Zanotti Giuseppe, Cendron Laura, Ramazzina Ileana, Folli Claudia, Percudani Riccardo, Berni Rodolfo
Department of Chemistry, University of Padua, and ICTB, Section of Padua, Via Marzolo 1 35131 Padova, Italy.
J Mol Biol. 2006 Oct 13;363(1):1-9. doi: 10.1016/j.jmb.2006.07.079. Epub 2006 Aug 2.
During early vertebrate evolution, a duplication event in the gene encoding 5-hydroxyisourate hydrolase (HIUase), a widely distributed enzyme of purine metabolism, gave rise to transthyretin (TTR), a thyroid hormone transporter. We report here on the crystal structure of zebra fish HIUase in two different crystal forms. Despite the phylogenetic distance, this structure compares well with those of newly characterized bacterial HIUases, especially with regard to catalytic regions, which are highly preserved. Comparison with TTR structure reveals a highly conserved scaffold, harbouring distinct functional sites located in the same regions of the two vertebrate proteins. Residues that are differentially conserved in HIUases compared to TTR map in putative catalytic regions occupying significant portions of the two halves of a central channel that transverses the whole TTR protein. The evolution of TTR has been accompanied by remarkable changes of the HIUase active sites that gave rise to a channel open at both ends, thus allowing free access to hormone molecules.
在早期脊椎动物进化过程中,编码5-羟基异尿酸水解酶(HIUase)(一种嘌呤代谢中广泛分布的酶)的基因发生了一次复制事件,产生了甲状腺激素转运蛋白转甲状腺素蛋白(TTR)。我们在此报告斑马鱼HIUase两种不同晶体形式的晶体结构。尽管存在系统发育距离,但该结构与新鉴定的细菌HIUase的结构相比,尤其是在高度保守的催化区域方面,具有良好的可比性。与TTR结构的比较揭示了一个高度保守的支架,在两种脊椎动物蛋白质的相同区域含有不同的功能位点。与TTR相比,HIUase中差异保守的残基位于一个贯穿整个TTR蛋白的中央通道两半的大部分区域的推定催化区域中。TTR的进化伴随着HIUase活性位点的显著变化,产生了一个两端开放的通道,从而允许激素分子自由进入。