INDIANAPOLIS -- Seed oil components of an ornamental flower could provide a direct pathway for designing a new class of environmentally friendly lubricants.
Researchers at the School of Science at IUPUI identified the compound in the seed oil of the Orychophragmus violaceus, which is produced in a manner unlike any other fatty acid. The study was published online today in the journal Nature Plants.
The Orychophragmus violaceus plant is a purple flower native to China; it's commonly referred to as the February orchid. While collaborating on theO. violaceus plant's biology and genetic makeup, researchers at Huazhong Agricultural University in Wuhan, China, and the University of Nebraska-Lincoln encountered a bit of a mystery: All plant seeds contain oils as energy reserves for later growth, but researchers noticed the February orchid seed oils were unusual.
They called upon IUPUI bioorganic chemist Robert Minto, who specializes in identifying natural products and unknown compounds.
"This was a serendipitous discovery because we didn't think there were any unusual compounds in the plant," Minto said. "It turned out that almost half of the seed oil is these unusual fatty acid compounds that had never been identified."
Minto and IUPUI researcher Alicen Teitgen determined the major compound's structure, a process complicated by the plainness of a portion of the molecule. This result led the research team to the realization that the way the O. violaceus plant's seed oil is made is extraordinary. The seed oil contains a fatty acid, which is a long linear molecule made when some two-carbon units are added to the end of the molecule over and over again. Each of these elongation steps requires a four-reaction cycle to add the carbon units. During normal fatty acid production, no reaction in the set of four is left out. In O. violaceus, researchers discovered, one of those cycles is only partially completed, leading to the unusual compounds.
"This the first time it's ever been observed in any fatty acid biosynthesis that a partial cycle happens and then more cycles occur afterward," Minto said. "There are many natural products, such as certain common antibiotics, that are made using a chemically similar process that leaves out steps in nearly every cycle. Alternately, there are fatty acid biosynthetic pathways where all the steps are completed. But there has been nothing in between.
"The biosynthesis of this seed oil compound is finally an example of the in-between."
These discoveries could provide clues as to what chemically makes the O. violaceus seed oil a superior lubricant. Compared to castor oil, a common bio-based lubricant used in engine oils, researchers found that February orchid seed oil demonstrates better friction and wear reduction and withstands higher temperature stability. Lubricant performance testing was conducted on steel surfaces at the University of North Texas.
"Commercially, it may be prove to be a really good biorenewable component of lubricants," Minto said.
"Discontinuous Fatty Acid Elongation Yields Hydroxylated Seed Oil with Improved Function" is published in the Aug. 27 issue of Nature Plants. Co-corresponding authors are Minto; Edgar Cahoon, University of Nebraska-Lincoln; and Chunyu Zhang, Huazhong Agricultural University, Wuhan, China. Additional authors are Xiangjun Li; Alicen M. Teitgen, IUPUI Ph.D. graduate; Asghar Shirani; Juan Ling; Lucas Busta; Rebecca E. Cahoon; Wei Zhang; Zaiyun Li; Kent D. Chapman; and Diana Berman, University of North Texas.
About the School of Science at IUPUI
The School of Science at IUPUI is committed to excellence in teaching, research and service in the biological, physical, computational, behavioral and mathematical sciences. The school is dedicated to being a leading resource for interdisciplinary research and science education in support of Indiana's effort to expand and diversify its economy.