Light Harvest will be part of a group exhibit, (Re)imagining Science at Grunwald Gallery at Indiana University. It is also part of Themester 2016 exhibitions that are centered on the theme of Beauty. The show opens on Oct 14th, 2016.
This project is inspired by D’Arcy Wentworth Thompson’s work on form and growth and the structural biology. In 1917, Thompson first published his magnum opus “On Growth and Form,” with a second edition appeared in 1942. Thompson studied the system of forms and structures found in all species of nature. He was the first bio-mathematician who used mathematical and geometric analysis to study the myriad living forms as a product of dynamics at work at cellular and tissue level within all organisms. For Thompson, the beautiful world we live in can be understood as an ethereal palpitation of waves of energy making up all things. Thompson’s book has inspired generations of artists and designs in search of beauty found in natural structures that reach into vastness and smallness beyond our human sensory range.
Proteins are essential to all forms of life on earth. Without proteins, there would be no life as we know it. Proteins are small molecular machines with unique folding structures. Their various functions rely on their proper structural architecture; this is called the structure-functional relationship. Protein structures cannot be seen with the naked eye. Therefore structural biologists use X-ray Crystallography to determine the structure of proteins, which can be visualized in 3D. This allows not just analyzing the folding structure to understand a protein’s function; it also reveals the beauty of nature’s design on the atomic level.
The particular protein that is presented in Light Harvest is called Light-Harvesting Complex (LHC), which is the solar sail of the photosynthesis components in plants and some micro-organisms that uses bundled sunlight and together with water to create sugar and oxygen, thus providing the basis for life on this planet. It is made of three amino acid chains with 207 amino acids in each of the chains. Computer algorithm-based program Grasshopper was used to create the scaffolding of the three-dimensional protein chain. 642 pieces of rollout patterns, of which 207 were unique, were laser-cut and etched at Noblitt Fabricating in Columbus Indiana and were hand-folded and assembled at my studio at Smith Research Center. The material is high-tech Kozo, a type of Japanese-made paper that comes from renewable mulberry trees.
Video projection mapping technologies will be used to bring the light, colors, and the interactivity to live. For the artistic meanings and the science behind Light Harvest, please come to the show on Oct 14th and make sure to check out www.foldedlightart.com for more information.
Acknowledgement: This project is supported by New Frontier of Creativity and Scholarship and the Grunwald Gallery of Art at Indiana University, Bloomington, Indiana.
- Science: Susanne Ressl (Assistant Professor, Structural Biology, Indiana University)
- Technology: Kyle Overton (Ph.D. student, HCID, Indiana University)
- Fabrication: Steve Dixon (Noblitt Fabricating, Columbus, Indiana)
- Production: Siqiao Gao (Undergraduate student, Interior Design, Indiana University)