Scalable high-density peptide arrays for comprehensive health monitoring

Joseph Barten Legutki; Zhan-Gong Zhao; Matt Greving; Neal Woodbury; Stephen Johnston; Phillip Stafford

doi:10.1038/ncomms5785

Scalable high-density peptide arrays for comprehensive health monitoring

Joseph Barten Legutki, Zhan-Gong Zhao, Matt Greving, Neal Woodbury, Stephen Johnston, Phillip Stafford

Research output: Contribution to journal › Article › peer-review

80 Scopus citations

Abstract

There is an increasing awareness that health care must move from post-symptomatic treatment to presymptomatic intervention. An ideal system would allow regular inexpensive monitoring of health status using circulating antibodies to report on health fluctuations. Recently, we demonstrated that peptide microarrays can do this through antibody signatures (immunosignatures). Unfortunately, printed microarrays are not scalable. Here we demonstrate a platform based on fabricating microarrays (∼10M peptides per slide, 330,000 peptides per assay) on silicon wafers using equipment common to semiconductor manufacturing. The potential of these microarrays for comprehensive health monitoring is verified through the simultaneous detection and classification of six different infectious diseases and six different cancers. Besides diagnostics, these high-density peptide chips have numerous other applications both in health care and elsewhere.

Original language	English (US)
Article number	4785
Journal	Nature communications
Volume	5
DOIs	https://doi.org/10.1038/ncomms5785
State	Published - Sep 3 2014

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
Physics and Astronomy(all)

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10.1038/ncomms5785

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title = "Scalable high-density peptide arrays for comprehensive health monitoring",

abstract = "There is an increasing awareness that health care must move from post-symptomatic treatment to presymptomatic intervention. An ideal system would allow regular inexpensive monitoring of health status using circulating antibodies to report on health fluctuations. Recently, we demonstrated that peptide microarrays can do this through antibody signatures (immunosignatures). Unfortunately, printed microarrays are not scalable. Here we demonstrate a platform based on fabricating microarrays (∼10M peptides per slide, 330,000 peptides per assay) on silicon wafers using equipment common to semiconductor manufacturing. The potential of these microarrays for comprehensive health monitoring is verified through the simultaneous detection and classification of six different infectious diseases and six different cancers. Besides diagnostics, these high-density peptide chips have numerous other applications both in health care and elsewhere.",

author = "Legutki, {Joseph Barten} and Zhan-Gong Zhao and Matt Greving and Neal Woodbury and Stephen Johnston and Phillip Stafford",

note = "Funding Information: Chemical Biological Technologies Directorate contracts HDTRA-11-1-0010, HDTRA1-12-C-0058 from the Department of Defense DTRA to S.A.J. and a DoD/CDRMP Innovator Award to S.A.J. This material is based upon the work supported by the National Science Foundation under grant numbers MCB-1243082 and MCB-940914 to N.W. and discretionary funds to S.A.J. and N.W. HealthTell Inc. supported part of this work through a sponsored research grant to Z.-G.Z.",

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doi = "10.1038/ncomms5785",

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AU - Zhao, Zhan-Gong

AU - Greving, Matt

AU - Woodbury, Neal

AU - Johnston, Stephen

AU - Stafford, Phillip

N1 - Funding Information: Chemical Biological Technologies Directorate contracts HDTRA-11-1-0010, HDTRA1-12-C-0058 from the Department of Defense DTRA to S.A.J. and a DoD/CDRMP Innovator Award to S.A.J. This material is based upon the work supported by the National Science Foundation under grant numbers MCB-1243082 and MCB-940914 to N.W. and discretionary funds to S.A.J. and N.W. HealthTell Inc. supported part of this work through a sponsored research grant to Z.-G.Z.

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Scalable high-density peptide arrays for comprehensive health monitoring

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ASJC Scopus subject areas

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