尿素转运体(UT)家族:结构、功能和进化预测的生物信息学分析。

Ranjeet Minocha, Keith Studley, Milton H Saier
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引用次数: 32

摘要

我们已经确定了尿素转运体(UT)家族(TC #1.A.28)目前所有的测序成员。同源物只存在于脊椎动物和细菌中,而不存在于其他真核生物界或古细菌中。序列、结构和系统发育分析揭示了保守的区域和残基,并表明在进化史的早期,大约在真核生物从原核生物分化出来的时候,一个原始的 5 跨膜螺旋片段(TMS)编码基因元件发生了复制,产生了一个 10 TMS 编码元件。据预测,在这两个 5 TMS 重复元件之前的两个保存完好、具有强烈两性关系的假定α-螺旋具有结构、功能或生物起源意义。在脊椎动物的发育过程中发生了第二次复制事件(或基因融合事件),产生了 20 个 TMS 哺乳动物同源物。研究结果表明,脊椎动物只从细菌那里获得了一次UT遗传信息,目前动物界的所有同源物和旁系亲属都来自这一个原始系统。
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The urea transporter (UT) family: bioinformatic analyses leading to structural, functional, and evolutionary predictions.

We have identified all currently sequenced members of the urea transporter (UT) family (TC #1.A.28). Homologues occur exclusively in vertebrate animals and bacteria but not in other eukaryotic kingdoms or archaea. Sequence, structural, and phylogenetic analyses reveal conserved regions and residues and suggest that a primordial 5 transmembrane helical segment (TMS)-encoding genetic element duplicated to give a 10 TMS-encoding element early during evolutionary history, at about the time when eukaryotes diverged from prokaryotes. Two well-conserved, strongly amphipathic, putative alpha-helices that precede both 5 TMS repeat elements are predicted to be of structural, functional, or biogenic significance. A second duplication event (or a gene fusion event) occurred during development of the vertebrate lineage, giving rise to 20 TMS mammalian homologues. The results suggest that vertebrates acquired UT genetic information from bacteria only once and that all current orthologues and paralogues in the animal kingdom arose from this one primordial system.

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