Subcellular Localization Defects Characterize Ribose-Binding Mutant Proteins with New Ligand Properties in Escherichia coli

Abstract: Periplasmic-binding proteins have been previously proclaimed as a general scaffold to design sensor proteins with new recognition specificities for non-natural compounds. Such proteins can be integrated in bacterial bioreporter chassis with hybrid chemoreceptors to produce a concentration-dependent signal after ligand binding to the sensor cell. However, computationally designed new ligand-binding properties ignore the more general properties of periplasmic binding proteins, such as their periplasmic transloca… Show more

“…Construction of an evolved bacterial chassis is usually dependent on the directed evolution of functional proteins. 1 The evolved proteins substitute the natural counterparts in the hosts, resulting in an evolved bacterial chassis with specific phenotypes, 2 such as the evolved RpsE in Escherichia coli and PfDHFR in yeast, which endow spectinomycin resistance 3 and pyrimethamine resistance, 4 respectively. However, the substitution of an exogenous DNA would affect the safety of hosts, which limits the host application in some fields, especially in the food industry.…”

Construction and application of an efficient dual-base editing platform for Bacillus subtilis evolution employing programmable base conversion

“…Construction of an evolved bacterial chassis is usually dependent on the directed evolution of functional proteins. 1 The evolved proteins substitute the natural counterparts in the hosts, resulting in an evolved bacterial chassis with specific phenotypes, 2 such as the evolved RpsE in Escherichia coli and PfDHFR in yeast, which endow spectinomycin resistance 3 and pyrimethamine resistance, 4 respectively. However, the substitution of an exogenous DNA would affect the safety of hosts, which limits the host application in some fields, especially in the food industry.…”

Construction and application of an efficient dual-base editing platform for Bacillus subtilis evolution employing programmable base conversion

Exploring subcellular location anomalies: a novel quantum bioimaging paradigm