Bland Alison M, D'Eugenio Louis R, Dugan Melissa A, Janech Michael G, Almeida Jonas S, Zile Michael R, Arthur John M
Medical University of South Carolina, Charleston, USA.
J Biomol Tech. 2006 Jul;17(3):195-9.
Variability is a major complicating factor in analysis by two-dimensional gel electrophoresis. Improvements in methodologies have focused on improving individual gel quality rather than reproducibility. We homogenized rat cardiac tissue and rehydrated using a matrix of buffers to determine the optimal sample conditions. Six buffers were used to solubilize the proteins. Solubilized proteins were separated by isoelectric focusing using four buffers. Gels were run in triplicate to assess the method of preparation yielding the least variability. Number of spots and variability were different between conditions. Proteins solubilized in a buffer containing 5 M urea, 2 M thiourea, 2% CHAPS, 2% SB 3-10, ampholytes, DTT, and protease inhibitors and focused in a buffer containing 9 M urea and 4% NP40 had the lowest coefficient of variation. Variability was compared across isoelectric point ranges and was different. Minimizing technical variability in two-dimensional polyacrylamide gel electrophoresis is critical to identify differences between conditions. Sample preparation should be optimized to minimize variability as well as to maximize the number of spots seen.
变异性是二维凝胶电泳分析中的一个主要复杂因素。方法学的改进主要集中在提高单个凝胶的质量上,而非重现性。我们将大鼠心脏组织匀浆,并使用缓冲液基质进行复水,以确定最佳样品条件。使用六种缓冲液溶解蛋白质。溶解的蛋白质通过使用四种缓冲液的等电聚焦进行分离。凝胶一式三份进行电泳,以评估产生最小变异性的制备方法。不同条件下的斑点数量和变异性有所不同。在含有5 M尿素、2 M硫脲、2% CHAPS、2% SB 3-10、两性电解质、二硫苏糖醇(DTT)和蛋白酶抑制剂的缓冲液中溶解,并在含有9 M尿素和4% NP40的缓冲液中聚焦的蛋白质,其变异系数最低。在不同等电点范围内比较变异性,结果不同。在二维聚丙烯酰胺凝胶电泳中最小化技术变异性对于识别不同条件之间的差异至关重要。样品制备应进行优化,以最小化变异性并最大化可见斑点的数量。
