You have four more months to go "Walking in the Woods with Chemistry." Originally scheduled to conclude today (Dec. 7), this exhibit in the arboretum has been extended through March 31.
Walking in the Woods with Chemistry, which opened in September, is the work of Dean Tantillo, professor of chemistry; Philipp Zerbe, assistant professor of plant biology; and Nhu Nguyen, a chemistry Ph.D. candidate.
The exhibit is about molecules produced by plants, and how we use those molecules in our daily lives and how those molecules have inspired research at 嘿嘿视频 and other universities.
ABIETIC ACID
This is one of the 13 molecules in the exhibit Walking in the Woods with Chemistry. Abietic acid is the major ingredient of pine resin and what sticks to your hands when decorating the Christmas tree.
Natural tree defense: When stem-boring insects attack the tree, pine resin flows out of the wound and traps the insect. Abietic acid also acts as an antibiotic, protecting the tree against invading fungi and bacteria.
Industrial uses: As a byproduct of the wood and paper industry, abietic acid is used in your printer ink, lubricants, paint thinner and linoleum.
Research at 嘿嘿视频: The Zerbe and Tantillo groups, and researchers around the world, study the biology and chemistry of this fascinating terpene compound to better understand its formation, protective properties and industrial uses.
WHERE IN THE ARBORETUM
You鈥檒l find the exhibit in four of the arboretum鈥檚 collections:
Walking in the Woods with Chemistry explores such questions as: Have you ever wondered what makes up the flavor of your wine? Or how a plant can cure cancer? What the smell is in your perfume? Or how a tree defends itself?
The exhibit comprises 13 molecules in multiple locations in the arboretum (see box). Each site includes a model of a molecule that comes from a nearby plant, and a sign identifying the molecule and its uses. Each sign also has a QR code leading you to more information.
The model-making started on a computer, using the same programs the researchers use in their labs, and ended with the models coming out of a 3-D printer. Each one is identified by Braille type.
鈥楾he (bio)chemistry behind it all鈥
All of the molecules in the exhibit are also known as metabolites, which describes molecules that are part of biosynthetic pathways, i.e., the formation of chemical compounds by groups of enzymes.
Zerbe, who identified plants of interest for the exhibition, said: 鈥淢y great motivation to join Dean and Nhu in this project is that we use plant-derived metabolites every day, but rarely recognize this fact. The arboretum is a fantastic place to showcase just how much our daily life depends on plants, and how researchers at 嘿嘿视频 work together to better understand the (bio)chemistry behind it all.鈥
Tantillo and Zerbe described Nguyen as the 鈥渕astermind鈥 behind 鈥淲alking in the Woods with Chemistry,鈥 and she in turn credited Elaine Fingerett, the arboretum鈥檚 academic coordinator, for welcoming the idea and helping to make the project a reality.
Nguyen did her undergraduate studies at 嘿嘿视频, earning a Bachelor of Science degree in chemistry in the spring of 2012 and then joining Tantillo鈥檚 lab in the fall.
鈥淎rt has always been a big part of my life, and I hope this project illustrates a place where art meets science, as well as offering a glimpse into the many connections between science and nature,鈥 Nguyen said.
She鈥檚 no stranger to the arboretum, having been on campus since 2008. On her walks and bike rides, she said, she鈥檚 collected 鈥渁n arboretum photo collection that I鈥檓 very proud of.鈥
Tantillo also is on familiar ground: 鈥淭his exhibit allows me to combine my interests in trees, molecules they produce and walking through the woods.鈥
(theoretical organic chemistry)
(unraveling plant metabolic diversity for improved human well-being)
Media Resources
Dave Jones, Dateline, 530-752-6556, dljones@ucdavis.edu