This website is no longer being updated. Visit Dartmouth Now for all news published after June 7, 2010.
Dartmouth College Office of Public Affairs • Press Release
Posted 1/11/10 • Media Contact: Susan Knapp (603) 646-3661
A group of Dartmouth researchers have discovered a new role for an important plant gene. Dartmouth Biology Professor Tom Jack and his colleagues have learned that a gene regulator called miR319a (micro RNA 319a) is important for proper flower development, particularly the development of petals.
“In my lab, we are particularly interested in genes that are necessary for the petals and stamens in the flower to develop properly,” says Jack. “We isolated a mutant plant that had defects in petal development, and we then went on to identify the gene that was defective in the mutant plant, which turned out to be miR319a, which had previously, through the work of others, been implicated in leaf development.”
The researchers then found that one of the targets of miR319a is a gene called TCP4, one of many similar genes that functions in leaves and flowers to control cell growth and proliferation.
The study was published Dec. 29, 2009, in the journal Proceedings of the National Academy of Sciences, and Jack’s co-authors on the study are Anwesha Nag and Stacey King, a graduate student and research technician, respectively, at Dartmouth.
When the petals or flowers of plants don’t grow properly, they risk not being able to reproduce. In other words, they don’t attract pollinators. “Flowers are very important to humans because most plant food products are derived from fruits and seeds which are produced by the flower,” says Jack.
Jack’s lab will continue to investigate the genetic pathways controlled by miR319a and TCP4. “Addressing how these genes control petal size and shape is one of the goals of our future research.,” says Jack.
The research is funded by the National Science Foundation.
Dartmouth has television (satellite uplink) and radio (ISDN) studios available for domestic and international live and taped interviews. For more information, call 603-646-3661 or see our Radio, Television capability webpage.
Last Updated: 1/11/10