F8 Polyclonal antibody

F8 Polyclonal Antibody for IF, ELISA
Cat No. 21485-1-AP

产品说明书

宿主/亚型

Rabbit / IgG

种属反应性

human

应用

IF, ELISA

AHF, Antihemophilic factor, Coagulation factor VIII, DXS1253E, F8, F8B, F8C, FVIII, HEMA, Procoagulant component

缓冲液配方:  PBS and Azide
PBS and Azide
偶联物:  Unconjugated
规格: 

-/ -


经过测试的应用

Positive IF/ICC detected inhuman umbilical vein endothelial cells, HUVEC cells

推荐稀释比

应用推荐稀释比
Immunofluorescence (IF)/ICCIF/ICC : N/A
It is recommended that this reagent should be titrated in each testing system to obtain optimal results.
Sample-dependent, Check data in validation data gallery.

发表文章中的应用

IFSee 1 publications below

产品信息

21485-1-AP targets F8 in IF, ELISA applications and shows reactivity with human samples.

经测试应用 IF, ELISA Application Description
文献引用应用IF
经测试反应性 human
文献引用反应性human
免疫原 F8 fusion protein Ag15772 种属同源性预测
宿主/亚型 Rabbit / IgG
抗体类别 Polyclonal
产品类型 Antibody
全称 coagulation factor VIII, procoagulant component
别名 AHF, Antihemophilic factor, Coagulation factor VIII, DXS1253E, F8, F8B, F8C, FVIII, HEMA, Procoagulant component
计算分子量 2351 aa, 267 kDa
GenBank蛋白编号BC022513
基因名称 F8
Gene ID (NCBI) 2157
RRIDAB_2878868
偶联类型 Unconjugated
形式 Liquid
纯化方式Antigen affinity purification
UNIPROT IDP00451
储存缓冲液 PBS with 0.02% sodium azide and 50% glycerol , pH 7.3
储存条件Store at -20°C. Stable for one year after shipment. Aliquoting is unnecessary for -20oC storage.

背景介绍

F8, also named as AHF and F8C, belongs to the multicopper oxidase family. F8, along with calcium and phospholipid, acts as a cofactor for factor IXa when it converts factor X to the activated form, factor Xa. F8 can be cleaved to 4 chains: F8a heavy chain, 200 kDa isoform, F8a heavy chain, 92 kDa isoform, F8 B chain and F8a light chain. This antibody can recognize the light chain.

实验方案

Product Specific Protocols
IF protocol for F8 antibody 21485-1-APDownload protocol
Standard Protocols
Click here to view our Standard Protocols

发表文章

SpeciesApplicationTitle
humanIF

Invest Ophthalmol Vis Sci

miR-590-3p Inhibits Pyroptosis in Diabetic Retinopathy by Targeting NLRP1 and Inactivating the NOX4 Signaling Pathway.

Authors - Chufeng Gu
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