Stabilizing the heterologously expressed uric acid-xanthine transporter UapA from the lower eukaryote Aspergillus nidulans.

Q3 Biochemistry, Genetics and Molecular Biology
Molecular Membrane Biology Pub Date : 2013-02-01 Epub Date: 2012-06-14 DOI:10.3109/09687688.2012.690572
James Leung, Alexander D Cameron, George Diallinas, Bernadette Byrne
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引用次数: 17

Abstract

Despite detailed genetic and mutagenic analysis and a recent high-resolution structure of a bacterial member of the nucleobase-ascorbate transporter (NAT) family, understanding of the mechanism of action of eukaryotic NATs is limited. Preliminary studies successfully expressed and purified wild-type UapA to high homogeneity; however, the protein was extremely unstable, degrading almost completely after 48 h at 4°C. In an attempt to increase UapA stability we generated a number of single point mutants (E356D, E356Q, N409A, N409D, Q408E and G411V) previously shown to have reduced or no transport activity, but correct targeting to the membrane. The mutant UapA constructs expressed well as GFP fusions in Saccharomyces cerevisiae and exhibited similar fluorescent size exclusion chromatography (FSEC) profiles to the wild-type protein, following solubilization in 1% DDM, LDAO or OM + 1 mM xanthine. In order to assess the relative stabilities of the mutants, solubilized fractions prepared in 1% DDM + 1 mM xanthine were heated at 45°C for 10 min prior to FSEC. The Q408E and G411V mutants gave markedly better profiles than either wild-type or the other mutants. Further FSEC analysis following solubilization of the mutants in 1% NG ± xanthine confirmed that G411V is more stable than the other mutants, but showed that Q408E is unstable under these conditions. G411V and an N-terminally truncated construct G411VΔ1-11 were submitted to large-scale expression and purification. Long-term stability analysis revealed that G411VΔ1-11 was the most stable construct and the most suited to downstream structural studies.

稳定低等真核生物细粒曲霉尿酸-黄嘌呤转运体UapA的异源表达。
尽管对核碱基-抗坏血酸转运体(NAT)家族的细菌成员进行了详细的遗传和诱变分析,并在最近获得了高分辨率结构,但对真核生物NAT的作用机制的了解仍然有限。初步研究成功表达和纯化了野生型UapA,具有较高的同质性;然而,该蛋白极不稳定,在4°C下加热48 h后几乎完全降解。为了提高UapA的稳定性,我们产生了许多单点突变体(E356D, E356Q, N409A, N409D, Q408E和G411V),这些突变体之前被证明具有降低或没有运输活性,但正确靶向膜。在1% DDM、LDAO或OM + 1mm黄嘌呤中溶解后,突变型UapA构建物在酿酒酵母中表达良好,并表现出与野生型蛋白相似的荧光大小排斥层析(FSEC)图谱。为了评估突变体的相对稳定性,在FSEC之前,在1% DDM + 1 mM黄嘌呤中制备的溶解馏分在45°C下加热10分钟。Q408E和G411V突变体比野生型和其他突变体具有更好的表型。在1% NG±黄嘌呤溶液中溶解突变体后,进一步的FSEC分析证实G411V比其他突变体更稳定,但Q408E在这些条件下不稳定。将G411V和n端截断的构建体G411VΔ1-11进行大规模表达和纯化。长期稳定性分析表明G411VΔ1-11是最稳定的结构体,最适合下游结构研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular Membrane Biology
Molecular Membrane Biology 生物-生化与分子生物学
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Cessation. Molecular Membrane Biology provides a forum for high quality research that serves to advance knowledge in molecular aspects of biological membrane structure and function. The journal welcomes submissions of original research papers and reviews in the following areas: • Membrane receptors and signalling • Membrane transporters, pores and channels • Synthesis and structure of membrane proteins • Membrane translocation and targeting • Lipid organisation and asymmetry • Model membranes • Membrane trafficking • Cytoskeletal and extracellular membrane interactions • Cell adhesion and intercellular interactions • Molecular dynamics and molecular modelling of membranes. • Antimicrobial peptides.
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