Abstract
ABSTRACTPortable and inexpensive analytical tools are required to monitor pharmaceutical quality in technology limited settings including low- and middle-income countries (LMICs). Whole cell yeast biosensors have the potential to help meet this need. However, most of the read-outs for yeast biosensors require expensive equipment or reagents. To overcome this challenge, we have designed a yeast biosensor that produces a unique scent as a readout. This inducible scent biosensor, or “scentsor,” does not require the user to administer additional reagents for reporter development and utilizes only the user’s nose to be “read.” In this manuscript, we describe a scentsor that is responsive to the hormone estradiol (E2). The best estimate threshold (BET) for E2 detection with a panel of human volunteers (n = 49) is 39 nM E2 (15 nM when “non-smellers” are excluded). This concentration of E2 is sensitive enough to detect levels of E2 that would be found in dosage forms. This manuscript provides evidence that scent has potential for use in portable yeast biosensors as a read out, particularly for use in technology-limited environments.
Publisher
Cold Spring Harbor Laboratory
Reference39 articles.
1. WHO. A study on the public health and socioeconomic impact of substandard and falsified medical products. 2017.
2. Establishment of an HPLC identification system for detection of counterfeit steroidal drugs;Journal of Pharmaceutical and Biomedical Analysis,2008
3. PHARMACOKINETICS AND BIOAVAILABILITY OF DOXYCYCLINE IN HUMANS;Arzneimittel-Forschung/Drug Research,1986
4. Yeast Biosensors for Detection of Environmental Pollutants: Current State and Limitations;Trends in Biotechnology,2016
5. The use of yeast and moulds as sensing elements in biosensors