Nicholas M. Riley
Nicholas M. Riley
Assistant Professor, University of Washington
Verified email at - Homepage
Cited by
Cited by
Lysosome-targeting chimaeras for degradation of extracellular proteins
SM Banik, K Pedram, S Wisnovsky, G Ahn, NM Riley, CR Bertozzi
Nature 584 (7820), 291-297, 2020
Phosphoproteomics in the age of rapid and deep proteome profiling
NM Riley, JJ Coon
Analytical chemistry 88 (1), 74-94, 2016
LYTACs that engage the asialoglycoprotein receptor for targeted protein degradation
G Ahn, SM Banik, CL Miller, NM Riley, JR Cochran, CR Bertozzi
Nature chemical biology 17 (9), 937-946, 2021
Mitochondrial protein hyperacetylation in the failing heart
JL Horton, OJ Martin, L Lai, NM Riley, AL Richards, RB Vega, TC Leone, ...
JCI insight 1 (2), 2016
Capturing site-specific heterogeneity with large-scale N-glycoproteome analysis
NM Riley, AS Hebert, MS Westphall, JJ Coon
Nature communications 10, 1311, 2019
Optimal Dissociation Methods Differ for N- and O-Glycopeptides
NM Riley, SA Malaker, MD Driessen, CR Bertozzi
Journal of proteome research 19 (8), 3286-3301, 2020
A pragmatic guide to enrichment strategies for mass spectrometry–based glycoproteomics
NM Riley, CR Bertozzi, SJ Pitteri
Molecular & Cellular Proteomics 20, 2021
The role of electron transfer dissociation in modern proteomics
NM Riley, JJ Coon
Analytical Chemistry 90 (1), 40-64, 2018
Interactive peptide spectral annotator: a versatile web-based tool for proteomic applications
DR Brademan, NM Riley, NW Kwiecien, JJ Coon
Molecular & Cellular Proteomics 18 (8), S193-S201, 2019
O-Pair Search with MetaMorpheus for O-glycopeptide characterization
L Lu*, NM Riley*, MR Shortreed, CR Bertozzi, LM Smith
Nature Methods 17, 1133–1138, 2020
I Bagdonaite*, SA Malaker*, DA Polasky*, NM Riley*, K Schjoldager, ...
Nature Reviews Methods Primers 2 (1), 1-29, 2022
Genome-wide CRISPR screens reveal a specific ligand for the glycan-binding immune checkpoint receptor Siglec-7
S Wisnovsky, L Möckl, SA Malaker, K Pedram, GT Hess, NM Riley, ...
Proceedings of the National Academy of Sciences 118 (5), e2015024118, 2021
Activated ion electron transfer dissociation for improved fragmentation of intact proteins
NM Riley, MS Westphall, JJ Coon
Analytical chemistry 87 (14), 7109-7116, 2015
Cell type-selective secretome profiling in vivo
W Wei*, NM Riley*, AC Yang, JT Kim, SM Terrell, VL Li, ...
Nature Chemical Biology 17, 326–334, 2021
Activated ion-electron transfer dissociation enables comprehensive top-down protein fragmentation
NM Riley, MS Westphall, JJ Coon
Journal of proteome research 16 (7), 2653-2659, 2017
Enhanced dissociation of intact proteins with high capacity electron transfer dissociation
NM Riley, C Mullen, CR Weisbrod, S Sharma, MW Senko, V Zabrouskov, ...
Journal of The American Society for Mass Spectrometry 27 (3), 520-531, 2015
Improved precursor characterization for data-dependent mass spectrometry
AS Hebert, C Thöing, NM Riley, NW Kwiecien, E Shiskova, R Huguet, ...
Analytical chemistry 90 (3), 2333-2340, 2018
Sequencing larger intact proteins (30-70 kDa) with activated ion electron transfer dissociation
NM Riley, MS Westphall, JJ Coon
Journal of the American Society for Mass Spectrometry 29 (1), 140-149, 2017
Broad and thematic remodeling of the surfaceome and glycoproteome on isogenic cells transformed with driving proliferative oncogenes
KK Leung, GM Wilson, LL Kirkemo, NM Riley, JJ Coon, JA Wells
Proceedings of the National Academy of Sciences 117 (14), 7764-7775, 2020
The negative mode proteome with activated ion negative electron transfer dissociation (AI-NETD)
NM Riley, RM JP, CM Rose, AL Richards, NW Kwiecien, DJ Bailey, ...
Molecular & Cellular Proteomics 14 (10), 2644-2660, 2015
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