Chemicals get tied up in complex knots.Even the most dexterous dex·ter·ous also dex·trous adj. 1. Skillful in the use of the hands. 2. Having mental skill or adroitness. 3. Done with dexterity. Scout would have trouble making a knot in an organic molecule. Drawing on years of experience, however, three chemists in France have done just that, synthesizing a chemical knot that's more complex than earlier ones. They made a composite knot, a combination of two simple knots, each shaped like a trefoil trefoil (trē`foil) [O.Fr.,=three-leaf], in botany, name for several plants, chiefly of the pulse family, having trifoliate leaves. Best known of the trefoils is clover. . Knots provide a basis for studying how a molecule's shape and structure influence its physical and chemical properties. What's more, mathematical models of knots can help scientists understand and describe those properties (SN: 3/21/92, p. 186). For example, both knots and molecules can exhibit chirality chirality (kī·ralˑ·i·tē), n the “handedness” property of organic compounds (containing an asymmetrical carbon) that gives rise to structures that , meaning that like a person's left and right hands, they are mirror images of each other. Proving mathematically that a difference exists is not a trivial problem, says Kenneth C. Millett of the University of California, Santa Barbara History The predecessor to UCSB, Santa Barbara State College, focused on teacher training, industrial arts, home economics, and foreign languages. Intense lobbying by an interest group in the City of Santa Barbara led by Thomas Storke and Pearl Chase persuaded the State . Riccardo F. Carina, Christiane Dietrich-Buchecker, and Jean-Pierre Sauvage of Louis Pasteur University in Strasbourg, France, report their findings in the Sept. 25 Journal of the American Chemical Society
The new composite knot required more than just twisting a molecule and securing the ends. The researchers' approach was first to make the two halves and then to connect them. They took simple, linear organic molecules and bent them around two copper atoms--like wrapping a piece of string around each of two fingers--leaving the ends free. They then attached the ends of two twists together, completing the composite knots. The knots came in three different conformations: two chiral chi·ral adj. Of or relating to the structural characteristic of a molecule that makes it impossible to superimpose it on its mirror image. chi·ral knots that are mirror images of each other and one that is achiral achiral adjective Referring to a molecule or material which is superimposable on its mirror image, ie does not display 'handedness'. See Chiral. , or the same as its reflection. An equilateral triangle, for example, is achiral. Other scientists have tied different complicated knots using DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. , a much longer molecule than the one used in the current study. However, "to synthesize a specific knot with a small molecular weight is a real achievement," says Millett, who has created models that relate the length of a molecule to the different ways it can be knotted. "Being able to move from a simple knot to a composite is--from a mathematical point of view--a real step." It's also a significant step from a chemical point of view, he adds. The researchers got a good yield of knotted molecules, despite using a multistep synthesis that loses a little bit of product after each reaction. "They got more than just the mathematical or statistical analysis would have suggested," he says, which implies that some unknown process is boosting the level of output. [ILLUSTRATION OMITTED] |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion