Direct Transverse Relaxation Time Biosensing Strategy for Detecting Foodborne Pathogens through Enzyme-Mediated Sol-Gel Transition of Hydrogels.
Luyu WeiZhilong WangCaiwei FengYunlei XianyuYiping ChenPublished in: Analytical chemistry (2021)
In this work, we develop a direct transverse relaxation time (T2) biosensing strategy and employ it for assaying foodborne pathogens relying on the alkaline phosphatase (ALP)-mediated sol-gel transition of hydrogels. ALP can catalyze the reaction to generate an acidic environment to transform the sol-state alginate solution to hydrogel, and this hydrogelation process can directly regulate the diffusion rate of water protons that results in a T2 change of water molecules. By means of enzyme-modulated sol-gel transition and antigen-antibody interactions, this T2 biosensor displays high sensitivity for detecting 50 CFU/mL S. enteritidis within 2 h. This biosensing strategy directly modulates the water molecules rather than magnetic probes in traditional methods, offering a straightforward, novel, and sensitive platform for pathogen detection.
Keyphrases
- wound healing
- hyaluronic acid
- label free
- drug delivery
- tissue engineering
- single molecule
- gram negative
- small molecule
- antimicrobial resistance
- extracellular matrix
- high throughput
- sensitive detection
- fluorescence imaging
- ionic liquid
- candida albicans
- living cells
- molecularly imprinted
- solid state
- nucleic acid
- electron transfer
- fluorescent probe