- Accurate de novo design of hyperstable constrained peptides.
Bhardwaj G, Mulligan VK, Bahl CD, Gilmore JM, Harvey PJ, Cheneval O, Buchko GW, Pulavarti SV, Kaas Q, Eletsky A, Huang PS, Johnsen WA, Greisen PJ, Rocklin GJ, Song Y, Linsky TW, Watkins A, Rettie SA, Xu X, Carter LP, Bonneau R, Olson JM, Coutsias E, Correnti CE, SZYPERSKI T, Craik DJ, Baker D
NESG, Nature (2016) 538:329-335
(Details)(Pubmed ID: 27626386)
Times cited: 59 - Design of structurally distinct proteins using strategies inspired by evolution.
Jacobs TM, Williams B, Williams T, Xu X, Eletsky A, Federizon JF, SZYPERSKI T, Kuhlman B
NESG, Science (2016) 352:687-90
(Details)(Pubmed ID: 27151863)
Times cited: 29 - A community resource of experimental data for NMR / X-ray crystal structure pairs.
Everett JK, Tejero R, Murthy SB, Acton TB, Aramini JM, Baran MC, Benach J, Cort JR, Eletsky A, Forouhar F, Guan R, Kuzin AP, Lee HW, Liu G, Mani R, Mao B, Mills JL, Montelione AF, Pederson K, Powers R, Ramelot T, Rossi P, Seetharaman J, Snyder D, Swapna GV, Vorobiev SM, Wu Y, Xiao R, Yang Y, Arrowsmith CH, Hunt JF, Kennedy MA, Prestegard JH, SZYPERSKI T, Tong L, Montelione GT
NESG, Protein Science (2016) 25:30-45
(Details)(Pubmed ID: 26293815)
Times cited: 4 - Solution NMR Experiment for Measurement of (15)N-(1)H Residual Dipolar Couplings in Large Proteins and Supramolecular Complexes.
Eletsky A, Pulavarti SV, Beaumont V, Gollnick P, SZYPERSKI T
NESG, Journal of the American Chemical Society (2015) 137:11242-5
(Details)(Pubmed ID: 26293598)
Times cited: 3 - Computational de novo design of a four-helix bundle protein--DND_4HB.
Murphy GS, Sathyamoorthy B, Der BS, Machius MC, Pulavarti SV, SZYPERSKI T, Kuhlman B
NESG, Protein Science (2015) 24:434-45
(Details)(Pubmed ID: 25287625)
PDB ID(s): 21SE 1RJ1 2QSB 2ZRR
Times cited: 9 - Structural and Functional Characterization of DUF1471 Domains of Salmonella Proteins SrfN, YdgH/SssB, and YahO.
Eletsky A, Michalska K, Houliston S, Zhang Q, Daily MD, Xu X, Cui H, Yee A, Lemak A, Wu B, Garcia M, Burnet MC, Meyer KM, Aryal UK, Sanchez O, Ansong C, Xiao R, Acton TB, Adkins JN, Montelione GT, Joachimiak A, Arrowsmith CH, Savchenko A, SZYPERSKI T, Cort JR
MCSG+NESG+PCSEP, PLoS ONE (2014) 9:e101787
(Details)(Pubmed ID: 25010333)
PDB ID(s): 4EVU
Times cited: 4 - Solution NMR structures of immunoglobulin-like domains 7 and 12 from obscurin-like protein 1 contribute to the structural coverage of the human cancer protein interaction network.
Pulavarti SV, Huang YJ, Pederson K, Acton TB, Xiao R, Everett JK, Prestegard JH, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2014) 15:209-14
(Details)(Pubmed ID: 24989974)
Times cited: 0 - Solution NMR structures of homeodomains from human proteins ALX4, ZHX1, and CASP8AP2 contribute to the structural coverage of the Human Cancer Protein Interaction Network.
Xu X, Pulavarti SV, Eletsky A, Huang YJ, Acton TB, Xiao R, Everett JK, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2014) 15:201-7
(Details)(Pubmed ID: 24941917)
Times cited: 1 - Spatially selective heteronuclear multiple-quantum coherence spectroscopy for biomolecular NMR studies.
Sathyamoorthy B, Parish DM, Montelione GT, Xiao R, SZYPERSKI T
NESG, Chemphyschem : a European journal of chemical physics and physical chemistry (2014) 15:1872-9
(Details)(Pubmed ID: 24789578)
Times cited: 5 - Polypeptide backbone, C(β) and methyl group resonance assignments of the 24 kDa plectin repeat domain 6 from human protein plectin.
Pulavarti SV, Eletsky A, Huang YJ, Acton TB, Xiao R, Everett JK, Montelione GT, SZYPERSKI T
NESG, Biomolecular NMR Assignments (2014) 9:135-8
(Details)(Pubmed ID: 24722902)
Times cited: 0 - Identification of low-molecular-weight compounds inhibiting growth of corynebacteria: potential lead compounds for antibiotics.
Stark JL, Copeland JC, Eletsky A, Somerville GA, SZYPERSKI T, Powers R
NESG, ChemMedChem (2014) 9:282-5
(Details)(Pubmed ID: 24403054)
Times cited: 3 - Solution NMR structure of CD1104B from pathogenic Clostridium difficile reveals a distinct α-helical architecture and provides first structural representative of protein domain family PF14203.
Pulavarti SV, Eletsky A, Lee HW, Acton TB, Xiao R, Everett JK, Prestegard JH, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2013) 14:155-60
(Details)(Pubmed ID: 24048810)
Times cited: 0 - Solution NMR structures provide first structural coverage of the large protein domain family PF08369 and complementary structural coverage of dark operative protochlorophyllide oxidoreductase complexes.
Pulavarti SV, He Y, Feldmann EA, Eletsky A, Acton TB, Xiao R, Everett JK, Montelione GT, Kennedy MA, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2013) 14:119-26
(Details)(Pubmed ID: 23963952)
Times cited: 0 - Solution NMR structure of the helicase associated domain BVU_0683(627-691) from Bacteroides vulgatus provides first structural coverage for protein domain family PF03457 and indicates domain binding to DNA.
Mills JL, Acton TB, Xiao R, Everett JK, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2013) 14:19-24
(Details)(Pubmed ID: 23160728)
Times cited: 0 - Alteration of the oxygen-dependent reactivity of de novo Due Ferri proteins.
Reig AJ, Pires MM, Snyder RA, Wu Y, Jo H, Kulp DW, Butch SE, Calhoun JR, SZYPERSKI TG, Solomon EI, Degrado WF
NESG, Nature chemistry (2012) 4:900-6
(Details)(Pubmed ID: 23089864)
Times cited: 63 - Solution NMR structure of yeast succinate dehydrogenase flavinylation factor Sdh5 reveals a putative Sdh1 binding site.
Eletsky A, Jeong MY, Kim H, Lee HW, Xiao R, Pagliarini DJ, Prestegard JH, Winge DR, Montelione GT, SZYPERSKI T
MPP+NESG, Biochemistry (2012) 51:8475-7
(Details)(Pubmed ID: 23062074)
PDB ID(s): 2LM4
Times cited: 16 - NMR Structure of Lipoprotein YxeF from Bacillus subtilis Reveals a Calycin Fold and Distant Homology with the Lipocalin Blc from Escherichia coli.
Wu Y, Punta M, Xiao R, Acton TB, Sathyamoorthy B, Dey F, Fischer M, Skerra A, Rost B, Montelione GT, SZYPERSKI T
NESG, PLoS ONE (2012) 7:e37404
(Details)(Pubmed ID: 22693626)
Times cited: 3 - Accurate protein structure modeling using sparse NMR data and homologous structure information.
Thompson JM, Sgourakis NG, Liu G, Rossi P, Tang Y, Mills JL, SZYPERSKI T, Montelione GT, Baker D
NESG, Proceedings of the National Academy of Sciences of the United States of America (2012) 109:9875-80
(Details)(Pubmed ID: 22665781)
Times cited: 24 - Increasing sequence diversity with flexible backbone protein design: the complete redesign of a protein hydrophobic core.
Murphy GS, Mills JL, Miley MJ, Machius M, SZYPERSKI T, Kuhlman B
NESG, Structure (2012) 20:1086-96
(Details)(Pubmed ID: 22632833)
Times cited: 26 - Blind testing of routine, fully automated determination of protein structures from NMR data.
Rosato A, Aramini JM, Arrowsmith C, Bagaria A, Baker D, Cavalli A, Doreleijers JF, Eletsky A, Giachetti A, Guerry P, Gutmanas A, Güntert P, He Y, Herrmann T, Huang YJ, Jaravine V, Jonker HR, Kennedy MA, Lange OF, Liu G, Malliavin TE, Mani R, Mao B, Montelione GT, Nilges M, Rossi P, van der Schot G, Schwalbe H, SZYPERSKI TA, Vendruscolo M, Vernon R, Vranken WF, de Vries S, Vuister GW, Wu B, Yang Y, Bonvin AM
NESG, Structure (2012) 20:227-36
(Details)(Pubmed ID: 22325772)
Times cited: 53 - Solution NMR structures reveal unique homodimer formation by a winged helix-turn-helix motif and provide first structures for protein domain family PF10771.
Eletsky A, Petrey D, Zhang QC, Lee HW, Acton TB, Xiao R, Everett JK, Prestegard JH, Honig B, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2012) 13:1-7
(Details)(Pubmed ID: 22223187)
Times cited: 2 - Solution NMR structures reveal a distinct architecture and provide first structures for protein domain family PF04536.
Eletsky A, Acton TB, Xiao R, Everett JK, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2012) 13:9-14
(Details)(Pubmed ID: 22198206)
Times cited: 7 - Metal-mediated affinity and orientation specificity in a computationally designed protein homodimer.
Der BS, Machius M, Miley MJ, Mills JL, SZYPERSKI T, Kuhlman B
NESG, Journal of the American Chemical Society (2012) 134:375-85
(Details)(Pubmed ID: 22092237)
Times cited: 51 - Solution NMR structure of MED25(391-543) comprising the activator-interacting domain (ACID) of human mediator subunit 25.
Eletsky A, Ruyechan WT, Xiao R, Acton TB, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2011) 12:159-66
(Details)(Pubmed ID: 21785987)
Times cited: 9 - The New York Consortium on Membrane Protein Structure (NYCOMPS): a high-throughput platform for structural genomics of integral membrane proteins.
Love J, Mancia F, Shapiro L, Punta M, Rost B, Girvin M, Wang DN, Zhou M, Hunt JF, SZYPERSKI T, Gouaux E, MacKinnon R, McDermott A, Honig B, Inouye M, Montelione G, Hendrickson WA
NESG+NYCOMPS, Journal of Structural and Functional Genomics (2010) 11:191-9
(Details)(Pubmed ID: 20690043)
Times cited: 27 - Computational design of a PAK1 binding protein.
Jha RK, Leaver-Fay A, Yin S, Wu Y, Butterfoss GL, SZYPERSKI T, Dokholyan NV, Kuhlman B
NESG, Journal of Molecular Biology (2010) 400:257-70
(Details)(Pubmed ID: 20460129)
Times cited: 51 - Advances in protein NMR provided by the NIGMS Protein Structure Initiative: impact on drug discovery.
Montelione GT, SZYPERSKI T
NESG, Current Opinion in Drug Discovery (2010) 13:335-49
(Details)(Pubmed ID: 20443167)
Times cited: 7 - NMR structure determination for larger proteins using backbone-only data.
Raman S, Lange OF, Rossi P, Tyka M, Wang X, Aramini J, Liu G, Ramelot TA, Eletsky A, SZYPERSKI T, Kennedy MA, Prestegard J, Montelione GT, Baker D
NESG, Science (2010) 327:1014-8
(Details)(Pubmed ID: 20133520)
Times cited: 169 - Solution NMR structures of proteins VPA0419 from Vibrio parahaemolyticus and yiiS from Shigella flexneri provide structural coverage for protein domain family PFAM 04175.
Singarapu KK, Mills JL, Xiao R, Acton T, Punta M, Fischer M, Honig B, Rost B, Montelione GT, SZYPERSKI T
NESG, Proteins (2010) 78:779-84
(Details)(Pubmed ID: 19927321)
PDB ID(s): 2K3I 2JZ5
Times cited: 0 - Simultaneous prediction of protein folding and docking at high resolution.
Das R, André I, Shen Y, Wu Y, Lemak A, Bansal S, Arrowsmith CH, SZYPERSKI T, Baker D
NESG, Proceedings of the National Academy of Sciences of the United States of America (2009) 106:18978-83
(Details)(Pubmed ID: 19864631)
Times cited: 101 - NMR structure and dynamics of the engineered fluorescein-binding lipocalin FluA reveal rigidification of beta-barrel and variable loops upon enthalpy-driven ligand binding.
Mills JL, Liu G, Skerra A, SZYPERSKI T
NESG, Biochemistry (2009) 48:7411-9
(Details)(Pubmed ID: 19603796)
Times cited: 10 - Clean absorption mode NMR data acquisition based on time-proportional phase incrementation.
Wu Y, Ghosh A, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2009) 10:227-32
(Details)(Pubmed ID: 19499349)
Times cited: 4 - NMR structure of protein YvyC from Bacillus subtilis reveals unexpected structural similarity between two PFAM families.
Eletsky A, Sukumaran DK, Xiao R, Acton TB, Rost B, Montelione GT, SZYPERSKI T
NESG, Proteins (2009) 76:1037-41
(Details)(Pubmed ID: 19455708)
PDB ID(s): 2HC5
Times cited: 0 - Analysis of the varicella-zoster virus IE62 N-terminal acidic transactivating domain and its interaction with the human mediator complex.
Yamamoto S, Eletsky A, SZYPERSKI T, Hay J, Ruyechan WT
NESG, Journal of Virology (2009) 83:6300-5
(Details)(Pubmed ID: 19357160)
Times cited: 21 - Unique opportunities for NMR methods in structural genomics.
Montelione GT, Arrowsmith C, Girvin ME, Kennedy MA, Markley JL, Powers R, Prestegard JH, SZYPERSKI T
CESG+NESG, Journal of Structural and Functional Genomics (2009) 10:101-106
(Details)(Pubmed ID: 19288278)
Times cited: 13 - Clean absorption-mode NMR data acquisition.
Wu Y, Ghosh A, SZYPERSKI T
NESG, Angewandte Chemie International Edition in English (2009) 48:1479-83
(Details)(Pubmed ID: 19140147)
Times cited: 4 - NMR and X-RAY structures of human E2-like ubiquitin-fold modifier conjugating enzyme 1 (UFC1) reveal structural and functional conservation in the metazoan UFM1-UBA5-UFC1 ubiquination pathway.
Liu G, Forouhar F, Eletsky A, Atreya HS, Aramini JM, Xiao R, Huang YJ, Abashidze M, Seetharaman J, Liu J, Rost B, Acton T, Montelione GT, Hunt JF, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2009) 10:127-36
(Details)(Pubmed ID: 19101823)
Times cited: 9 - Protein chaperones Q8ZP25_SALTY from Salmonella typhimurium and HYAE_ECOLI from Escherichia coli exhibit thioredoxin-like structures despite lack of canonical thioredoxin active site sequence motif.
Parish D, Benach J, Liu G, Singarapu KK, Xiao R, Acton T, Su M, Bansal S, Prestegard JH, Hunt J, Montelione GT, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2008) 9:41-9
(Details)(Pubmed ID: 19039680)
PDB ID(s): 2JZT 2HFD
Times cited: 11 - Consistent blind protein structure generation from NMR chemical shift data.
Shen Y, Lange O, Delaglio F, Rossi P, Aramini JM, Liu G, Eletsky A, Wu Y, Singarapu KK, Lemak A, Ignatchenko A, Arrowsmith CH, SZYPERSKI T, Montelione GT, Baker D, Bax A
NESG, Proceedings of the National Academy of Sciences of the United States of America (2008) 105:4685-90
(Details)(Pubmed ID: 18326625)
Times cited: 526 - GFT projection NMR based resonance assignment of membrane proteins: application to subunit C of E. coli F(1)F (0) ATP synthase in LPPG micelles.
Zhang Q, Atreya HS, Kamen DE, Girvin ME, SZYPERSKI T
NYCOMPS, Journal of Biomolecular NMR (2008) 40:157-63
(Details)(Pubmed ID: 18273680)
Times cited: 16 - NMR structure of the peptidyl-tRNA hydrolase domain from Pseudomonas syringae expands the structural coverage of the hydrolysis domains of class 1 peptide chain release factors.
Singarapu KK, Xiao R, Acton T, Rost B, Montelione GT, SZYPERSKI T
NESG, Proteins (2008) 71:1027-31
(Details)(Pubmed ID: 18247350)
PDB ID(s): 2JVA
Times cited: 7 - NMR structure of protein Cgl2762 from Corynebacterium glutamicum implicated in DNA transposition reveals a helix-turn-helix motif attached to a flexibly disordered leucine zipper.
Singarapu KK, Xiao R, Sukumaran DK, Acton T, Montelione GT, SZYPERSKI T
NESG, Proteins (2008) 70:1650-4
(Details)(Pubmed ID: 18175328)
PDB ID(s): 2JN6
Times cited: 0 - NMR structure of protein yjbR from Escherichia coli reveals 'double-wing' DNA binding motif
Singarapu KK, Liu G, Xiao R, Bertonati C, Honig B, Montelione GT, SZYPERSKI T
NESG, Proteins (2007) 67(2):501-4
(Details)(Pubmed ID: 17266124)
PDB ID(s): 2FKI
Times cited: 7 - J-GFT NMR for precise measurement of mutually correlated nuclear spin-spin couplings.
Atreya HS, Garcia E, Shen Y, SZYPERSKI T
NESG+NYCOMPS, Journal of the American Chemical Society (2007) 129(3):680-92
(Details)(Pubmed ID: 17227032)
Times cited: 24 - NMR structure of protein PA2021 from Pseudomonas aeruginosa.
Lin YC, Liu G, Shen Y, Bertonati C, Yee A, Honig B, Arrowsmith CH, SZYPERSKI T
NESG, Proteins (2006) 65(3):767-70
(Details)(Pubmed ID: 16927296)
PDB ID(s): 1YWY 1QQG 1EVH 1K5D 1BTN 1DRO
Times cited: 1 - Principles and applications of GFT projection NMR spectroscopy.
SZYPERSKI T, Atreya HS
NESG, Magnetic Resonance in Chemistry (2006) 44 Spec No(4):S51-60
(Details)(Pubmed ID: 16826541)
Times cited: 35 - Principles and applications of GFT projection NMR spectroscopy.
SZYPERSKI T, Atreya HS
NESG, Magnetic resonance in chemistry : MRC (2006) 44:S51-60
(Details)(Pubmed ID: 16826541)
Times cited: 35 - NMR structure of protein yqbG from Bacillus subtilis reveals a novel alpha-helical protein fold.
Liu G, Shen Y, Xiao R, Acton T, Ma LC, Joachimiak A, Montelione GT, SZYPERSKI T
MCSG+NESG, Proteins (2006) 62:288-91
(Details)(Pubmed ID: 16281282)
PDB ID(s): 1ZTS
Times cited: 2 - Probing structure and functional dynamics of (large) proteins with aromatic rings: L-GFT-TROSY (4,3)D HCCH NMR spectroscopy.
Eletsky A, Atreya HS, Liu G, SZYPERSKI T
NESG, Journal of the American Chemical Society (2005) 127(42):14578-9
(Details)(Pubmed ID: 16231903)
Times cited: 24 - GFT NMR based resonance assignment for the 21 kDa human protein UFC1.
Liu G, Aramini J, Atreya HS, Eletsky A, Xiao R, Acton T, Ma L, Montelione GT, SZYPERSKI T
NESG, Journal of Biomolecular NMR (2005) 32(3):261
(Details)(Pubmed ID: 16132835)
PDB ID(s): 2K07
Times cited: 11 - NMR data collection and analysis protocol for high-throughput protein structure determination.
Liu G, Shen Y, Atreya HS, Parish D, Shao Y, Sukumaran DK, Xiao R, Yee A, Lemak A, Bhattacharya A, Acton TA, Arrowsmith CH, Montelione GT, SZYPERSKI T
NESG, Proceedings of the National Academy of Sciences of the United States of America (2005) 102(30):10487-92
(Details)(Pubmed ID: 16027363)
PDB ID(s): 1XPV
Times cited: 97 - A structure-based model of the c-Myc/Bin1 protein interaction shows alternative splicing of Bin1 and c-Myc phosphorylation are key binding determinants.
Pineda-Lucena A, Ho CS, Mao DY, Sheng Y, Laister RC, Muhandiram R, Lu Y, Seet BT, Katz S, SZYPERSKI T, Penn LZ, Arrowsmith CH
NESG, Journal of Molecular Biology (2005) 351(1):182-94
(Details)(Pubmed ID: 15992821)
PDB ID(s): 1MUZ 1MV0 1MV3
Times cited: 50 - G-matrix Fourier transform NOESY-based protocol for high-quality protein structure determination.
Shen Y, Atreya HS, Liu G, SZYPERSKI T
NESG, Journal of the American Chemical Society (2005) 127(25):9085-99
(Details)(Pubmed ID: 15969587)
Times cited: 49 - NMR solution structure of Thermotoga maritima protein TM1509 reveals a Zn-metalloprotease-like tertiary structure.
Penhoat CH, Li Z, Atreya HS, Kim S, Yee A, Xiao R, Murray D, Arrowsmith CH, SZYPERSKI T
NESG, Journal of Structural and Functional Genomics (2005) 6(1):51-62
(Details)(Pubmed ID: 15965736)
PDB ID(s): 1TVI
Times cited: 13 - High-quality homology models derived from NMR and X-ray structures of E. coli proteins YgdK and Suf E suggest that all members of the YgdK/Suf E protein family are enhancers of cysteine desulfurases.
Liu G, Li Z, Chiang Y, Acton T, Montelione GT, Murray D, SZYPERSKI T
NESG, Protein Science (2005) 14(6):1597-608
(Details)(Pubmed ID: 15930006)
PDB ID(s): 1NI7
Times cited: 28 - An integrated platform for automated analysis of protein NMR structures.
Huang YJ, Moseley HN, Baran MC, Arrowsmith C, Powers R, Tejero R, SZYPERSKI T, Montelione GT
NESG, Methods in Enzymology (2005) 394(3):111-41
(Details)(Pubmed ID: 15808219)
Times cited: 59 - Rapid NMR data collection.
Atreya HS, SZYPERSKI T
NESG, Methods in Enzymology (2005) 394(1):78-108
(Details)(Pubmed ID: 15808218)
Times cited: 80 - Resonance assignment of proteins with high shift degeneracy based on 5D spectral information encoded in G2FT NMR experiments.
Atreya HS, Eletsky A, SZYPERSKI T
NESG, Journal of the American Chemical Society (2005) 127(13):4554-5
(Details)(Pubmed ID: 15796503)
Times cited: 33 - NMR structure of the 18 kDa protein CC1736 from Caulobacter crescentus identifies a member of the START domain superfamily and suggests residues mediating substrate specificity.
Shen Y, Goldsmith-Fischman S, Atreya HS, Acton T, Ma L, Xiao R, Honig B, Montelione GT, SZYPERSKI T
NESG, Proteins (2005) 58(3):747-50
(Details)(Pubmed ID: 15616961)
PDB ID(s): 1T17 1BV1 3PMG 1JSS 1FVZ 1SJW
Times cited: 13 - Protein NMR spectroscopy
SZYPERSKI T
NESG, Encyclopedia of Molecular Cell Biology and Molecular Medicine Wiley-CH, Weinheim [Books and Proceedings] (2005)
(Details)
Times cited: 0 - A generalized approach to automated NMR peak list editing: application to reduced dimensionality triple resonance spectra.
Moseley HN, Riaz N, Aramini JM, SZYPERSKI T, Montelione GT
NESG, Journal of Magnetic Resonance (2004) 170(2):263-77
(Details)(Pubmed ID: 15388090)
Times cited: 33 - Resonance assignments for the 18 kDa protein CC1736 from Caulobacter crescentus.
Shen Y, Atreya HS, Xiao R, Acton TB, Shastry R, Ma L, Montelione GT, SZYPERSKI T
NESG, Journal of Biomolecular NMR (2004) 29:549-50
(Details)(Pubmed ID: 15243193)
PDB ID(s): 1T17
Times cited: 3 - G-matrix Fourier transform NMR spectroscopy for complete protein resonance assignment.
Atreya HS, SZYPERSKI T
NESG, Proceedings of the National Academy of Sciences of the United States of America (2004) 101(26):9642-7
(Details)(Pubmed ID: 15210958)
Times cited: 113 - NMR structure of the hypothetical protein NMA1147 from Neisseria meningitidis reveals a distinct 5-helix bundle.
Liu G, Sukumaran DK, Xu D, Chiang Y, Acton T, Goldsmith-Fischman S, Honig B, Montelione GT, SZYPERSKI T
NESG, Proteins (2004) 55(3):756-8
(Details)(Pubmed ID: 15103637)
PDB ID(s): 1PUZ
Times cited: 6 - The NMR solution structure of the 30S ribosomal protein S27e encoded in gene RS27_ARCFU of Archaeoglobus fulgidis reveals a novel protein fold.
Herve du Penhoat C, Atreya HS, Shen Y, Liu G, Acton TB, Xiao R, Li Z, Murray D, Montelione GT, SZYPERSKI T
NESG, Protein Science (2004) 13(5):1407-16
(Details)(Pubmed ID: 15096641)
PDB ID(s): 1QXF
Times cited: 13 - NMR structure of the hypothetical protein AQ-1857 encoded by the Y157 gene from Aquifex aeolicus reveals a novel protein fold.
Xu D, Liu G, Xiao R, Acton T, Goldsmith-Fischman S, Honig B, Montelione GT, SZYPERSKI T
NESG, Proteins (2004) 54(4):794-6
(Details)(Pubmed ID: 14997575)
PDB ID(s): 1NWB
Times cited: 7 - GFT NMR experiments for polypeptide backbone and 13Cbeta chemical shift assignment.
Kim S, SZYPERSKI T
NESG, Journal of Biomolecular NMR (2004) 28(2):117-30
(Details)(Pubmed ID: 14755156)
Times cited: 43 - Backbone 1H, 15N and 13C assignments for the 21 kDa Caenorhabditis elegans homologue of "brain-specific" protein.
Monleón D, Chiang Y, Aramini JM, Swapna GV, Macapagal D, Gunsalus KC, Kim S, SZYPERSKI T, Montelione GT
NESG, Journal of Biomolecular NMR (2004) 28(1):91-2
(Details)(Pubmed ID: 14739645)
PDB ID(s): 1PUL
Times cited: 7 - Resonance assignments for the hypothetical protein yggU from Escherichia coli.
Aramini JM, Mills JL, Xiao R, Acton TB, Wu MJ, SZYPERSKI T, Montelione GT
NESG, Journal of Biomolecular NMR (2003) 27(3):285-6
(Details)(Pubmed ID: 12975589)
PDB ID(s): 1N91
Times cited: 5 - GFT NMR, a new approach to rapidly obtain precise high-dimensional NMR spectral information.
Kim S, SZYPERSKI T
NESG, Journal of the American Chemical Society (2003) 125(5):1385-93
(Details)(Pubmed ID: 12553842)
Times cited: 316 - Rapid analysis of protein backbone resonance assignments using cryogenic probes, a distributed Linux-based computing architecture, and an integrated set of spectral analysis tools.
Monleón D, Colson K, Moseley HN, Anklin C, Oswald R, SZYPERSKI T, Montelione GT
NESG, Journal of Structural and Functional Genomics (2002) 2(2):93-101
(Details)(Pubmed ID: 12836666)
Times cited: 36 - Novel projected 4D triple resonance experiments for polypeptide backbone chemical shift assignment.
Xia Y, Arrowsmith CH, SZYPERSKI T
NESG, Journal of Biomolecular NMR (2002) 24(1):41-50
(Details)(Pubmed ID: 12449417)
Times cited: 18 - Reduced-dimensionality NMR spectroscopy for high-throughput protein resonance assignment.
SZYPERSKI T, Yeh DC, Sukumaran DK, Moseley HN, Montelione GT
NESG, Proceedings of the National Academy of Sciences of the United States of America (2002) 99(12):8009-14
(Details)(Pubmed ID: 12060747)
Times cited: 155 - 1H, 13C, and 15N resonance assignments and secondary structure of the PWI domain from SRm160 using reduced dimensionality NMR.
Szymczyna BR, Pineda-Lucena A, Mills JL, SZYPERSKI T, Arrowsmith CH
NESG, Journal of Biomolecular NMR (2002) 22(3):299-300
(Details)(Pubmed ID: 11991360)
Times cited: 4 - Strukturelle Genomik
SZYPERSKI T
NESG, Nachrichten aus der Chemie (2002) 50:1128-31
(Details)
Times cited: 3 - Protein NMR spectroscopy in structural genomics.
Montelione GT, Zheng D, Huang YJ, Gunsalus KC, SZYPERSKI T
NESG, Nature Structural & Molecular Biology (2000) 7 Suppl:982-5
(Details)(Pubmed ID: 11104006)
Times cited: 151
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Average number of citations per publication (): 37.1