Scientists reveal genetic mutation depicted in van Gogh's sunflower paintings

March 29th, 2012 in Biology / Biotechnology
The most common, wild-type sunflower variety is shown in box A, and its florets are shown in B. Box C shows a double-flowered mutant variety, with its florets shown in D. Box E shows the tubular variety, with its florets shown in F. The arrows in box G indicate the double-flowered mutants depicted in van Gogh’s Still Life: Vase with Fifteen Sunflowers. Credit: John Burke/University of Georgia


The most common, wild-type sunflower variety is shown in box A, and its florets are shown in B. Box C shows a double-flowered mutant variety, with its florets shown in D. Box E shows the tubular variety, with its florets shown in F. The arrows in box G indicate the double-flowered mutants depicted in van Gogh’s Still Life: Vase with Fifteen Sunflowers. Credit: John Burke/University of Georgia

In addition to being among his most vibrant and celebrated works, Vincent van Gogh's series of sunflower paintings also depict a mutation whose genetic basis has, until now, been a bit of a mystery.

In a study published today (March 29) in the journal , however, a team of University of Georgia scientists reveal the mutation behind the distinctive, thick bands of yellow "double flowers" that the post-Impressionist artist painted more than 100 years ago.

Vincent van Gogh - Still Life: Vase with twelve sunflowers painted circa August 1888

"In addition to being of interest from a historical perspective, this finding gives us insight into the molecular basis of an economically important trait," said senior author John Burke, professor of in the UGA Franklin College of Arts and Sciences. "You often see ornamental varieties similar to the ones van Gogh painted growing in people's gardens or used for , and there is a major market for them."

The most common sunflower phenotype is a composite that contains a single whorl of large, flattened, yellow ray florets on the outer perimeter and hundreds to over a thousand individual, tubular, disc florets that can produce seeds. The double-flowered mutants that van Gogh depicted in many of his paintings, on the other hand, have multiple bands of yellow florets and a much smaller proportion of internal disc florets.

To understand the genetic basis of this difference, Burke and his colleagues began by using the same plant crossing techniques that , a 19th century contemporary of van Gogh, used to lay the foundation of modern genetics. The scientists crossed the common, or wild type, variety of sunflower with the double-flowered variety, and their initial findings suggested that a single, was responsible for creating the double-flowered mutation. Subsequent crosses of the offspring revealed that a second mutation, which is recessive to both the double-flowered mutation and the wild-type version of the gene, results in a third flower type that is intermediate in form, being elongated and yellow, but tubular and containing the reproductive structures of the interior florets.

The scientists identified the responsible gene and sequenced it to show that in the double-flowered mutation, the portion of the gene that functions as an on/off switch is disrupted so that the instructions for making the outer rays are turned on in the portions of the plant that would normally produce the internal disc florets. In the second mutation, which results in the tubular florets, the insertion of a "jumping gene" disrupts the ability of the plant to produce normal ray florets. As a result, tubular florets are produced in place of the normal ray florets.

Finally, the scientists screened hundreds of sunflower varieties—wild type, double-flowered and tubular—and found that wild-type sunflower varieties never have a mutation in the HaCYC2c gene, while the double-flowered varieties always have the same mutation in the on/off switch. In addition, the tubular varieties always have a disrupted copy of the gene. "All of this evidence tells us that the mutation we've identified is the same one that van Gogh captured in the 1800s," Burke said.

More information: Chapman MA, Tang S, Draeger D, Nambeesan S, Shaffer H, et al. (2012) Genetic Analysis of Floral Symmetry in Van Gogh's Sunflowers Reveals Independent Recruitment of CYCLOIDEA Genes in the Asteraceae. PLoS Genet 8(3): e1002628. doi:10.1371/journal.pgen.1002628, www.plosgenetics.org/doi/pgen.1002628

Provided by University of Georgia

"Scientists reveal genetic mutation depicted in van Gogh's sunflower paintings." March 29th, 2012. http://phys.org/news/2012-03-scientists-reveal-genetic-mutation-depicted.html