收藏本页 | English
日本TAITEC原装进口漩涡混合器、球磨破碎仪,不计成本大促销!
德国爱安姆成功参加“慕尼黑上海分析生化展”--场面火爆
德国IRM邀您相约analytica China 2016慕尼黑上海生化分析展
日本TAITEC 原装进口仪器,钜惠促销
开学有礼 特惠来袭——德国IRM精密干燥箱/精密培养箱/CO2培养箱限时特惠促销开始了!
祝贺我司参加“第十六届北京分析测试学术报告会暨展览会(BCEIA 2015)”圆满成功
8·12天津爆炸事故,天津海洋环境监测中心采购数台日本TAITEC分液漏斗振荡器 实时监测水质污染
日本TAITEC漩涡混合器,钜惠促销
德国IRM全线产品面向国内诚招代理
TAITEC全线产品面向国内诚招代理
祝贺我司参加“第十三届中国国际科学仪器及实验室装备展览会”圆满成功
日本TAITEC CORPORATION副社长富田悟志莅临我公司参观&合作交流
出游合集
日本大和科学株式会社森川智社长莅临我公司参观&合作交流
安捷来勒科技参加第七届慕尼黑上海分析生化展圆满成功
我司将参加2014年慕尼黑上海分析生化展
我司总经理叶均章先生应邀参加日本大和科学株式会社125周年庆典
热烈祝贺我公司在广州保利世贸博览馆召开的CHINA LAB 2014 展会上取得圆满成功
我公司于2014年2月20号成功举办进口优势仪器推介暨区域代理商招募会
我国计划建设一批国际合作联合实验室
CIMTE助力质量检验检测市场化发展
华中农大研发出头个猪肉药物残留检测国际标准
镇江研制叶绿素铜钠检测方法
年底促销送豪礼
诚招区域总代理
我国检验检测行业头个国家统计制度正式建立
热烈祝贺我公司在第十五届北京分析测试学术报告会及展览会(BCEIA 2013)中取得圆满成功
2013重大科研仪器专项9个项目通过*终评审
热烈祝贺我公司在第十一届中国国际科学仪器展中取得圆满成功
热烈祝贺北京安捷来勒科技有限公司在第九届中国科学仪器展中获得圆满成功
我们在努力,别人在引用
热烈祝贺我司在“北京工业大学2010年教学科研设备采购项目”中成功中标
警惕!赖账公司--齐齐哈尔昱阳科技发展有限公司
热烈祝贺我司在“中国检验检疫仪器设备采购项目”中成功中标
热烈庆祝我司在“国家海洋局天津海水淡化与综合利用研究所仪器设备采购项目”中成功中标
清华两个分析实验室获科技部国家仪器中心命名
风云三号A星11个仪器顺利打开
国产仪器仪表与进口产品的差距有哪些?
到科博会去,感受科技奥运的魅力(新闻来源:中华人民共和国科学技术部)
中日环保合作驶入快车道--中日友好环境保护中心走访记 (新闻来源:人民日报海外版)
中法科技合作有效利用国际**资源(新闻来源:科技部)
一季度中国仪器仪表出口94亿美元、进口116.89亿美元 (新闻来源:中华机械网)
AGILE公司全新产品展台设计成功
热烈庆祝我司在“中药研究所喷雾干燥机采购项目”中成功中标
产品[

脑细胞荧光显微系统

]资料
如果您对该产品感兴趣的话,可以 sendmsg
产品名称: 脑细胞荧光显微系统
产品型号: MapAnalyzer
产品展商: YAMATO
产品文档: 无相关文档
简单介绍
脑细胞荧光显微系统 在 产 品 内 容 中 有 关 于 脑细胞荧光显微系统 的 详 细 介 绍 。


脑细胞荧光显微系统的详细介绍

 脑细胞荧光显微系统:

Mapping FluorescenceMicrophotometry System
MapAnalyzer

Bringing new techniques to your research.




 

In addition to conventionalobservation and photomicrographic techniques, the quantitative andqualitative analysis of specimen through microphotometry is moreand more in demand. In the medical and biological fields,microphotometry is established technique for quantitative analysisof various intercellular substances.
MapAnalyzer was developed for quantitative microanalysis ofdistribution of various substances, such as neurotransmitters andneuromodulators, in the large tissue slice. With Yamato ScientificCo.fs MapAnalyzer, the possibilities of your research will beextended.

- Application -
(1) Quantitative analysis of immunohistochemical fluorescence
Distribution of substances in animal and human slices
Detection of abnormal changes of substances in diseased tissues
Detection of effect of drugs on the central nervous system and others in the animal experiments
Elimination of non-specific autofluorescence
Comparison analysis among various substances in the same slice
(2) Quantitative analysis of enzyme-labelled immunohistochemistryand various histochemistry
(3) Measurement of fluorescence chelating agent or fluorescenceligand
(4) Quantitative analysis of DNA or RNA
(5) Quantitative analysis of autoradiographs or X-ray film
(6) Cytotoxicity testing
Quantitative immunohistochemicaldistribution
of calmodulin-dependent protein kinase II in the
coronal slice of a rat brain.

An image of the quantitativedistribution of a substance can be obtained as follows: (1) thetarget substance labeled by immunofluorescent staining in amicroarea of a slice is illuminated by a fine excitation beam (theminimum diameter on a slice is 5 µm) which is narrowed by a fielddiaphragm and aperture diaphragm; (2) the fluorescence in this areais collected into the photometer by the objective lens through aphotometry diaphragm, and its intensity is measured; (3) the sliceis moved by a two-dimensional scanning stage (the maximum stagemotion is 140 mm x 140 mm), and the fluorescence intensity in thenext microarea is measured; (4) the measured fluorescence intensityin each microarea is collected in a host computer, where it isanalyzed for reconstruction of an image of the entire scanned area;and (5) the image can be viewed as a close-up, in full or at anangle, and displayed quantitatively as a colored or monochromaticimage. The actual intensity in a specific region is displayed whenthat region is selected by a cursor on the image on a TV monitor.
A second halogen lamp and a band-pass filter of variouswavelengths in the visible region are mounted under the scanningstage. Thus, slices stained for histochemical or enzyme-labeledimmunohistochemical analysis as well as films such asautoradiographs, can be analyzed quantitatively.

Relationship between fluorescence intensity and quinine sulfateconcentration. Fluorescence intensity originating from 0.0005 to 50mM quinine sulfate in 0.1 N sulfuric acid was finely measured usinga MapAnalyzer or image analyzer (Hamamatsu, C1966, Japan) combinedwith an SIT camara (Hamamatsu, TH9659). Working curves from theMapAnalyzer at each photomultiplier voltage and from the imageanalyzer are indicated by solid lines (numbers indicatephotomultiplier voltage) and a dotted line, respectively. Themeasurement conditions were as follows: excitation range, 385 to425 nm; band-pass interference filter, 470 nm; and objective lens,20x/0.75 (magnification/ numerical aperture).
(See, Folia Pharmacol. Jpn. 91: 173-180, 1988)
Quantitativeimmunohistochemical
Distribution of tyrosine hydroxylase
in the coronal slice of a rat brain.


 

 

The quantitative linearity, sensitivity and resolution ofMapAnalyzer surpass those of image analyzers used with TV cameras,and the sensitivity, reproducibility and facility of this methodare greater than those of the HPLC method. Also, the measuring areaof this analyzer is far larger than that of laser confocalmicroscopes.
(See, J. Neurosci. Methods 85: 161-173, 1998)

Quantitative immunohistochemicaldistribution of tyrosine hydroxylase in the coronal slice of a ratbrain. The stained slice was measured at 20-µm intervals, and thedistribution of the intensity obtained from approximately 250,000microareas is displayed. Markedly intense tyrosine hydroxylase-likeimmunoreactivity was distributed in the dorsolateral area of theneostriatum, nucleus accumbens, olfactory tubercle and motorcortex.
Quantitative immunohistochemical distributions of glutamatedecarboxylase (left side) and substance P (right side) in the sameslices of a rat brain. Anterior (upper) and posterior (bottom)regions of the brain were analyzed. Double-stained slice wasmeasured at 20-µm intervals. Markedly intense glutamatedecarboxylase-like and substance P-like immunoreactivities weredistributed in the ventral pallidum and substantianigra.


A
B
C
Elimination of autofluorescence from the human brain slice
A: Nonspecific autofluorescence
B: Immunohistochemical fluorescence superimposed on nonspecificautofluorescence
C: Quantitative immunohistochemical distribution of cholineacetyltransferase in the
normal human brain slice, i.e., A-B
Pure immunohistochemical fluorescence intensities can beobtained automatically from human brains containing variousautofluorescences using MapAnalyzer.
Measuring points: approximately six millions at 50-µmintervals.
(See, J. Neurosci. Methods 85: 161-173, 1998)

Quantitative immunohistochemical distribution ofsubstance P in a brain slice of an ***** normal human (male, age50). Data were obtained from approximately six million regions inthe brain at 50-µm intervals. Conspicuously intense substanceP-like immunoreactivity was observed in the internal segment of theglobus pallidus. The immunoreactive intensity in the internalsegment of the globus pallidus was approximately twice as high asthat in the external segment of the globus pallidus.
(See, Neurosci. Res. 35: 339-346,1999)

Quantitative distribution of Nissl bodies in ahuman brain slice. The slice was stained with cresyl violet, andthe distribution in the globus pallidus and putamen area wasanalyzed through measurement of the transmission densities. GPe,external segment of globus pallidus; GPi, internal segment ofglobus pallidus; Pt, putamen.
(See, Neurosci. Res. 35: 339-346, 1999)

Quantitative distribution of bone calcification ofspontaneously hypertensive rats (SHR) and normotensive Wistar Kyotorats (WKY). X-ray film was reversed and the degree of blackeningwas measured. A higher level of calcification is observed in thevarious bones of SHR compared with those of the WKY.
(See, Brain Res. Bull. 30: 107-113, 1993)

-Specification -
Microscope Epi-fluorescence microscope
Photometry Fluorescence and Transmittance mode
Measuring spot Min. diameter: 20 µm on a slice (standard)
5 µm on a slice (option)
Light source Halogen lamp
Detector Photomultiplier tube
Scanning stage Motor-driven X-Y stage
Min. stepping movement: 1 µm, Max. stage motion: 140x140 mm
Scanning speed: 10 mm/s
Dark box Desktop type
Computer OS: Windows NT or Windows 2000
Software Newly developed software for automatic analysis
Save mode: CSV format or BMP file
Graphics: two-dimensional and three-dimensional display

-REFERENCES -
Technical report:
Sutoo D, Akiyama K, Maeda I. The development of a highsensitivity and high linearity fluorescence microphotometry systemfor distribution analysis of neurotransmitter in the brain. FolPharmacol Jpn 91:173-180, 1988.
Sutoo D, Akiyama K, Yabe K. Quantitative mapping analyzer fordetermining the distribution of neurochemicals in the human brain.J Neurosci Methods 85:161-173, 1998.
Animal experiment:
Sutoo D, Akiyama K, Geffard M. Central dopamine-synthesisregulation by the calcium-calmodulin-dependent system. Brain ResBull 22:565-569, 1989.
Sutoo D, Akiyama K, Imamiya S. A mechanism of cadmiumpoisoning: the cross effect of calcium and cadmium in thecalmodulin-dependent system. Arch Toxicol 64:161-164, 1990.
Sutoo D, Akiyama K, Takita H. Behavioral changes incold-stressed mice related to a centralcalcium-dependent-catecholamine synthesizing system. PharmacolBiochem Behav 40:423- 428, 1991.
Sutoo D, Akiyama K, Yabe K, Kohno K. Multiple analysis oftyrosine hydroxylase and calmodulin distributions in the forebrainof the rat using a microphotometry system. Brain Res Bull26:973-982, 1991.
Akiyama K, Yabe K, Sutoo D. Quantitative immunohistochemicaldistributions of tyrosine hydroxylase and calmodulin in the brainsof spontaneously hypertensive rats, Kitasato Arch. Exp.Med. 65:199-208, 1992.
Sutoo D, Akiyama K, Takita H. The effect of convulsions on therectification of central nervous system disorders in epilepticmice. Physiol Behav 52:865-872, 1992.
Sutoo D, Akiyama K, Matsukura T, Nakamoto RK. Decrease ofcentral dopamine level in the ***** spontaneously hypertensive ratsrelated to the calcium metabolism disorder. Brain Res Bull30:107-113, 1993.

Calmodulin-dependent protein kinase II

Sutoo D. Disturbances of brain function by exogenous cadmium.In: Isaacson RL, Jensen KF, editors. The vulnerable brain andenvironmental risks, vol 3, toxins in air and water. New York:Plenum Press. pp 281-300, 1994.
Nakamura M, Fujimura Y, Yato Y, Watanabe M, Yabe Y. Changes incholine acetyltransferase activity and distribution followingincomplete cervical spinal cord injury in the rat. Neuroscience75:481-494, 1996.
Sutoo D, Akiyama K. Regulation of blood pressure withcalcium-dependent dopamine synthesizing system in the brain and itsrelated phenomena. Brain Res Rev 25: 1-26, 1997.
Nakagawasai O, Tadano T, Hozumi S, Tan-No K, Niijima F, KisaraK. Immunohistochemical estimation of brain cholineacetyltransferase and somatostatin related to the impairment ofavoidance learning induced by thiamine deficiency. Brain Res Bull52:189-196, 2000.
Hanawa M, Asano T, Akiyama K, Yabe K, Tsunoda K, Tadano T,Sutoo D. Effect of Zena F-IIIR, a liquid nutritive andtonic drug, on the neurochemical changes elicited by physicalfatigue in mice. Pharmacol Biochem Behav 66: 771-778, 2000.
Human brain analysis:
Sutoo D, Akiyama K, Yabe K, Kohno K. Quantitative analysis ofimmunohistochemical distributions of cholinergic andcatecholaminergic systems in the human brain. Neuroscience58:227-234, 1994.
Sutoo D, Yabe K, Akiyama K. Quantitative imaging of substance Pin the human brain using a brain mapping analyzer. Neurosci Res35:339 -346, 1999.
Sutoo D, Akiyama K, Yabe K. Quantitative maps of GABAergic andglutamatergic neuronal systems in the human brain. Hum Brain Map11:93-103, 2000.
Sutoo D, Akiyama K, Yabe K. Quantitative imaging of tyrosinehydroxylase and calmodulin in the human brain. J Neurosci Res63:369-376, 2001.

Tyrosine hydroxylase

产品留言
标题
联系人
联系电话
内容
验证码
点击换一张
注:1.可以使用快捷键Alt+S或Ctrl+Enter发送信息!
2.如有必要,请您留下您的详细联系方式!


脑细胞荧光显微系统 的相关产品

img67
Copyright@ 2003-2024  安捷来国际股份(香港)有限公司版权所有  

安捷来国际股份(香港)有限公司
联系电话:010-56370218 / 56370223 
Email:info@irmtech.cn

联系地址:北京市通州区环科中路16号院联东U谷78号楼东梯3层 

   imgclose
         粤ICP备09091229号