Antarctic Phosphatase Reaction Buffer 10X

<strong>Antarctic Phosphatase Reaction Buffer 10X</strong>_x000D_ <table width="1028">_x000D_ <tbody>_x000D_ <tr>_x000D_ <td width="285">Catalog number:</td>_x000D_ <td width="743">B2010104</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Lot number:</td>_x000D_ <td>Batch Dependent</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Expiration date:</td>_x000D_ <td>Batch Dependent</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Volume/Weight</td>_x000D_ <td>10 mL</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>pH</td>_x000D_ <td>6</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Supplied as</td>_x000D_ <td>10X concentrate</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Appearance</td>_x000D_ <td>Clear solution</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Applications</td>_x000D_ <td>Dilute to 1X to assure an optimal activity of Antarctic Phosphatase enzyme</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Shelf-Life</td>_x000D_ <td>1 year from date of manufacture</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Storage:</td>_x000D_ <td>Keep at -20°C</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Keywords:</td>_x000D_ <td>Antarctic Phosphatase Buffer, AP reaction buffer</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Grade</td>_x000D_ <td>Biotechnology grade. All components are highly pure (minimum 99%). All solutions are made with Type I ultrapure water (resistivity &gt;18 MΩ-cm) and are filtered on a 0.22 um.</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>References</td>_x000D_ <td width="743">1: Yuivar Y, Barahona S, Alcaíno J, Cifuentes V, Baeza M. Biochemical and_x000D_ Thermodynamical Characterization of Glucose Oxidase, Invertase, and Alkaline_x000D_ Phosphatase Secreted by Antarctic Yeasts. Front Mol Biosci. 2017 Dec 12;4:86.2: Wang ZJ, Lee J, Si YX, Wang W, Yang JM, Yin SJ, Qian GY, Park YD. A folding_x000D_ study of Antarctic krill (Euphausia superba) alkaline phosphatase using_x000D_ denaturants. Int J Biol Macromol. 2014 Sep;70:266-74._x000D_ _x000D_ 3: Zhou Y, Li YH, Yu HB, Liu XY, Lu XL, Jiao BH. Furanone derivative and_x000D_ sesquiterpene from Antarctic marine-derived fungus Penicillium sp. S-1-18. J_x000D_ Asian Nat Prod Res. 2018 Dec;20(12):1108-1115._x000D_ _x000D_ 4: Kim TK, Kim JE, Youn UJ, Han SJ, Kim IC, Cho CG, Yim JH. Total Syntheses of_x000D_ Lobaric Acid and Its Derivatives from the Antarctic Lichen Stereocaulon alpinum._x000D_ J Nat Prod. 2018 Jun 22;81(6):1460-1467._x000D_ _x000D_ 5: Najnin T, Siddiqui KS, Taha T, Elkaid N, Kornfeld G, Curmi PM, Cavicchioli R._x000D_ Characterization of a temperature-responsive two component regulatory system_x000D_ from the Antarctic archaeon, Methanococcoides burtonii. Sci Rep. 2016 Apr_x000D_ 7;6:24278._x000D_ _x000D_ 6: O'Leary TJ, Gifford RM, Double RL, Reynolds RM, Woods DR, Wardle SL, Greeves_x000D_ JP. Skeletal responses to an all-female unassisted Antarctic traverse. Bone._x000D_ 2019 Apr;121:267-276._x000D_ _x000D_ 7: Liu JT, Lu XL, Liu XY, Gao Y, Hu B, Jiao BH, Zheng H. Bioactive natural_x000D_ products from the antarctic and arctic organisms. Mini Rev Med Chem. 2013_x000D_ Apr;13(4):617-26._x000D_ _x000D_ 8: Tsuruta H, Tsuneta ST, Ishida Y, Watanabe K, Uno T, Aizono Y. Purification_x000D_ and some characteristics of phosphatase of a psychrophile. J Biochem. 1998_x000D_ Feb;123(2):219-25._x000D_ _x000D_ 9: Pellizza LA, Smal C, Ithuralde RE, Turjanski AG, Cicero DO, Arán M._x000D_ Structural and functional characterization of a cold-adapted stand-alone TPM_x000D_ domain reveals a relationship between dynamics and phosphatase activity. <a href="https://pubmed.ncbi.nlm.nih.gov/27754607/">FEBS J</a>._x000D_ 2016 Dec;283(23):4370-4385.</td>_x000D_ </tr>_x000D_ <tr>_x000D_ <td>Related Products</td>_x000D_ <td><a href="https://moleculardepot.com/product-category/buffers/">Biochemical Buffers and Solutions</a></td>_x000D_ </tr>_x000D_ </tbody>_x000D_ </table>