A team of scientists from around the world led by Baylor College of Medicine and Washington University in St. Louis has completed the genome sequence of the common marmoset – the first sequence of a New World Monkey – providing new information about the marmoset’s unique rapid reproductive system, physiology and growth, shedding new light on primate biology and evolution. The team published the work today in the journal Nature Genetics.
“We study primate genomes to get a better understanding of the biology of the species that are most closely related to humans,” said Dr. Jeffrey Rogers, associate professor in the Human Genome Sequencing Center at Baylor and a lead author on the report. “The previous sequences of the great apes and macaques, which are very closely related to humans on the primate evolutionary tree, have provided remarkable new information about the evolutionary origins of the human genome and the processes involved.”
With the sequence of the marmoset, the team revealed for the first time the genome of a non-human primate in the New World monkeys, which represents a separate branch in the primate evolutionary tree that is more distant from humans than those whose genomes have been studied in detail before. The sequence allows researchers to broaden their ability to study the human genome and its history as revealed by comparison with other primates. ”Each new non-human primate genome adds to a deeper understanding of human biology,” said Dr. Richard Gibbs, director of the Human Genome Sequencing Center at Baylor and a principal investigator of the study.