Diacylglycerol and PIP3 Signaling

Posted on Jul 3, 2014 in Cellular, Editorial, Illustration, Molecular

Diacylglycerol and PIP3 Signaling

Creating cover art and illustrations for MCP, by Rajendrani Mukhopadhyay: ASBMB Today, January 2014

The way Fairman worked on the art for the MCP special issue on posttranslation modications was typical for any project she does. She met with Gerald Hart of Johns Hopkins University, the MCP associate editor overseeing the issue, and ASBMB’s publications director, Nancy Rodnan, whose idea it was to hire a professional medical illustrator. Hart explained the science in the various articles. With input from Mary Chang, MCP’s managing editor, the group focused on the images that were either schematics or illustrations. They left alone the images that were captured by a camera or a computer.

“One of the things that I strived to do for this journal was to come up with a consistent style,” explains Fairman. For elements that came up repeatedly, such as ubiquitination, acetylation, proteins and organelles, Fairman established a style so that all of the figures throughout the special issue had the same look and feel. Fairman also says she stuck to scientific conventions as much as possible in terms of colors and symbols. “For example, thinking back to my time in organic chemistry in undergrad, in the little molecular model set, oxygen is usually red, carbon is black, and hydrogen is white,” she says. “Whenever we create any visual, we have to keep in mind who the audience is. Because MCP has a scientific audience, I’ve tried to come up with conventions that people are used to seeing.”

Fairman says it can be a challenge to figure out what should be kept in and left out of an illustration. She had a difficult case with one of the figures from the MCP special issue. “e illustration shows a really complicated mechanism, where these different proteins on the cell membrane, endoplasmic reticulum, nucleus, all the different organelles, are interacting with each other,” she says. “Instead of showing every single protein in its correct configuration, the best thing to do to drive home the message is to use color coding. Not worry so much about what those proteins actually look like but focus more on what they do.”

With the cover, Fairman took another tack, because the cover has a different role than figures in the scienfitic articles. The inspiration for the cover art came from figure 1 in the article by Corina Antal and Alexandra C. Newton at the University of California, San Diego, on the dynamics of lipid second messenger phosphorylation. “e cover isn’t necessarily meant to show the whole mechanism in a way that the readers will completely understand it,” says Fairman. “It is supposed to engage them and bring them into the journal, wanting to read that featured article.”