Biologists sequenced red flour beetle genome
Most of us hate to find the red flour beetle living happily in the flour sack in our pantries. But for several scientists at Kansas State University, and many others throughout the world, this pest of stored grain and grain products is the best organism for studying genetics.
The superior status of this beetle, Tribolium castaneum, as an experimental system is largely because of the work of two Kansas State University faculty, Susan Brown, professor of biology, and Rob Denell, university distinguished professor of biology. They worked in collaboration with Richard Beeman, research entomologist at the U.S. Department of Agriculture Grain Marketing and Production Research Center in Manhattan.
This team won funding to get Tribolium鈥檚 genome sequenced, making it one of the earliest insect genomes to be sequenced and the first pest insect to be studied in this way.
鈥淲e鈥檝e been able to exploit Tribolium鈥檚 ease of culture, short life cycle, and facile genetics to create an array of sophisticated methodologies,鈥 Denell said. 鈥淚t now joins the fruit fly Drosophila as a premier insect genetic system, and even offers advantages in some areas of study.鈥
The journal Nature will publish an article March 27 announcing the sequencing of the beetle鈥檚 genetic material and summarizing the implications of this work.
鈥淚t鈥檚 really exciting to see the burst of activity in Tribolium studies that has accompanied the sequencing project,鈥 Brown said. 鈥淭his new information will greatly aid research on topics as diverse as insect pest management and the genetic control of development.鈥
The genomic sequence, genetic maps and gene information are available from the National Center for Biotechnical Information and at .
Source: Kansas State University
