Ion Addition by Electrolysis to Improve the Quantitative Analysis of Bacteria with MALDI-TOF MS.
Chaoying ZhangZengnan WuXinchang GaoXia WangHai-Fang LiJin-Ming LinPublished in: Analytical chemistry (2022)
Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) is commonly applied to the identification of bacteria but rarely used for quantitative detection due to the inhomogeneous crystallization of the matrix leading to the unsatisfactory linear relationship between the sample amount and the mass spectrum signals. Herein, we proposed a noninterference ion addition (NIA) method by electrolysis to improve homogeneous crystallization during the evaporation progress of sample droplets on the target plates. The active metal wire was inserted in the droplet as the anode electrode, and metal ions were released through electrolysis. The directional migration of metal ions under the electric field can hinder the migration of matrix molecules to the boundary and homogenize the matrix crystals by forming spherical crystals. Simultaneously, trace cationic surfactant was added to the droplet for pinning the contact surface to define the circle crystallization region. The metal ions from the anode electrode wire were deposited on the surface of the target plates which served as the cathode. Therefore, ion addition has no interference effect on ionization during MALDI-MS detection. This NIA method benefits the homogeneous crystallization and so improves the quantitative analysis. NIA is suitable for biological samples with different matrices, and bacterial samples could be quantitatively analyzed.
Keyphrases
- mass spectrometry
- ion batteries
- reduced graphene oxide
- quantum dots
- high resolution
- high throughput
- gas chromatography
- loop mediated isothermal amplification
- liquid chromatography
- aqueous solution
- room temperature
- carbon nanotubes
- real time pcr
- label free
- water soluble
- risk assessment
- solid state
- ionic liquid
- neural network