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Resistive pulse analysis of chiral amino acids utilizing metal-amino acid crystallization differences.

Blake StringerAlexandra J SchmeltzerC Hyun RyuHang RenLong Luo
Published in: The Analyst (2024)
Here, we report a proof-of-concept resistive pulse method for analyzing chiral amino acids utilizing metal-amino acid crystallization differences. This method involves introducing an amino acid sample solution into a micropipette through a pressure-driven flow. The sample then mixes with a metal ion solution inside the pipette, forming metal-amino acid crystals. The crystal size depends on the enantiomeric excess ( x ) of chiral amino acid samples. Large x values lead to large crystals. The crystal size difference is then reflected in the resistive pulse size as they block the ionic transport in a micropipette to different extents. We used Cd-cystine crystallization as a model system and found approximately five times the mean current pulse size difference for racemic ( x = 0) and L-only ( x = +1) cystine samples. A similar result was observed for aspartate. Our discovery opens up new opportunities for micro/nanoscopic chiral amino acid analysis, which can potentially be used in single-cell analysis.
Keyphrases
  • amino acid
  • blood pressure
  • capillary electrophoresis
  • ionic liquid
  • single cell
  • small molecule
  • high throughput
  • mass spectrometry
  • high resolution
  • simultaneous determination