Biological nanopores for single-molecule sensing

S. F. Mayer; C. Cao; M. Dal Peraro 

iScience. 2022-04-07. Vol. 25, num. 4, p. 104145. DOI : 10.1016/j.isci.2022.104145.

Systems and methods for digital information decoding and data storage in hybrid macromolecules

M. Dal Peraro; C. Cao; A. Radenovic; L. Krapp; J-F. Lutz et al. 



Mutant aerolysin and uses thereof

M. Dal Peraro; C. Cao 



The emerging landscape of single-molecule protein sequencing technologies

J. A. Alfaro; P. Bohländer; M. Dai; M. Filius; C. J. Howard et al. 

Nature Methods. 2021-06-07. Vol. 18, num. 6, p. 604-617. DOI : 10.1038/s41592-021-01143-1.

Decoding Digital Information Stored in Polymer by Nanopore

C. Cao; L. Krapp; A. Ouahabi; A. Radenovic; J-F. Lutz et al. 

2021-02-12.  p. 98A-98A.

Aerolysin nanopores decode digital information stored in tailored macromolecular analytes

C. Cao; L. F. Krapp; A. Al Ouahabi; N. F. König; N. Cirauqui et al. 

Science Advances. 2020-12-09. Vol. 6, num. 50, p. eabc2661. DOI : 10.1126/sciadv.abc2661.

Single-molecule studies of amyloid proteins: from biophysical properties to diagnostic perspectives

J. Wu; C. Cao; R. A. Loch; A. Tiiman; J. Luo 

Quarterly Reviews Of Biophysics. 2020-01-01. Vol. 53, p. e12. DOI : 10.1017/S0033583520000086.

Single-molecule sensing of peptides and nucleic acids by engineered aerolysin nanopores

C. Cao; N. Cirauqui; M. J. Marcaida; E. Buglakova; A. Duperrex et al. 

Nature Communications. 2019-10-29. Vol. 10, p. 4918. DOI : 10.1038/s41467-019-12690-9.

Discrimination of oligonucleotides of different lengths with a wild-type aerolysin nanopore

C. Cao; Y-L. Ying; Z-L. Hu; D-F. Liao; H. Tian et al. 

Nature Nanotechnology. 2016. Vol. 11, num. 50, p. 713-718. DOI : 10.1038/nnano.2016.66.