Quick Summary
- Natural food colorings are in demand, but blue colors are rare in nature
- Researchers identified a natural blue anthocyanin in red cabbage
- 澳门六合彩资料库 Davis chemists developed an enzyme to make the blue color in usable quantities
A natural brilliant blue coloring has been discovered by an international team of researchers including chemists at the University of California, Davis. The new cyan blue, obtained from red cabbage, could be an alternative to synthetic blue food colorings such as the widely used FD&C Blue No. 1. The work is published April 7 in .
鈥淏lue colors are really quite rare in nature 鈥 a lot of them are really reds and purples,鈥 said Pamela Denish, a graduate student working with Professor Justin Siegel at the 澳门六合彩资料库 Davis Department of Chemistry and Innovation Institute for Food and Health.
Having the right blue color is also important for mixing other colors, such as green. If the blue isn鈥檛 right, it will produce muddy, brown colors when mixed, Siegel said.
Red cabbage extracts are widely used as a source of natural food colorings, especially reds and purples. These dyes are called anthocyanins. For about a decade, a team led by scientists at the Mars Advanced Research Institute and Mars Wrigley Science and Technology, in collaboration with the 澳门六合彩资料库 Davis Innovation Institute for Food and Health; The Ohio State University; Nagoya University, Japan; the University of Avignon, France; and SISSA University, Italy, have been working on isolating a blue anthocyanin from red cabbage. But the natural blue coloring is present only in tiny amounts.
Enzymes to convert colors
Denish, postdoctoral researcher Kathryn Guggenheim, graduate student Mary Riley, and Siegel figured out a way to convert other anthocyanins in cabbage into the blue color compound. They screened public libraries of millions of enzymes for candidates that might do the job and tested a small number in the lab. Based on those results, they used computational methods to search a huge number of potential protein sequences 鈥 10 to the power of 20, more than the number of stars in the universe 鈥 to design an enzyme that would accomplish the conversion with high efficiency.
鈥淲e used these tools to search the universe for the enzyme we鈥檙e interested in,鈥 Siegel said.
With this enzyme, they were able to convert the anthocyanin blue from a tiny fraction of red cabbage extract into a primary product, allowing the institute researchers and other collaborators to fully characterize the new blue coloring.
Siegel and Denish have founded a startup company, Peak B, to develop the technology for commercial applications. Enzymatic conversions are very widely used in food production, for example in making cheese, Siegel said.
Additional authors on the paper are: Julie-Anne Fenger, M铆che谩l Moloney, Olivier Dangles, University of Avignon, France; Randall Powers, Julia Li and Thomas Collins, Mars Wrigley, Hackettstown, New Jersey; Gregory Sigurdson, Neda Ahmadiani and Monica Giusti, The University of Ohio, Columbus; Luca Grisanti, Sara Laporte, Stefano Baroni, Alessandra Magistrato, Mariami Rusishvili and Kumi Yoshida, Scuola Internazionale Superiore di Studi Avanzati (SISSA), Trieste, Italy; Tadao Kondo, Nagoya University, Nagoya, Japan; John Didzbalis, Mars Advanced Research Institute, Hackettstown; and Rebecca Robbins, Mars Wrigley Global Innovation Center, Chicago. The work was supported by Mars Inc., with additional support from the 澳门六合彩资料库 Davis Innovation Institute for Food and Health, the NSF and NIH.
Media Resources
Media Contacts:
- Pamela Denish, Chemistry, prdenish@ucdavis.edu
- Justin Siegel, Chemistry and Innovation Institute for Food and Health, jbsiegel@ucdavis.edu
- Andy Fell, News and Media Relations, 530-304-8888, ahfell@ucdavis.edu
More Information:
- (Science Advances)