Delaroque Nicolas, Boland Wilhelm, Müller Dieter Gerhard, Knippers Rolf
Max-Planck-lnstitut für Chemische Okologie, Beutenberg Campus, Hans-Knöll-Strasse 8, D-07745 Jena, Germany.
J Mol Evol. 2003 Dec;57(6):613-22. doi: 10.1007/s00239-003-2501-y.
The evolution of viral genomes has recently attracted considerable attention. We compare the sequences of two large viral genomes, EsV-1 and FirrV-1, belonging to the family of phaeoviruses which infect different species of marine brown algae. Although their genomes differ substantially in size, these viruses share similar morphologies and similar latent infection cycles. In fact, sequence comparisons show that the viruses have more than 60% of their genes in common. However, the order of genes is completely different in the two genomes, suggesting that extensive recombinational events in addition to several large deletions had occurred during the separate evolutionary routes from a common ancestor. We investigated genes encoding components of signal transduction pathways and genes encoding replicative functions in more detail. We found that the two genomes possess different, although overlapping, sets of genes in both classes, suggesting that different genes from each class were lost, perhaps randomly, after the separate evolution from an ancestral genome. Random loss would also account for the fact that more than one-third of the genes in one viral genome has no counterparts in the other genome. We speculate that the ancestral genome belonged to a cellular organism that had once invaded a primordial brown algal host.
病毒基因组的进化最近引起了相当大的关注。我们比较了两种大型病毒基因组EsV-1和FirrV-1的序列,它们属于感染不同种类海洋褐藻的叶病毒科。尽管它们的基因组大小差异很大,但这些病毒具有相似的形态和相似的潜伏感染周期。事实上,序列比较表明,这两种病毒有超过60%的基因是相同的。然而,这两个基因组中基因的顺序完全不同,这表明在从共同祖先开始的独立进化过程中,除了几次大的缺失外,还发生了广泛的重组事件。我们更详细地研究了编码信号转导途径成分的基因和编码复制功能的基因。我们发现,这两个基因组在这两类基因中都有不同但重叠的基因集,这表明从祖先基因组独立进化后,每一类中的不同基因可能随机丢失。随机丢失也可以解释这样一个事实,即一个病毒基因组中超过三分之一的基因在另一个基因组中没有对应物。我们推测,祖先基因组属于一种曾经侵入原始褐藻宿主的细胞生物体。
