Single-cell immunoblotting and MS chips
createdtime:2021-12-14 19:42:00

In biomedical research, one is often faced with the challenge of small biological samples, even down to single-cell levels, to perform disease-related detection of nucleic acids, proteins and metabolites. Single cell immunoblotting for trace cell protein analysis has been developed, as well as SlipChip-based microfluidic systems that can produce a large number of nanoliter and sub-nanoliter droplets with simple loading and slipping operations. Mass spectrometry (MS) chips for in metabolomics, proteomics, and single-cell omics is also developed. These platforms have been applied to various clinical applications, such as tumor, infectious diseases and cardiovascular diseases with large patient cohorts including over 100,000 subjects, supporting new strategies in translational medicine.


Characterization of PdPt and PdPtAu alloys

Schematic of the single-cell transfection analysis chip (scTAC)


Selected Publications:


1. Xu L, Qu H, Alonso D, et al. Portable integrated digital PCR system for the point-of-care quantification of BK virus from urine samples. Biosensors and Bioelectronics, 2021, 175: 112908.

2. Dang J, Li H, Zhang L, et al. New structure mass tag based on Ab functionalized Zr-NMOF in mass cytometry for multiparameter and sensitive single-cell biomarker interrogating. Advanced Materials, 2021, 33(35): e2008297.

3. Li S, Wen Z, Ghalandari B, et al. Single-cell transfection analysis chip enables high-throughput screening and accurate profiling of exogenous gene expression in single host cells. Advanced Materials, 2021, 33(22): e2101108.

4. Su H, Li X, Huang L, et al. Plasmonic alloys reveal distinct metabolic phenotype of early gastric cancer. Advanced Materials, 2021, 33(17): e2007978.

5. Cao J, Shi X, Gurav D, et al. Metabolic fingerprinting on synthetic alloys for medulloblastoma diagnosis and radiotherapy evaluation. Advanced Materials, 2020, 32(23): e2000906.