Parallel genome assembly from pre-biotic split-genes: A solution for the mosaic genome conundrum

The classical concept that all complex life evolved from a simple bacterium-like life form has been questioned by comparative genomics and proteomics. Several discoveries, including the occurrence of entirely new genes in unexpected life forms without any precursors, and the random mosaic distribution of genes across organisms in higher taxa undermine the principal assertions of this theory. We present a new model of the pre-biotic parallel evolution of eukaryotic genomes starting with the structurally complex split genes, which are far more probable of supporting biological information and of occurring in random DNA sequences than contiguous genes. By comparing the mosaic patterns of simulated genomes and extant genomes, we show that genomes arising from simulated assembly of random split genes form the same gene distribution patterns observed in extant eukaryotes. This parallel genome origin model eliminates the post-genomic and classical conundrums faced by the linear branching evolution model.