Publications by authors named "Emma E Hoch-Schneider"
High-throughput DNA transformation techniques are invaluable when generating high-diversity mutant libraries, a cornerstone of successful protein engineering. However, transformation efficiencies have a direct correlation with the probability of introducing multiple DNA molecules into each cell, although reliable library screenings require cells that contain a single unique genotype. Thus, transformation methods that yield a high multiplicity of transformations are unsuitable for high-diversity library screenings.
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- * Traditional methods for studying insect olfactory receptors involve using empty neuron systems or mammalian cells, but yeast has emerged as an efficient option for this purpose.
- * The study aims to create a scalable yeast-based platform to express insect olfactory receptors, utilizing a genetically encoded calcium sensor for measurement and identifying future research paths despite challenges with co-receptor functionality.
Serotonin is a key neurotransmitter involved in numerous physiological processes and serves as an important precursor for manufacturing bioactive indoleamines and alkaloids used in the treatment of human pathologies. In humans, serotonin sensing and signaling can occur by 12 G protein-coupled receptors (GPCRs) coupled to Gα proteins. In yeast, human serotonin GPCRs coupled to Gα proteins have previously been shown to function as whole-cell biosensors of serotonin.
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