| Abstract: | A generally applicable strategy to obtain mechanically robust hydrogels for the incorporation and containment of functional reporter bacteria for the microarray and microparticle‐based detection and signaling of N‐acyl homoserine lactone autoinducers (3OC12HSL) at relevant concentrations is reported. For reinforcing hydrogels of 1,4‐bi(phenylalanine‐diglycol)‐benzene (PDB), a hybrid hydrogel is formed by the combination of PDB self‐assembly with Ca2+ mediated alginate crosslinking. The different assembly mechanisms are shown not to interfere with each other and despite the more than four‐fold increased moduli of the hydrogels, diffusion of autoinducers into the gels remains efficient and Escherichia coli pLuxR‐green fluorescent protein (GFP) reporter bacteria are proliferating. Templating affords reporter bacteria‐loaded hydrogels with controllable shape and size. Upon exposure to 3OC12HSL, the embedded bacteria exhibit an up to 12 ± 3 times increase in fluorescence intensity due to autoinducer‐triggered GFP expression. This approach can serve as a potentially generally applicable strategy to sensitively detect bacteria via their secreted autoinducers. |
