Abstract: A microfluidic device is directed to sustaining a complex microbial community in direct and indirect contact with living human intestinal cells in vitro. The device includes a first microchannel having cultured cells of a human intestinal epithelium and microbiota, the first microchannel further having a first level of oxygen. The device further includes a second microchannel having cultured cells of a vascular endothelium, the second microchannel further having a second level of oxygen. The device also includes a membrane located at an interface region between the first microchannel and the second microchannel, the membrane being composed of an oxygen-permeable material or further having pores via which oxygen flows between the first microchannel and the second microchannel to form a physiologically-relevant oxygen gradient.

Abstract: A microfluidic device is directed to sustaining a complex microbial community in direct and indirect contact with living human intestinal cells in vitro. The device includes a first microchannel having cultured cells of a human intestinal epithelium and microbiota, the first microchannel further having a first level of oxygen. The device further includes a second microchannel having cultured cells of a vascular endothelium, the second microchannel further having a second level of oxygen. The device also includes a membrane located at an interface region between the first microchannel and the second microchannel, the membrane being composed of an oxygen-permeable material or further having pores via which oxygen flows between the first microchannel and the second microchannel to form a physiologically-relevant oxygen gradient.

Abstract: This disclosure provides riboregulators specific for particular viruses or for particular human transcription factors. The viral-specific riboregulators may be used to detect the presence of the particular virus, and this may enable diagnosis of an infection. The transcription factor specific riboregulators may be used to detect the presence and/or measure the level of the particular transcription factor, and this may enable diagnosis or prognosis of a particular condition such as cancer.

Abstract: A microfluidic device is directed to sustaining a complex microbial community in direct and indirect contact with living human intestinal cells in vitro. The device includes a first microchannel having cultured cells of a human intestinal epithelium and microbiota, the first microchannel further having a first level of oxygen. The device further includes a second microchannel having cultured cells of a vascular endothelium, the second microchannel further having a second level of oxygen. The device also includes a membrane located at an interface region between the first microchannel and the second microchannel, the membrane being composed of an oxygen-permeable material or further having pores via which oxygen flows between the first microchannel and the second microchannel to form a physiologically-relevant oxygen gradient.

Abstract: The methods and compositions described herein relate to the treatment of fungal infections, e.g. by potentiating the sensitivity of fungi to anti-fungal agents.