Daniel Schwartz
Daniel Schwartz
Associate Professor, Department of Physiology and Neurobiology, University of Connecticut
Verified email at - Homepage
Cited by
Cited by
A proteomics approach to understanding protein ubiquitination
J Peng, D Schwartz, JE Elias, CC Thoreen, D Cheng, G Marsischky, ...
Nature biotechnology 21 (8), 921-926, 2003
Large-scale characterization of HeLa cell nuclear phosphoproteins
SA Beausoleil, M Jedrychowski, D Schwartz, JE Elias, J VillÚn, J Li, ...
Proceedings of the National Academy of Sciences 101 (33), 12130-12135, 2004
An iterative statistical approach to the identification of protein phosphorylation motifs from large-scale data sets
D Schwartz, SP Gygi
Nature biotechnology 23 (11), 1391-1398, 2005
CHIP-Hsc70 complex ubiquitinates phosphorylated tau and enhances cell survival
H Shimura, D Schwartz, SP Gygi, KS Kosik
Journal of Biological Chemistry 279 (6), 4869-4876, 2004
Phosphoproteomic analysis of the developing mouse brain
BA Ballif, J Villen, SA Beausoleil, D Schwartz, SP Gygi
Molecular & Cellular Proteomics 3 (11), 1093-1101, 2004
Biological Sequence Motif Discovery Using motif‐x
MF Chou, D Schwartz
Current protocols in bioinformatics 35 (1), 13.15. 1-13.15. 24, 2011
pLogo: a probabilistic approach to visualizing sequence motifs
JP O'Shea, MF Chou, SA Quader, JK Ryan, GM Church, D Schwartz
Nature methods 10 (12), 1211-1212, 2013
DYX1C1 is required for axonemal dynein assembly and ciliary motility
A Tarkar, NT Loges, CE Slagle, R Francis, GW Dougherty, JV Tamayo, ...
Nature genetics 45 (9), 995-1003, 2013
Extensive phosphorylation with overlapping specificity by Mycobacterium tuberculosis serine/threonine protein kinases
S Prisic, S Dankwa, D Schwartz, MF Chou, JW Locasale, CM Kang, ...
Proceedings of the National Academy of Sciences 107 (16), 7521-7526, 2010
Large-scale phosphoprotein analysis in Medicago truncatula roots provides insight into in vivo kinase activity in legumes
PA Grimsrud, D den Os, CD Wenger, DL Swaney, D Schwartz, ...
Plant physiology 152 (1), 19-28, 2010
Predicting protein post-translational modifications using meta-analysis of proteome scale data sets
D Schwartz, MF Chou, GM Church
Molecular & Cellular Proteomics 8 (2), 365-379, 2009
The canine minute virus (minute virus of canines) is a distinct parvovirus that is most similar to bovine parvovirus
D Schwartz, B Green, LE Carmichael, CR Parrish
Virology 302 (2), 219-223, 2002
Identification of 14-3-3ε substrates from embryonic murine brain
BA Ballif, Z Cao, D Schwartz, KL Carraway, SP Gygi
Journal of proteome research 5 (9), 2372-2379, 2006
Ultraconserved elements: analyses of dosage sensitivity, motifs and boundaries
CWK Chiang, A Derti, D Schwartz, MF Chou, JN Hirschhorn
Genetics 180 (4), 2277-2293, 2008
Protein kinases PknA and PknB independently and coordinately regulate essential Mycobacterium tuberculosis physiologies and antimicrobial susceptibility
J Zeng, J Platig, TY Cheng, S Ahmed, Y Skaf, LP Potluri, D Schwartz, ...
PLoS pathogens 16 (4), e1008452, 2020
An autophosphorylation site database for leucine‐rich repeat receptor‐like kinases in Arabidopsis thaliana
SK Mitra, R Chen, M Dhandaydham, X Wang, RK Blackburn, U Kota, ...
The Plant Journal 82 (6), 1042-1060, 2015
Collection and motif-based prediction of phosphorylation sites in human viruses
D Schwartz, GM Church
Science Signaling 3 (137), rs2-rs2, 2010
Using Bacteria to Determine Protein Kinase Specificity and Predict Target Substrates
MF Chou, S Prisic, JM Lubner, GM Church, RN Husson, D Schwartz
PloS one 7 (12), e52747, 2012
Transphosphorylation of E. coli proteins during production of recombinant protein kinases provides a robust system to characterize kinase specificity
X Wu, MH Oh, HS Kim, D Schwartz, BS Imai, PM Yau, SD Clouse, ...
Frontiers in Plant Science 3, 2012
Prediction of lysine post-translational modifications using bioinformatic tools
D Schwartz
Essays in Biochemistry 52 (1), 165-177, 2012
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