Genome complexity: patterns from the past (Introduction)

by David Turell , Saturday, November 21, 2015, 17:59 (3080 days ago) @ David Turell

Studies in acorn worms finds that 70% of human genes are found in them. We are much more complex which means that multiple layers of controls of gene translation and expression have been added to us:-http://www.sciencedaily.com/releases/2015/11/151118155119.htm-"A team from the Okinawa Institute of Science and Technology Graduate University (OIST) and its collaborators has sequenced the genomes of two species of small water creatures called acorn worms and showed that we share more genes with them than we do with many other animals, establishing them as our distant cousins.-"The study found that 8,600 families of genes are shared across deuterostomes, a large animal grouping that includes a variety of organisms, ranging from acorn worms to star fishes, from frogs to dogs, to humans. This means that approximately 70% of our genes trace their ancestry back to the original deuterostome. By comparing the genomes of acorn worms to other animals, OIST scientists inferred the presence of these genes in the common ancestor of all deuterostomes, an extinct animal that lived half a billion years ago.-***-" Around 550 million years ago, a great variety of animals burst onto the world in an event known as the Cambrian explosion. This evolutionary radiation revealed several new animal body plans, and changed life on Earth forever, as complex animals with specialized guts and behavioural features emerged. Thanks to the genome sequencing of multiple contemporary animals of the deuterostome group, we can go back in time to unveil aspects of the long-lost ancestor of this diverse group of animals.-***-"The team compared the genomes of the two acorn worms with the genomes of 32 diverse animals and found that about 8,600 families of genes are homologous, that is, evolutionarily-related, across all deuterostomes and so are confidently inferred to have been present also in the genome of their deuterostome ancestor. Human arms, birds' wings, cats' paws and the whales' flippers are classical examples of homology, because they all derive from the limbs of a common ancestor. As with anatomical structures, genes homology is defined in terms of shared ancestry. Because of later gene duplications and other processes, these 8,600 homologous genes correspond to at least 14,000 genes, or approximately 70%, of the current human genome.-"'Our analysis of the acorn worm genomes provides a glimpse into our Cambrian ancestors' complexity and supplies support for the ancient link between the pharyngeal development and the filter feeding life style that ultimately contributed to our evolution," explains Dr Simakov."-Comment: From studies like this it is hard to deny an evolutionary process. But we do not know how evolution works.