分离自 Griffonia simplicifolia 的凝集素 GS-IB4,Alexa Fluor™ 594偶联物
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分离自 <i>Griffonia simplicifolia</i> 的凝集素 GS-IB<sub>4</sub>,Alexa Fluor&trade; 594偶联物
引用和文献 (18)
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分离自 Griffonia simplicifolia 的凝集素 GS-IB4,Alexa Fluor™ 594偶联物

凝集素 GS-IB4 是一种 114,000 道尔顿的糖蛋白,是五种四聚体 I 型凝集素(IA4、IA3B、IA2B2了解更多信息
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货号数量
I21413500 μg
货号 I21413
价格(CNY)
5,591.00
飞享价
Ends: 31-Dec-2025
7,578.00
共减 1,987.00 (26%)
Each
添加至购物车
数量:
500 μg
价格(CNY)
5,591.00
飞享价
Ends: 31-Dec-2025
7,578.00
共减 1,987.00 (26%)
Each
添加至购物车
凝集素 GS-IB4 是一种 114,000 道尔顿的糖蛋白,是五种四聚体 I 型凝集素(IA4、IA3B、IA2B2、IAB3 和 IB4)家族的组成部分,分离自热带非洲谷物 Griffonia simplicifolia 的种子。A 亚基优先结合 N-乙酰-D-半乳糖胺末端基团,而 B 亚基则选择性结合末端 a-D-半乳糖基残基。红色荧光 Alexa Fluor™ 594 同工凝集素 GS-IB 4 偶联物可用于荧光显微镜检查。

查看荧光染料偶联外源凝集素的完整列表›
仅供科研使用。不可用于诊断程序。
规格
标签类型Alexa Fluor 染料
产品线Alexa Fluor
蛋白质子类型Lectins
数量500 μg
运输条件室温
来源Africa Shrub legume
偶联物Alexa Fluor 594
形式Lyophilized
Unit SizeEach
内容与储存
储存在冰箱(-5 至 -30°C)中并避光。

常见问题解答 (FAQ)

我该如何为自己的试验选择示踪对象?

要考虑的因素有示踪对象的大小、给样方式(注射,直接上样到组织等),示踪对象是否需要固定。以下链接详细介绍了我们提供的各类神经元示踪剂的详细信息以及选择方法:

•神经元示踪(https://www.thermofisher.com/us/en/home/life-science/cell-analysis/cell-tracing-tracking-and-morphology/neuronal-tracing.html)
•选择示踪剂(https://www.thermofisher.com/us/en/home/references/molecular-probes-the-handbook/fluorescent-tracers-of-cell-morphology-and-fluid-flow/choosing-a-tracer.html)
•成像分析(http://assets.thermofisher.com/TFS-Assets/BID/Reference-Materials/bioprobes-50-journal.pdf)

How do I know which tracer to choose for my experiment?

Factors to consider are size of tracer, method of delivery (injection, direct application to tissue, etc.), and if the tracer needs to be fixable. Here are some links to details about the various classes of neuronal tracers we offer and how to choose between them:

Neuronal Tracing (https://www.thermofisher.com/us/en/home/life-science/cell-analysis/cell-tracing-tracking-and-morphology/neuronal-tracing.html)
Choosing a Tracer (https://www.thermofisher.com/us/en/home/references/molecular-probes-the-handbook/fluorescent-tracers-of-cell-morphology-and-fluid-flow/choosing-a-tracer.html)
Imaging Analysis (http://assets.thermofisher.com/TFS-Assets/BID/Reference-Materials/bioprobes-50-journal.pdf)

Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

引用和文献 (18)

引用和文献
Abstract
Insulin-like growth factor 2 and potential regulators of hemangioma growth and involution identified by large-scale expression analysis.
Authors:Ritter MR, Dorrell MI, Edmonds J, Friedlander SF, Friedlander M
Journal:Proc Natl Acad Sci U S A
PubMed ID:12032304
'Hemangiomas are benign tumors of the vascular endothelium and are the most common tumors of infancy. These tumors are characterized by an initial phase of rapid proliferation, which is followed, in most cases, by spontaneous involution. Although most lesions resolve without complication, there are some cases in which hemangiomas can ... More
Cell fusion-independent differentiation of neural stem cells to the endothelial lineage.
Authors:Wurmser AE, Nakashima K, Summers RG, Toni N, D'Amour KA, Lie DC, Gage FH
Journal:Nature
PubMed ID:15254537
'Somatic stem cells have been claimed to possess an unexpectedly broad differentiation potential (referred to here as plasticity) that could be induced by exposing stem cells to the extracellular developmental signals of other lineages in mixed-cell cultures. Recently, this and other experimental evidence supporting the existence of stem-cell plasticity have ... More
Effects of familial hemiplegic migraine type 1 mutation T666M on voltage-gated calcium channel activities in trigeminal ganglion neurons.
Authors:Tao J, Liu P, Xiao Z, Zhao H, Gerber BR, Cao YQ,
Journal:J Neurophysiol
PubMed ID:22190617
'Familial hemiplegic migraine type 1 (FHM-1), a rare hereditary form of migraine with aura and hemiparesis, serves as a good model for exploring migraine pathophysiology. The FHM-1 gene encodes the pore-forming Ca(V)2.1 subunit of human P/Q-type voltage-gated Ca(2+) channels (VGCCs). Some FHM-1 mutations result in a decrease of whole cell ... More
CXCL16 orchestrates adenosine A3 receptor and MCP-1/CCL2 activity to protect neurons from excitotoxic cell death in the CNS.
Authors:Rosito M, Deflorio C, Limatola C, Trettel F,
Journal:J Neurosci
PubMed ID:22378888
A role for chemokines as molecules mediating neuron-glia cross talk has emerged in recent years, both in physiological and pathological conditions. We demonstrate here for the first time that the chemokine CXCL16 and its unique receptor CXCR6 are functionally expressed in the CNS, and induce neuroprotection against excitotoxic damage due ... More
Microglial cells in astroglial cultures: a cautionary note.
Authors:Saura J,
Journal:J Neuroinflammation
PubMed ID:17937799
Primary rodent astroglial-enriched cultures are the most popular model to study astroglial biology in vitro. From the original methods described in the 1970's a great number of minor modifications have been incorporated into these protocols by different laboratories. These protocols result in cultures in which the astrocyte is the predominant ... More
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