ACTB antibody - immunoprecipitation | antibody review based on formal publications
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| This is a review about ACTB antibodies, based on 6 published articles using ACTB antibodies in western blot, immunohistochemistry, immunoprecipitation, immunocytochemistry, and other immunological technologies. It is aimed to help Labome/ExactAntigen visitors find the most suited ACTB antibody. |
| all | ChIP assay | immunocytochemistry | immunoprecipitation | western blot |
Sigma-AldrichSigma-Aldrich ACTB products | |
| ip | Sigma anti-?-actin antibody was used in immunoprecipitation in order to confirm that histone ubiquitination cause DNA damage. to the paper |
| ip, wb | Sigma anti-??-Actin was used to detect ??-Actin in immunoprecipitation in order to show that the expression of COMMD1 is regulated while COMMD1 and XIAP interact with each other via some critical residues. to the paper |
| ip, wb | Sigma anti-b-actin antibody was used to investigate the activation of Erk1/2 by intracellular M. leprae. to the paper |
| ip, wb | Sigma anti-β-actin antibody was used in western blot and immunoprecipitations to study Amino-terminal domain of ATRIP contributes to intranuclear relocation of the ATR-ATRIP complex following DNA damage. to the paper |
| ip, wb | Sigma anti-β-actin antibody was used in western blot and immunoprecipitations to study the role of amino-terminal domain of ATRIP intranuclear relocation of the ATR-ATRIP complex following DNA damage. to the paper |
Santa Cruz BiotechnologySanta Cruz Biotechnology ACTB products | |
| ip, wb | Santa Cruz Biotechnology anti-beta-actin antibody was used in western blot and immunoprecipitation to study the CATERPILLER protein monarch-1 as an antagonist of toll-like receptor-, tumor necrosis factor alpha-, and mycobacterium tuberculosis-induced pro-inflammatory signals. to the paper |
Articles Reviewed | |
| 1: | Gabriel N Maine et al. COMMD1 expression is controlled by critical residues that determine XIAP binding. 2009 This publication discusses HADH, XIAP, and MURR1. Reagent reviews based on this publication are available for SCHAD, RNeasy, XIAP, Ni-NTA-Agarose beads, and COMMD1. |
| 2: | Jiaxue Wu et al. Histone ubiquitination associates with BRCA1-dependent DNA damage response. 2009 This publication discusses HIST2H2BE, HIST2H4A, RNF2, and RNF20. Reagent reviews based on this publication are available for QuikChange site-directed mutagenesis kit, H2B, H4, RING1B, RNF20, and Oligofectamine. |
| 3: | Tomoya S Kitajima et al. Human Bub1 defines the persistent cohesion site along the mitotic chromosome by affecting Shugoshin localization. 2005 |
| 4: | Nikos Tapinos et al. Insights into regulation of human Schwann cell proliferation by Erk1/2 via a MEK-independent and p56Lck-dependent pathway from leprosy bacilli. 2005 This publication discusses CAV1, MAPK1, MAP2K1, ELK1, PRKCA, PRKD1, PRKCZ, LCK, PRKCE, cyclin D1, and CDKN1A. Reagent reviews based on this publication are available for caveolin-1, phospho-Erk1/2, phospho-MEK1/2, phospho-Elk1, phospho-PKCa /b II, phospho-PKD/PKCm, phospho-PKCz /l, phospho-Lck, phospho-PKCe, cyclin D1, and p21. |
| 5: | Kristi L Williams et al. The CATERPILLER protein monarch-1 is an antagonist of toll-like receptor-, tumor necrosis factor alpha-, and Mycobacterium tuberculosis-induced pro-inflammatory signals. 2005 This publication discusses IRAK1. Reagent reviews based on this publication are available for IRAK-1. |
| 6: | Eisuke Itakura et al. Amino-terminal domain of ATRIP contributes to intranuclear relocation of the ATR-ATRIP complex following DNA damage. 2004 This publication discusses ATR, RPA1, and RPA2. Reagent reviews based on this publication are available for ATR, RPA p70, and RPA p34. |