Departament de Genètica & Institut de Recerca en Biodiversitat (Irbio), Universitat de Barcelona, Barcelona, Spain.
J Mol Evol. 2009 Sep;69(3):240-8. doi: 10.1007/s00239-009-9266-x. Epub 2009 Aug 11.
Lysine biosynthesis occurs in two ways: the diaminopimelate (DAP) pathway and the alpha-aminoadipate (AAA) pathway. The former is present in eubacteria, plants, and algae, whereas the latter was understood to be almost exclusive to fungi. The recent finding of the alpha-aminoadipate reductase (AAR) gene, one of the core genes of the AAA pathway, in the marine protist Corallochytrium limacisporum was, therefore, believed to be a molecular synapomorphy of fungi and C. limacisporum. To test this hypothesis, we undertook a broader search for the AAR gene in eukaryotes, and also analyzed the distribution of the lysA gene, a core gene of the DAP pathway. We show that the evolutionary history of both genes, AAR and lysA, is much more complex than previously believed. Furthermore, the AAR gene is present in several unicellular opisthokonts, thus rebutting the theory that its presence is a molecular synapomorphy between C. limacisporum and fungi. AAR gene seems to be exclusive of Excavata and Unikonts, whereas the lysA gene is present in several unrelated taxa within all major eukaryotic lineages, indicating a role for several lateral gene transfer (LGT) events. Our data imply that the choanoflagellate Monosiga brevicollis and the "choanozoan" Capsaspora owczarzaki acquired their lysA copies from a proteobacterial ancestor. Overall, these observations represent new evidence that the role of LGT in the evolutionary history of eukaryotes may have been more significant than previously thought.
二氨基庚二酸(DAP)途径和α-氨基己二酸(AAA)途径。前者存在于真细菌、植物和藻类中,而后者被认为几乎只存在于真菌中。最近在海洋原生动物珊瑚虫 Limacisporum 中发现了α-氨基己二酸还原酶(AAR)基因,该基因是 AAA 途径的核心基因之一,因此被认为是真菌和珊瑚 Limacisporum 的分子同源特征。为了验证这一假设,我们在真核生物中广泛搜索 AAR 基因,并分析了 DAP 途径的核心基因 lysA 的分布。我们表明,AAR 和 lysA 这两个基因的进化历史比以前认为的要复杂得多。此外,AAR 基因存在于几个单细胞后口动物中,因此反驳了该基因存在于珊瑚 Limacisporum 和真菌之间的分子同源特征的理论。AAR 基因似乎是外质动物和单系动物所特有的,而 lysA 基因存在于所有主要真核生物谱系中的几个无关分类群中,表明发生了几次侧向基因转移(LGT)事件。我们的数据表明,领鞭毛虫 Monosiga brevicollis 和“领鞭毛动物”Capsaspora owczarzaki 从一个变形菌祖先那里获得了它们的 lysA 拷贝。总的来说,这些观察结果代表了新的证据,表明 LGT 在真核生物进化历史中的作用可能比以前认为的更为重要。
