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KUDOS: Exciting news, grants, presentations off-campusNEWEST: Peter Organizes a Symposium & is a Guest Editor in a Journal ; Andy was an invited presenter; Kit participates in a panel; Ed and Ian receive funding; Jean Hardwick is a selected committee member; Maki Inada, Ed Cluett, Peter Melcher and several students work was presented; Leann receives travel support for field trips; many Summer Activities |
Wednesday, May 9, 2012
Peter Melcher (Biology) is the Associate Guest Editor for a special topics in the Journal Frontiers.
Journal Frontiers - Plant Biophysics and Modeling.
Title of Special Topic
Biology and physics of long distance transport in plants
Friday, May 4, 2012
Peter Melcher organized a Symposium on water transport in plants for the 2012 Botanical Society of America Meeting, July 9th in Columbus, Ohio.
Get all the details on the link above.
Friday, May 4, 2012
On April 19th, 2012 we celebrated the service, dedication and accomplishments of Faculty and Staff with a luncheon at Emerson Suites.
Biology faculty recognized included:
10 years - Ed Cluett
20 years - Kit Muma
Congratulations!
Wednesday, April 4, 2012
Andy Smith. "Gluing with an iron fist: the central role of metals in biological adhesives". Franklin & Marshall College, Lancaster, Pennsylvania. March 2012.
My lab studies the biochemistry and mechanics of adhesive gels. Many gastropod mollusks can form strong attachments using dilute gels. Intertidal limpets, for example, glue themselves onto wet, irregular surfaces so firmly that in some cases they cannot be detached by hand. Some terrestrial slugs can produce a similarly elastic, adhesive defensive secretion. This performance is remarkable given that the glues consist of ~97% water, and appear to be modifications of the animal’s normal lubricating mucus. Our current research focuses on the cross-linking mechanisms that govern gel mechanics. We have found specific proteins that are correlated with increased adhesive strength, and these proteins stiffen gels. We have also found that metal ions play an essential role in the glue, creating stable cross-links despite the presence of water. We are particularly interested in the different ways that metals impact gel mechanics. In the glue of terrestrial slugs, some metals cross-link polymers directly, while other redox-active metals appear to create cross-links through protein oxidation. Protein oxidation is a common post-translational modification that can significantly affect material mechanics.
Monday, October 17, 2011
See a quick glimpse of first-hand lab experience in Andy Smith' lab.
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