Cat#:RP-3395AT;Product Name:Recombinant Mouse Gsta1 Protein;Synonym:Glutathione S-transferase A1;Description:Recombinant mouse Gsta1, fused with His tag at N Terminus, was produced in E.coli. This recombinant protein was purified using our unique chromatography techniques.;Source:E.coli;AA Sequence:1-223aa;Molecular Characterization:28kDa;Purity:Greater than 95% by SDS-PAGE;Bioactivity:Specific activity is > 4,000 pmol/min/ug, and is defined as the amount of enzyme that conjugate 1.0 pmole of 1-chloro-2,4-dinitrobenzene (CDNB) with reduced glutathione per minute at pH 6.5 at 25C.;Formulation:Liquid Solution;Stability:Recombinant Mouse Gsta1 Protein was stable up to 1 year from date of receipt at -70℃;Concentration:1mg/mL;Storage Buffer:Recombinant Mouse Gsta1 protein was supplied in PBS (pH7.4) containing 10% glycerol, 1mM DTT;Storage:Recombinant Mouse Gsta1 Protein can be stored at +4℃for 1-2 weeks. It is recommended that the recombinant protein be aliquoted for optimal storage at -20 or -70℃. Please avoid repeated freeze-thaw cycles.;Usage:For Lab Research Use Only;
Recombinant mouse Gsta1, fused with His tag at N Terminus, was produced in E.coli. This recombinant protein was purified using our unique chromatography techniques.
Source:
E.coli
AA Sequence:
1-223aa
Molecular Characterization:
28kDa
Purity:
Greater than 95% by SDS-PAGE
Bioactivity:
Specific activity is > 4,000 pmol/min/ug, and is defined as the amount of enzyme that conjugate 1.0 pmole of 1-chloro-2,4-dinitrobenzene (CDNB) with reduced glutathione per minute at pH 6.5 at 25C.
Formulation:
Liquid Solution
Stability:
Recombinant Mouse Gsta1 Protein was stable up to 1 year from date of receipt at -70℃
Concentration:
1mg/mL
Storage Buffer:
Recombinant Mouse Gsta1 protein was supplied in PBS (pH7.4) containing 10% glycerol, 1mM DTT
Usage:
For Lab Research Use Only
Storage:
Recombinant Mouse Gsta1 Protein can be stored at +4℃for 1-2 weeks. It is recommended that the recombinant protein be aliquoted for optimal storage at -20 or -70℃. Please avoid repeated freeze-thaw cycles.