Wednesday, November 09, 2005

Genetic Foundation of Fish Jaws Uncovered

Integration and evolution of the cichlid mandible: The molecular basis of alternate feeding strategies. 2005. R. Craig Albertson, J. Todd Streelman, Thomas D. Kocher and Pamela C. Yelick. Proceedings of the National Academy of Sciences 102: 16287-16292

Photo of the lower jaw system of Chilotilapia rhoadesii showing how long closing in-levers are adapted for biting.
From the Georgia Institute of Tecnology press release:

In a study illustrating the apparent linkages between the evolutionary development and embryonic development of species, researchers have uncovered the genetic elements that determine the structure and function of a simple biomechanical system, the lower jaw of the cichlid fish. In addition, they've shown that increasing expression of a particular gene in an embryo can lead to physical changes in the adult fish. The results appear in the November 11, 2005 issue of the Proceedings of the National Academy of Sciences.

"We're using the jaw to think about the genetic basis of biomechanical systems," said J. Todd Streelman, assistant professor in the School of Biology at the Georgia Institute of Technology. "We want to understand the genes that control this lever system. What we found was that this simple biomechanical system is much more complex than previously thought."

Streelman, along with colleagues from the Forsyth Institute at the Harvard School of Dental Medicine and the Hubbard Center for Genome Studies at the University of New Hampshire, predicted that components of the jaw that were functionally or developmentally related would be controlled by the same set of genes, or genetically integrated.

"We were surprised to see that the genetic basis of components involved in opening the jaw is independent of the jaw-closing system," said Streelman.

Photo of the lower jaw system of Copadichromis eucinostomus showing how a long closing out-lever is adapted for suction-feeding.
Researchers compared two cichlid species that dwell in Africa's Lake Malawi. One species had force modified jaws that are more adept at biting prey; the other had speed modified jaws, which are more accomplished at using suction to feed on plankton. Each jaw system is essentially a lever system made up of one out-lever and two in-levers.

"We found that as the closing in-lever gets longer, the out-lever gets shorter and vice-versa," explained Streelman.

"When the in-lever is long, this gives the jaw a high mechanical advantage and the jaw can produce more force for biting. When the out-lever is long, that results in a lower mechanical advantage and a better design for suction-feeding. This negative correlation is produced by genetic integration."

But, when the team mapped the regions of the genome controlling the jaw-opening system, they found that these levers are controlled by different chromosomes.

Read the rest of the article HERE.