Artikel dengan mandat akses publik - Richard D SmithPelajari lebih lanjut
Tidak tersedia di mana pun: 1
Activated ClpP kills persisters and eradicates a chronic biofilm infection
BP Conlon, ES Nakayasu, LE Fleck, MD LaFleur, VM Isabella, K Coleman, ...
Nature 503 (7476), 365-370, 2013
Mandat: US National Institutes of Health
Mengundurkan diri: 3
Quantitative analysis of human salivary gland‐derived intact proteome using top‐down mass spectrometry
S Wu, JN Brown, N Tolić, D Meng, X Liu, H Zhang, R Zhao, RJ Moore, ...
Proteomics 14 (10), 1211-1222, 2014
Mandat: US National Institutes of Health
Penyusun yang bertanggung jawab: L Paša‐Tolić
Capillary isotachophoresis-nanoelectrospray ionization-selected reaction monitoring MS via a novel sheathless interface for high sensitivity sample quantification
C Wang, CS Lee, RD Smith, K Tang
Analytical chemistry 85 (15), 7308-7315, 2013
Mandat: US National Institutes of Health
Penyusun yang bertanggung jawab: K Tang
Improving collision induced dissociation (CID), high energy collision dissociation (HCD), and electron transfer dissociation (ETD) fourier transform MS/MS degradome–peptidome …
Y Shen, N Tolic, SO Purvine, RD Smith
Journal of proteome research 11 (2), 668-677, 2012
Mandat: US National Institutes of Health
Penyusun yang bertanggung jawab: Y Shen
Tersedia di suatu tempat: 472
Genomic responses in mouse models poorly mimic human inflammatory diseases
J Seok, HS Warren, AG Cuenca, MN Mindrinos, HV Baker, W Xu, ...
Proceedings of the National Academy of Sciences 110 (9), 3507-3512, 2013
Mandat: US National Institutes of Health
Integrated proteogenomic characterization of human high-grade serous ovarian cancer
H Zhang, T Liu, Z Zhang, SH Payne, B Zhang, JE McDermott, JY Zhou, ...
Cell 166 (3), 755-765, 2016
Mandat: US Department of Energy, US National Institutes of Health
Omic data from evolved E. coli are consistent with computed optimal growth from genome‐scale models
NE Lewis, KK Hixson, TM Conrad, JA Lerman, P Charusanti, AD Polpitiya, ...
Molecular systems biology 6 (1), 390, 2010
Mandat: US National Institutes of Health
Comparative analysis of proteome and transcriptome variation in mouse
A Ghazalpour, B Bennett, VA Petyuk, L Orozco, R Hagopian, IN Mungrue, ...
PLoS genetics 7 (6), e1001393, 2011
Mandat: US National Institutes of Health
Proteogenomic analysis of human colon cancer reveals new therapeutic opportunities
S Vasaikar, C Huang, X Wang, VA Petyuk, SR Savage, B Wen, Y Dou, ...
Cell 177 (4), 1035-1049. e19, 2019
Mandat: US Department of Energy, US National Institutes of Health
Fundamentals of traveling wave ion mobility spectrometry
AA Shvartsburg, RD Smith
Analytical chemistry 80 (24), 9689-9699, 2008
Mandat: US National Institutes of Health
Reversed‐phase chromatography with multiple fraction concatenation strategy for proteome profiling of human MCF10A cells
Y Wang, F Yang, MA Gritsenko, Y Wang, T Clauss, T Liu, Y Shen, ...
Proteomics 11 (10), 2019-2026, 2011
Mandat: US National Institutes of Health
Nanodroplet processing platform for deep and quantitative proteome profiling of 10–100 mammalian cells
Y Zhu, PD Piehowski, R Zhao, J Chen, Y Shen, RJ Moore, AK Shukla, ...
Nature communications 9 (1), 882, 2018
Mandat: US Department of Energy, US National Institutes of Health, Juvenile Diabetes …
An interlaboratory evaluation of drift tube ion mobility–mass spectrometry collision cross section measurements
SM Stow, TJ Causon, X Zheng, RT Kurulugama, T Mairinger, JC May, ...
Analytical chemistry 89 (17), 9048-9055, 2017
Mandat: US Department of Energy, US Department of Defense, US National Institutes of …
Mass spectrometry-based proteomics: existing capabilities and future directions
TE Angel, UK Aryal, SM Hengel, ES Baker, RT Kelly, EW Robinson, ...
Chemical Society Reviews 41 (10), 3912-3928, 2012
Mandat: US National Institutes of Health
A perspective on the Maillard reaction and the analysis of protein glycation by mass spectrometry: probing the pathogenesis of chronic disease
Q Zhang, JM Ames, RD Smith, JW Baynes, TO Metz
Journal of proteome research 8 (2), 754-769, 2009
Mandat: US National Institutes of Health
Proteogenomic and metabolomic characterization of human glioblastoma
LB Wang, A Karpova, MA Gritsenko, JE Kyle, S Cao, Y Li, D Rykunov, ...
Cancer cell 39 (4), 509-528. e20, 2021
Mandat: US Department of Energy, US National Institutes of Health
DAnTE: a statistical tool for quantitative analysis of-omics data
AD Polpitiya, WJ Qian, N Jaitly, VA Petyuk, JN Adkins, DG Camp, ...
Bioinformatics 24 (13), 1556-1558, 2008
Mandat: US National Institutes of Health
Temporal proteome and lipidome profiles reveal hepatitis C virus-associated reprogramming of hepatocellular metabolism and bioenergetics
DL Diamond, AJ Syder, JM Jacobs, CM Sorensen, KA Walters, SC Proll, ...
PLoS pathogens 6 (1), e1000719, 2010
Mandat: US National Institutes of Health
Reproducible workflow for multiplexed deep-scale proteome and phosphoproteome analysis of tumor tissues by liquid chromatography–mass spectrometry
P Mertins, LC Tang, K Krug, DJ Clark, MA Gritsenko, L Chen, KR Clauser, ...
Nature protocols 13 (7), 1632-1661, 2018
Mandat: US Department of Energy, US National Institutes of Health
The ion funnel: theory, implementations, and applications
RT Kelly, AV Tolmachev, JS Page, K Tang, RD Smith
Mass spectrometry reviews 29 (2), 294-312, 2010
Mandat: US National Institutes of Health
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