Real-time dynamic single-molecule protein sequencing on an integrated semiconductor device
Author:
Reed Brian D.1ORCID, Meyer Michael J.1ORCID, Abramzon Valentin, Ad Omer1, Ad Omer1, Adcock Pat1, Ahmad Faisal R.1ORCID, Alppay Gün1, Ball James A.1ORCID, Beach James1, Belhachemi Dominique1ORCID, Bellofiore Anthony1ORCID, Bellos Michael1, Beltrán Juan Felipe1ORCID, Betts Andrew1, Bhuiya Mohammad Wadud1ORCID, Blacklock Kristin1ORCID, Boer Robert1ORCID, Boisvert David1ORCID, Brault Norman D.1, Buxbaum Aaron1ORCID, Caprio Steve1, Choi Changhoon1ORCID, Christian Thomas D.1, Clancy Robert1, Clark Joseph1, Connolly Thomas1ORCID, Croce Kathren Fink1ORCID, Cullen Richard1, Davey Mel1ORCID, Davidson Jack1ORCID, Elshenawy Mohamed M.1ORCID, Ferrigno Michael1, Frier Daniel1ORCID, Gudipati Saketh1ORCID, Hamill Stephanie1, He Zhaoyu1ORCID, Hosali Sharath1ORCID, Huang Haidong1, Huang Le1, Kabiri Ali1ORCID, Kriger Gennadiy1, Lathrop Brittany1, Li An1, Lim Peter1ORCID, Liu Stephen1ORCID, Luo Feixiang1, Lv Caixia1ORCID, Ma Xiaoxiao1, McCormack Evan1ORCID, Millham Michele1, Nani Roger1, Pandey Manjula1ORCID, Parillo John1, Patel Gayatri1ORCID, Pike Douglas H.1ORCID, Preston Kyle1ORCID, Pichard-Kostuch Adeline2ORCID, Rearick Kyle1ORCID, Rearick Todd1, Ribezzi-Crivellari Marco2ORCID, Schmid Gerard1, Schultz Jonathan1, Shi Xinghua1, Singh Badri1, Srivastava Nikita1ORCID, Stewman Shannon F.ORCID, Thurston TR1ORCID, Thurston T. R.1ORCID, Trioli Philip1ORCID, Tullman Jennifer1ORCID, Wang Xin1, Wang Yen-Chih1, Webster Eric A. G.1, Zhang Zhizhuo1ORCID, Zuniga Jorge1, Patel Smita S.3ORCID, Griffiths Andrew D.2ORCID, van Oijen Antoine M.4ORCID, McKenna Michael1, Dyer Matthew D.1ORCID, Rothberg Jonathan M.1
Affiliation:
1. Quantum-Si, Inc., Guilford, CT 06437, USA. 2. Laboratoire de Biochimie, ESPCI Paris, Université PSL, CNRS UMR 8231, Paris, France. 3. Department of Biochemistry and Molecular Biology, Rutgers University, Piscataway, NJ 08854, USA. 4. Molecular Horizons, University of Wollongong, Wollongong, NSW 2522, Australia.
Abstract
Studies of the proteome would benefit greatly from methods to directly sequence and digitally quantify proteins and detect posttranslational modifications with single-molecule sensitivity. Here, we demonstrate single-molecule protein sequencing using a dynamic approach in which single peptides are probed in real time by a mixture of dye-labeled N-terminal amino acid recognizers and simultaneously cleaved by aminopeptidases. We annotate amino acids and identify the peptide sequence by measuring fluorescence intensity, lifetime, and binding kinetics on an integrated semiconductor chip. Our results demonstrate the kinetic principles that allow recognizers to identify multiple amino acids in an information-rich manner that enables discrimination of single amino acid substitutions and posttranslational modifications. With further development, we anticipate that this approach will offer a sensitive, scalable, and accessible platform for single-molecule proteomic studies and applications.
Publisher
American Association for the Advancement of Science (AAAS)
Subject
Multidisciplinary
Cited by
46 articles.
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