Evolutionary Patterns of Gene Families Generated in the Early Stage of Vertebrates

Abstract

In this paper we have analyzed 49 vertebrate gene families that were generated in the early stage of vertebrates and/or shortly before the origin of vertebrates, each of which consists of three or four member genes. We have dated the first (T(1)) and second (T(2)) gene duplications of 26 gene families with 3 member genes. The means of T(1) (594 mya) and T(2) (488 mya) are largely consistent to a well-cited version of two-round (2R) genome duplication theory. Moreover, in most cases, the time interval between two successive gene duplications is large enough that the fate of duplicate genes generated by the first gene duplication was likely to be determined before the second one took place. However, the phylogenetic pattern of 23 gene families with 4 members is complicated; only 5 of them are predicted by 2R model, but 11 families require an additional gene (or genome) duplication. For the rest (7 families), at least one gene duplication event had occurred before the divergence between vertebrate and Drosophila, indicating a possible misleading of the 4:1 rule (member gene ratio between vertebrates and invertebrates). Our results show that Ohno's 2R conjecture is valid as a working hypothesis for providing a most parsimonious explanation. Although for some gene families, additional gene duplication is needed, the credibility of the third genome duplication (3R) remains to be investigated.