Cat. #151027
Anti-HSVICP8 [10A3]
Cat. #: 151027
Sub-type: Primary antibody
Unit size: 100 ug
Target: Herpes Simplex Virus Infected cell protein 8 (HSV-ICP8)
Class: Monoclonal
Application: WB ; IHC ; WB
Reactivity: Virus
Host: Mouse
£300.00
This fee is applicable only for non-profit organisations. If you are a for-profit organisation or a researcher working on commercially-sponsored academic research, you will need to contact our licensing team for a commercial use license.
Contributor
Inventor: Diane Wilcock
Institute: Cancer Research UK, London Research Institute: Clare Hall Laboratories
Tool Details
*FOR RESEARCH USE ONLY (for other uses, please contact the licensing team)
- Name: Anti-HSVICP8 [10A3]
- Alternate name: Fc Fragment Of IgG Receptor Ia; Fc Gamma Receptor Ia; Fc-Gamma RIA; IGFR1; FCRI; Fc Gamma Receptor; CD64 Antigen; FCGR1; CD64; FCG1
- Research fields: Microbiology
- Clone: 10A3
- Tool sub type: Primary antibody
- Class: Monoclonal
- Conjugation: Unconjugated
- Strain: Balb/c
- Reactivity: Virus
- Host: Mouse
- Application: WB ; IHC ; WB
- Description: ICP8 is the major DNA binding protein of herpes simplex virus type 1.
- Immunogen: ICP8 purified from U-35-VERO cells.
- Immunogen uniprot id: P12314
- Isotype: IgG1
- Myeloma used: Sp2/0-Ag14
Target Details
- Target: Herpes Simplex Virus Infected cell protein 8 (HSV-ICP8)
- Target background: ICP8 is the major DNA binding protein of herpes simplex virus type 1.
Applications
- Application: WB ; IHC ; WB
Handling
- Format: Liquid
- Concentration: 1 mg/ml
- Unit size: 100 ug
- Storage buffer: PBS with 0.02% azide
- Storage conditions: -15° C to -25° C
- Shipping conditions: Shipping at 4° C
References
- Sagou et al. 2009. J Virol. 83(11):5773-83. PMID: 19297494.
- Regulation of the catalytic activity of herpes simplex virus 1 protein kinase Us3 by autophosphorylation and its role in pathogenesis.
- Glauser et al. 2007. J Virol. 81(9):4732-43. PMID: 17314170.
- Live covisualization of competing adeno-associated virus and herpes simplex virus type 1 DNA replication: molecular mechanisms of interaction.