴麝香草酚蓝 CO2 由蓝变绿再变黄
11、重铬酸钾 酒精 酸性条件下由橙色变成灰绿
12、醋酸洋红(龙胆紫、改良苯酚品红) 染色质 红
13、台盼蓝 检验活死细胞 死细胞会被染成蓝色(不常用)
而且样品中的无水硫酸钠未变色,而做标准曲线的五个和空白对照的变为蓝色了,请高手指教,多谢!
还有,是否变蓝对测定结果有影响吗?
谢了哈
欢迎你!请下次规范发贴:)
产品主要应用:点击化学(Clickchemistry)、蛋白质组学研究中的双向荧光差异凝胶电泳(2DDIGE)和实时荧光定量PCR(RealtimePCR)。
氨基类染料是包含自由氨基的活性染料,染料可与活化羧酸衍生物和其他亲电子的试剂结合。比如:氨基与EDC-活化的羧基结合。
相关产品如下:
中文名英文名产品编号分子结构Cy7.5胺Cy7.5amineAGF1350A[img]/KindEditor_4.0.1/attached/image/20130704/20130704110804_5250.jpg[/img]Cy5胺Cy5amineAGF1332A[img]/KindEditor_4.0.1/attached/image/20130704/20130704110715_7750.jpg[/img]相似系列产品:
抗体、核酸、蛋白质等生物分子标记染料
羰基活性荧光染料
巯基反应性染料
羧酸类染料
前一阵子实验室开始使用一种新的核酸染料-goldview,取代原先用的溴化乙锭-EB.goldview现在是由赛百盛出售.以下摘自官方网站:
GoldViewTM核酸染料——使用说明
概述
GoldViewTM是一种可代替溴化乙锭(EB)的新型核酸染料,采用琼脂糖电泳检测DNA时,GoldViewTM与核酸结合后能产生很强的荧光信号,其灵敏度与EB相当,使用方法与之完全相同。在紫外透射光下双链DNA呈现绿色荧光,而单链DNA呈红色荧光。GoldView不仅能染DNA,也可用于染RNA。
通过Ames试验、小鼠骨髓嗜多染红细胞微核试验、小鼠睾丸精母细胞染色体畸变试验,致突变性结果均为阴性;而溴化乙锭(EB)是一种强致癌剂。因此用GoldviewTM代替EB不失为一种明智的选择。
使用方法
1.将100ml琼脂糖凝胶溶液(浓度一般为0.8%~2%)在微波炉中融化。
2.加入5µlGoldView,轻轻摇匀,避免产生气泡。
3.冷却至不烫手时倒胶,待琼脂糖凝胶完全凝固后上样电泳。
4.电泳完毕在紫外灯下观察。若使用数码相机照像记录,则关闭相机的闪光灯,放在自动档即可;若使用凝胶成像系统照相,通过调节光圈、曝光时间,选择合适的滤光片,可得到成像清晰、背景较低的照片。
注意事项
1.胶厚度不宜超过0.5cm,胶太厚会影响检测的灵敏度。
2.加入GoldView的琼脂糖凝胶反复融化可能会对核酸检测的灵敏度产生一定影响,但不明显。
3.通过凝胶电泳回收DNA片段时,建议使用GoldView染色,在自然光下切割DNA条带,避免紫外线与EB对目的DNA产生的损伤,可明显提高克隆、转化、转录等分子生物学下游操作的效率。
4.虽然未发现GoldView有致癌作用,但对皮肤、眼睛会有一定的刺激,操作时应戴上手套。
电泳结果显示GV灵敏度与EB相当
问题1.Goldview到底是不是丫啶橙?
2.赛百盛不公布其成分的原因是害怕其为丫啶橙还是出于技术保密?
请各位大侠给予帮助!!
谢谢!!
取片剂一片,照溶出度测定法(中国药典2000年版二部附录ⅩC第三法),以水250ml为溶剂,转速为每分钟50转,依法操作,分别经15、30、45、60、75、210分钟取溶液滤过,精密量取续滤液5ml于分液漏斗中,加入pH7.4磷酸盐缓冲液5ml,5ml0.3%溴麝香草酚蓝溶液,用15ml氯仿分两次萃取,合并萃取液,加入0.4g无水硫酸钠,照分光光度法(中国药典2000年版二部附录ⅥA),在410nm波长处测得溶出A值。现15、30、45、60、75、210分钟溶出A值分别为0.0413、0.0544、0.0437、0.0479、0.0394、0.0302。(测定吸收度偏小是否不准,有影响。)
请各位站友指教。
健那绿染液是一种活体染液,实验对象必须是活细胞,健那绿可以使活细胞中的线粒体呈现蓝绿色,而细胞质接近无色。
