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Changes in primate teeth linked to rise of monkeys by Staff Writers Berkeley CA (SPX) Jul 14, 2016
University of California, Berkeley paleontologists have identified distinctive features of primate teeth that allow them to track the evolution of our ape and monkey ancestors, shedding light on a mysterious increase in monkey species that occurred during a period of climate change 8 million years ago. The inherited dental features will also help the researchers track down the genes that control tooth development, assisting scientists intent on regrowing rather than replacing teeth. The features were discovered after detailed study of the shapes of molars and premolars inherited by baboons in a long-studied colony at the Southwest National Primate Research Center in San Antonio, Texas. Once it became clear that the relative lengths of the molars and premolars are an inherited trait much like eye color, the researchers measured these traits in the teeth of other primates, sifting through museum collections around the world. The measurement data prove that the feature is inherited in a similar way in all primates - humans included - and varies across different species and genera in a way that mirrors the evolutionary relationships worked out earlier by analyzing bones and comparing genes. "This shows that we can use the power of evolutionary history to unlock what is going on genetically in animals on whom you can't experiment, such as humans," said study leader Leslea Hlusko, a UC Berkeley associate professor of integrative biology. "We found two inherited traits, but identitying the traits is only the first step. We now have to figure out what the genome sequences are that underlie these traits, which will enable us to figure out what caused these evolutionary changes in dentition." Hlusko and her UC Berkeley colleagues - former postdoctoral fellow Christopher Schmitt, now at Boston University, and graduate students Tesla Monson and Marianne Brasil - along with Michael Mahaney of the University of Texas Rio Grande Valley in Brownsville, will publish their analysis next week in the journal Proceedings of the National Academy of Sciences.
The rise of monkeys and the decline of apes "If you go back into the Miocene, it was an ape world with essentially no or very few monkeys," Hlusko said. "Now it is exactly the opposite: we have only a handful of apes and a whole lot of monkeys." The change in dentition suggests that monkeys took over a niche that apes previously occupied, though whether that was a dietary niche or had more to do with primate life cycle remains to be figured out, she said. Dentition can evolve not only because of changes in the types of food animals chew, but also as a result of changes in when and how they erupt during development. "Monkeys moved into that ape niche, in terms of a dental pattern, but what exactly that means I don't know yet," said Hlusko, a member of UC Berkeley's Human Evolution Research Center. "It may be something more complicated than just diet. Maybe it was the kind of food they ate at different stages of their lives, or it might have to do with the timing of major life history events that can influence the timing of tooth eruption, such as when they reached sexual maturity."
Seeking simple inherited traits Unfortunately, what is known about the 300 or more genes that control tooth development comes mostly from mouse studies, and their teeth are a lot different from those of primates, from which they diverged about 70 million years ago. "Mice are a good model for understanding how teeth are made, but not a good model for understanding the finer details of how teeth evolved," she said. "This is important from a dentistry perspective, because people are really interested in regenerating teeth so we don't have to have fake teeth implanted into our jaws. To induce growth of a new one, however, it would be really useful to know how they grow naturally to begin with." In her search for genes important in dental development, Hlusko uses a classical quantitative genetics approach that applies the rules of heredity, discovered 150 years ago in Gregor Mendel's studies of simple traits in peas, to not-so-simple traits like the sizes and shapes of teeth. Geneticists classify traits like tooth size and shape as "complex" because they are affected by DNA variations within many genes. "Although biologically real, the individual effects of many of those genes, or variations within them, are quite small," said Mahaney. "One of Hlusko's goals is to detect and identify a few of these genes with major effects on variation in tooth size and shape in general. Such key genes likely would serve as signposts to biological pathways important to normal and disordered dental development." Several years ago, Hlusko used thousands of pedigreed mouse skeletons in UC Berkeley's Museum of Vertebrate Zoology to show that the front of the mouth - the canines and incisors - is under totally separate genetic control from the back of the mouth - the molars and premolars. This means that, in adapting to changes in environment or diet, teeth in the front of the mouth can evolve independently of teeth in the back, or vice versa. Now, with the help of 632 members of the baboon colony, she has found two measures of teeth in the back of the mouth that seem to be under the control of just a few genes. One is the ratio between the lengths of the third molar and the first molar; the other the ratio of the lengths of the second molar to the fourth premolar. "Instead of thinking of each tooth as a separate unit, we found that the relative size of the first compared to last molar is an inherited trait, like earlobe attachment. The same goes for the relative size of the last premolar relative to the molars," she said. "We've turned the dentition into simple traits, and from that, elucidated a major diversity shift in primate evolution. The next step is to look back to the genome and see if we can find the genes that underlie this." Based on measurements of teeth from 723 extant Old World monkeys from Africa and Asia - many of them measured by some 50 UC Berkeley undergraduate premed or predental students - she found that this group of monkeys also inherits the two traits as simply as eye color. When she looked further - measuring the teeth of 199 extant apes, 56 fossil Old World monkeys and 165 fossil apes - the pattern persisted. In all, the species she sampled represented 20 genera and 37 species of living and extinct monkeys and apes. The analysis revealed that 20 million years ago, apes varied enormously in these dental traits. But monkeys began to evolve some of the same dental traits as apes, and replaced apes that had similar traits. Only a small number of apes with dental traits unlike today's monkeys survived, including our ancestors. "Only those apes with a specific range of dental features had a shot, and one of them was our ancestor," she said. "That shift was an important first step in our lineage's evolutionary history, and it set the stage for the evolution of standing up on two legs and pair bonding. And once you start pair bonding you open the door for all kinds of things, like extended childhood and more complex social interactions - all the kinds of things that humans do today." Hlusko has expanded her study to look at a broad range of mammal teeth - including many dire wolves from the La Brea tar pits in Los Angeles - to see whether these two traits are independently inherited in all animals. The work was supported by the National Science Foundation. The Texas colony of Hamadryas baboons (Papio hamadryas) is funded in part by the National Institutes of Health.
Related Links University of California - Berkeley All About Human Beings and How We Got To Be Here
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