Current Artists

 
KathyHigh

Kathy High

Professor of Video and New Media
Department of Arts
Rensselaer Polytechnic Institute, Troy, NY

As part of CMiST Art+Science, world-renowned bio-artist Kathy High will be doing a recurring artist residency in DePaolo Lab. Kathy is an artist, but also a person who suffers from inflammatory bowel disease (IBD).  Her passion for trying to understand this complex disease is part of her art.  Kathy has been commissioned to do an art exhibition in the fall of 2017 with a focus on IBD and the microbiome.  Kathy has shown her work across the US, as well as Australia, Germany, Poland, Spain, Ireland and the UK, and is a Guggenheim fellowship recipient. For more about Kathy, visit her website here.

 

Current project: Family_Bio_Crest

Family_Bio_Crest is a research project looking at the microbiota and micro-organisms that inhabit our gut using art as the medium to communicate the findings, "My goal is to illustrate that the gut microbiota is shared and influenced by those living in a communal environment. Through this project, I hope to discover if family members share similar (or dissimilar) gut microbes because they share a living environment and possibly share a gut bacterial / fungal community signature and profile." As part of this project, a 3D “family (bio)crest” noting the significant similarities will be awarded to those families who donate fecal samples.

Family crests were created based on land ownership and stature.  These “bio-crests” will be created based on the existing bio-signature of one’s family. Oral and fecal samples will be taken from families and cultured at the Center for Microbiome Sciences & Therapeutics (CMiST) at the University of Washington, Seattle. “Families” includes partners / spouses, children, parents and pets.  Similarities in bacterial / fungal profiles will determine the signature crest of each family unit.  Crests will be produced in a petri dish. Bacteria from your family’s fecal samples will be isolated, sub-cultured and then painted in various shapes on an agar canvas to form the graphics of the crest. Specific shapes will be designated to represent the presence of a particular bacteria. A photograph of the petri dish, your family’s bio-crest, will be taken at its most productive moment to preserve it. These petri dishes represent the family unit sampled. A bacterial family tree will also be developed.

“Family_Bio_Crest_” is sponsored by The Center for Microbiome Sciences & Therapeutics (CMiST) and DePaolo Lab at the University of Washington, Seattle.

 

Kathy High and Guy Schaffer for the exhibition of Gut Love: You Are My Future at the Esther Klein Gallery, Science Center, Philadelphia, PA, October 26, 2017

 
Tyler Fox.png

Tyler Fox

Lecturer
Human Centered Design & Engineering
University of Washington, Seattle, WA

Tyler is an artist, researcher, technologist, and educator. His work focuses on the ways in which nonhuman relations shape our experience of, and relationship to, the surrounding world. His teaching fosters interdisciplinary research by nourishing student-centered projects that incorporate critical theory into practice-based research. He will be joining the lab at the end of this month.

 

Making Microbe Music

Tyler Fox and CMiST crossed paths at the UW School of Art + Art History + Design in the spring of 2017 after an art and science seminar given by CMiST director, Will DePaolo, and the current CMiST artist-in-residence. Tyler’s work explores the interaction of technology with a given biological process. In his current project, Fermentum, Tyler uses sensors to sonify the real-time fermentation of kimchi and sauerkraut. Obviously, Tyler and CMiST were a sound pairing!

During fermentation, competition between the bacteria occurs, where only one survives. In addition to the sugars, alcohols, gases, etc. that are produced during this process, sound is created. Using a few basic pieces of equipment, Tyler records these sounds. Using CMiST’s Clinical Microbiome service, Tyler will identify the bacteria left standing. We are interested to find out if bacteria have their own unique sounds.