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Teen Gene Poems at Grow Your Own, Science Gallery Dublin

Teen Gene Poems at Grow Your Own, Science Gallery Dublin

(Art)ScienceBLR exhibited Teen Gene Poems in GROW YOUR OWN, at Science Gallery, Dublin. Teen Gene Poems was a collection of projects developed by art and design students from the Srishti School of Art, Design and Technology under the guidance of artists, designers and scientists, and within the context of the International Genetically Engineered Machines (iGEM) competition, which was primarily for undergraduate science and engineering students. As an exploration of the poetic promises and perils of synthetic biology, these projects addressed many ethical and philosophical questions. These questions, of course, are not new and relate to the very nature of technology itself. Most remain unanswered, and are still vague and ambiguous.

The first project is Teenage Gene Poems (2009), which harnesses a sequence of DNA called BBa_K221000, one of the first BioBricks produced by artists, that produces an enzyme called geosmin. Geosmin is responsible for the smell of wet earth when it begins to rain. When BBa_k221000 is transformed (injected) into the DNA of E. coli bacteria, it transforms the bacteria into ‘living machines’ that produce the smell of rain. The mystique surrounding the aroma of the Indian monsoon is encoded as a genetic sequence. This is an artistic investigation into the narrative and promises of synthetic biology.

The second project, Synthetic / Post Natural Ecologies (2010, in collaboration with Alexandra Daisy Ginsberg and James King) investigates the consequences of a synthetic ecology or an ecology in which organisms created in a technoscientific environment interact with organisms in the wild. The soil-living roundworm C. elegans lives on a diet of a variety of bacteria, E. coli being one of them. Genetically modified E. coli are fed to C. elegans, which then express any double stranded RNA of interest. The dsRNA can knock off specific genes, which causes marked visual changes in C. elegans. On a utilitarian level, this project investigates the use of C. elegans as a visual marker for changes in environmental conditions. On a more critical level, the C. elegans here can be used to study the consequences of interactions between engineered organisms and the ‘natural’ world.

The final project, Searching for the Ubiquitous Genetically Engineered Machine (2011, in collaboration with the Center For Genomic Gastronomy), proposes alternate reappropriations of the BioBrick by using existing BioBrick primers as random polymerase chain reaction (PCR) primers in investigating soil samples. This random PCR will provide a succinct signature of the biological diversity present in these samples. These BioBricks may end up in our environment and may very well show up as bands in a gel electrophoresis (a method for separation and analysis of macromolecules) when soil samples are analysed. By imagining a world in which the BioBrick has become the accepted standard for synthetic biology, and where these engineered products are ubiquitous in our lives and environments, the samples we archive will serve as the baseline from which the subsequent extent of human influence can be measured.

I was involved with the research, design, production and installation of Teen Gene Poems. I also helped Dr Mukund Thattai and Yashas Shetty in conducting the workshops and DIY lab building sessions held at Science Gallery, Dublin.