Production of high-complexity frameshift neoantigen peptide microarrays

Luhui Shen; Zhan Gong Zhao; John C. Lainson; Justin R. Brown; Kathryn F. Sykes; Stephen Albert Johnston; Chris W. Diehnelt

doi:10.1039/d0ra05267a

Production of high-complexity frameshift neoantigen peptide microarrays

Luhui Shen, Zhan Gong Zhao, John C. Lainson, Justin R. Brown, Kathryn F. Sykes, Stephen Albert Johnston, Chris W. Diehnelt

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

1 Scopus citations

Abstract

Parallel measurement of large numbers of antigen-antibody interactions are increasingly enabled by peptide microarray technologies. Our group has developed an in situ synthesized peptide microarray of >400 000 frameshift neoantigens using mask-based photolithographic peptide synthesis, to profile patient specific neoantigen reactive antibodies in a single assay. The system produces 208 replicate mircoarrays per wafer and is capable of producing multiple wafers per synthetic lot to routinely synthesize over 300 million peptides simultaneously. In this report, we demonstrate the feasibility of the system for detecting peripheral-blood antibody binding to frameshift neoantigens across multiple synthetic lots.

Original language	English (US)
Pages (from-to)	29675-29681
Number of pages	7
Journal	RSC Advances
Volume	10
Issue number	50
DOIs	https://doi.org/10.1039/d0ra05267a
State	Published - Aug 11 2020

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)

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title = "Production of high-complexity frameshift neoantigen peptide microarrays",

abstract = "Parallel measurement of large numbers of antigen-antibody interactions are increasingly enabled by peptide microarray technologies. Our group has developed an in situ synthesized peptide microarray of >400 000 frameshift neoantigens using mask-based photolithographic peptide synthesis, to profile patient specific neoantigen reactive antibodies in a single assay. The system produces 208 replicate mircoarrays per wafer and is capable of producing multiple wafers per synthetic lot to routinely synthesize over 300 million peptides simultaneously. In this report, we demonstrate the feasibility of the system for detecting peripheral-blood antibody binding to frameshift neoantigens across multiple synthetic lots.",

author = "Luhui Shen and Zhao, {Zhan Gong} and Lainson, {John C.} and Brown, {Justin R.} and Sykes, {Kathryn F.} and Johnston, {Stephen Albert} and Diehnelt, {Chris W.}",

note = "Funding Information: This work was supported by a sponsored research agreement from Calviri, Inc and from funds from the Peptide Array Core in the Center for Innovations in Medicine at Arizona State University. The authors thank James Boyd at HealthTell for synthesis of the peptide arrays used for the surface density studies. Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

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doi = "10.1039/d0ra05267a",

language = "English (US)",

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AU - Shen, Luhui

AU - Zhao, Zhan Gong

AU - Lainson, John C.

AU - Brown, Justin R.

AU - Sykes, Kathryn F.

AU - Johnston, Stephen Albert

AU - Diehnelt, Chris W.

N1 - Funding Information: This work was supported by a sponsored research agreement from Calviri, Inc and from funds from the Peptide Array Core in the Center for Innovations in Medicine at Arizona State University. The authors thank James Boyd at HealthTell for synthesis of the peptide arrays used for the surface density studies. Publisher Copyright: © The Royal Society of Chemistry.

PY - 2020/8/11

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N2 - Parallel measurement of large numbers of antigen-antibody interactions are increasingly enabled by peptide microarray technologies. Our group has developed an in situ synthesized peptide microarray of >400 000 frameshift neoantigens using mask-based photolithographic peptide synthesis, to profile patient specific neoantigen reactive antibodies in a single assay. The system produces 208 replicate mircoarrays per wafer and is capable of producing multiple wafers per synthetic lot to routinely synthesize over 300 million peptides simultaneously. In this report, we demonstrate the feasibility of the system for detecting peripheral-blood antibody binding to frameshift neoantigens across multiple synthetic lots.

AB - Parallel measurement of large numbers of antigen-antibody interactions are increasingly enabled by peptide microarray technologies. Our group has developed an in situ synthesized peptide microarray of >400 000 frameshift neoantigens using mask-based photolithographic peptide synthesis, to profile patient specific neoantigen reactive antibodies in a single assay. The system produces 208 replicate mircoarrays per wafer and is capable of producing multiple wafers per synthetic lot to routinely synthesize over 300 million peptides simultaneously. In this report, we demonstrate the feasibility of the system for detecting peripheral-blood antibody binding to frameshift neoantigens across multiple synthetic lots.

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Production of high-complexity frameshift neoantigen peptide microarrays

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