Skip NavigationSkip to Content

NCI at Frederick Scientific Publications Advanced Search

Search

  1. NCI-F Publications

  2. Return to Quick Search
Search
  2. Year Published:

Your search returned 27 results.
User Information
Export Records
  1. 1.   Modulation of the Substrate Preference of a MYST Acetyltransferase by a Scaffold Protein
  2. Sengupta, Raghuvir N; Brodsky, Oleg; Bingham, Patrick; Diehl, Wade C; Ferre, RoseAnn; Greasley, Samantha E; Johnson, Eric; Kraus, Michelle; Lieberman, Whitney; Meier,Jordan; Paul, Thomas A; Maegley, Karen A
  3. The Journal of Biological Chemistry. 2025, Feb 03; 108262.
  1. 2.   Revealing the mechanism of action of a first-in-class covalent inhibitor of KRASG12C (ON) and other functional properties of oncogenic KRAS by 31P NMR
  2. Sharma,Alok; Pei, Jun; Yang, Yue; Dyba,Marcin; Smith,Brian; Rabara,Dana; Larsen,Erik; Lightstone, Felice C; Esposito,Dom; Stephen,Andy; Wang, Bin; Beltran, Pedro J; Wallace, Eli; Nissley,Dwight; McCormick, Frank; Maciag,Anna
  3. The Journal of Biological Chemistry. 2024, Jan 16; 300(2): 105650.
  1. 3.   Polycistronic baculovirus expression of SUGT1 enables high-yield production of recombinant leucine-rich repeat proteins and protein complexes
  2. Snead,Kelly; Wall,Vanessa; Ambrose,Hannah; Esposito,Dom; Drew,Matt
  3. Protein Expression and Purification. 2022, Feb 04; 193: 106061.
  1. 4.   Structural insights into the function of the catalytically active human Taspase1
  2. Nagaratnam, Nirupa; Delker, Silvia L.; Jernigan, Rebecca; Edwards, Thomas E.; Snider, Janey; Thifault, Darren; Williams, Dewight; Nannenga, Brent L.; Stofega, Mary; Sambucetti, Lidia; Hsieh, James J.; Flint,Andrew; Fromme, Petra; Martin-Garcia, Jose M.
  3. Structure. 2021, Aug 5; 29(8): 873-+.
  1. 5.   Integrating data and knowledge to identify functional modules of genes: a multilayer approach
  2. Liang, Lifan; Chen,Vicky; Zhu, Kunju; Fan, Xiaonan; Lu, Xinghua; Lu, Songjian
  3. BMC bioinformatics. 2019, May 02; 20(1): 225.
  1. 6.   Crystal structures of the complex of a kallikrein inhibitor from Bauhinia bauhinioides with trypsin and modeling of kallikrein complexes
  2. Li, Mi; Srp, Jaroslav; Gustchina, Alla; Dauter, Zbigniew; Mares, Michael; Wlodawer, Alexander
  3. Acta crystallographica. Section D, Structural biology. 2019, Jan 01; 75(Pt 1): 56-69.
  1. 7.   Structural analyses of 4-phosphate adaptor protein 2 yield mechanistic insights into sphingolipid recognition by the glycolipid transfer protein family
  2. Ochoa-Lizarralde, Borja; Gao, Yong-Guang; Popov, Alexander N; Samygina, Valeria R; Zhai, Xiuhong; Mishra, Shrawan K; Boldyrev, Ivan A; Molotkovsky, Julian G; Simanshu, Dhirendra; Patel, Dinshaw J; Brown, Rhoderick E; Malinina, Lucy
  3. Journal of Biological Chemistry. 2018, Sep 11; pii: jbc.RA117.000733.
  1. 8.   PRISM-EM: template interface-based modelling of multi-protein complexes guided by cryo-electron microscopy density maps (vol 72, pg 1137, 2016)
  2. Kuzu, Guray; Keskin, Ozlem; Nussinov, Ruth; Gursoy, Attila
  3. ACTA CRYSTALLOGRAPHICA SECTION D-STRUCTURAL BIOLOGY. 2018, JAN; 74(Pt 1): 65-66.
  1. 9.   PRISM-EM: template interface-based modelling of multi-protein complexes guided by cryo-electron microscopy density maps
  2. Kuzu, G.; Keskin, O.; Nussinov, R.; Gursoy, A.
  3. Acta crystallographica. Section D, Structural biology. 2016, 1-Oct; 72(Pt 10): 1137-1148.
  1. 10.   SymmRef: A flexible refinement method for symmetric multimers
  2. Mashiach-Farkash, E.; Nussinov, R.; Wolfson, H. J.
  3. Proteins-Structure Function and Bioinformatics. 2011, Sep; 79(9): 2607-2623.
  1. 11.   Comparison of Strong Cation Exchange and SDS-PAGE Fractionation for Analysis of Multiprotein Complexes
  2. Das, S.; Bosley, A. D.; Ye, X. Y.; Chan, K. C.; Chu, I.; Green, J. E.; Issaq, H. J.; Veenstra, T. D.; Andresson, T.
  3. Journal of Proteome Research. 2010, Dec; 9(12): 6696-6704.
  1. 12.   Induced fit, conformational selection and independent dynamic segments: an extended view of binding events
  2. Csermely, P.; Palotai, R.; Nussinov, R.
  3. Trends in Biochemical Sciences. 2010, Oct; 35(10): 539-546.
  1. 13.   Signaling dynamics of the KSR1 scaffold complex
  2. McKay, M. M.; Ritt, D. A.; Morrison, D. K.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2009, Jul 7; 106(27): 11022-7.
  1. 14.   Genomic Analyses of Musashi1 Downstream Targets Show a Strong Association with Cancer-related Processes
  2. Abreu, R. D.; Sanchez-Diaz, P. C.; Vogel, C.; Burns, S. C.; Ko, D. J.; Burton, T. L.; Vo, D. T.; Chennasamudaram, S.; Le, S. Y.; Shapiro, B. A.; Penalva, L.
  3. Journal of Biological Chemistry. 2009 284(18): 12125-12135.
  1. 15.   Cooperativity Dominates the Genomic Organization of p53-Response Elements: A Mechanistic View
  2. Pan, Y. P.; Nussinov, R.
  3. Plos Computational Biology. 2009 5(7):
  1. 16.   APOBEC3G induces a hypermutation gradient: purifying selection at multiple steps during HIV-1 replication results in levels of G-to-A mutations that are high in DNA, intermediate in cellular viral RNA, and low in virion RNA
  2. Russell, R. A.; Moore, M. D.; Hu, W. S.; Pathak, V. K.
  3. Retrovirology. 2009 6: 16.
  1. 17.   Proteomic analysis of protein complexes
  2. Zhou, M.; Veenstra, T. D.
  3. Proteomics. 2007, Aug; 7(16): 2688-2697.
  1. 18.   Vif is a RNA chaperone that could temporally regulate RNA dimerization and the early steps of HIV-1 reverse transcription
  2. Henriet, S.; Sinck, L.; Bec, G.; Gorelick, R. J.; Marquet, R.; Paillart, J. C.
  3. Nucleic Acids Research. 2007, Aug; 35(15): 5141-5153.
  1. 19.   Transmission electron microscopy reveals an optimal HIV-1 nucleocapsid aggregation with single-stranded nucleic acids and the mature HIV-1 nucleocapsid protein
  2. Mirambeau, G.; Lyonnais, S.; Coulaud, D.; Hameau, L.; Lafosse, S.; Jeusset, J.; Justome, A.; Delain, E.; Gorelick, R. J.; Le Cam, E.
  3. Journal of Molecular Biology. 2006, Dec; 364(3): 496-511.
  1. 20.   Retroviral DNA integration: reaction pathway and critical intermediates
  2. Li, M.; Mizuuchi, M.; Burke, T. R.; Craigie, R.
  3. Embo Journal. 2006, Mar; 25(6): 1295-1304.
  1. 21.   The contribution of the Trp/Met/Phe residues to physical interactions of p53 with cellular proteins
  2. Ma, B. Y.; Pan, Y. P.; Gunasekaran, K.; Keskin, O.; Venkataraghavan, R. B.; Levine, A. J.; Nussinov, R.
  3. Physical Biology. 2005, JUN; 2(2): S56-S66.
  1. 22.   Magnitude of the hydrophobic effect at central versus peripheral sites in protein-protein interfaces
  2. Li, Y. L.; Huang, Y. P.; Swaminathan, C. P.; Smith-Gill, S. J.; Mariuzza, R. A.
  3. Structure. 2005, FEB; 13(2): 297-307.
  1. 23.   MAPPIS: Multiple 3D alignment of protein-protein interfaces
  2. Shulman-Peleg, A.; Shatsky, M.; Nussinov, R.; Wolfson, H. J.
  3. Computational Life Sciences. 2005; 3695 : 91-103.
  1. 24.   Protein-protein interactions: Hot spots and structurally conserved residues often locate in complemented pockets that pre-organized in the unbound states: Implications for docking
  2. Li, X.; Keskin, O.; Ma, B. Y.; Nussinov, R.; Liang, J.
  3. Journal of Molecular Biology. 2004, NOV 26; 344(3): 781-795.
  1. 25.   Human ORFeome version 1.1: A platform for reverse proteomics
  2. Rual, J. F.; Hirozane-Kishikawa, T.; Hao, T.; Bertin, N.; Li, S. M.; Dricot, A.; Li, N.; Rosenberg, J.; Lamesch, P.; Vidalain, P. O.; Clingingsmith, T. R.; Hartley, J. L.; Esposito, D.; Cheo, D.; Moore, T.; Simmons, B.; Sequerra, R.; Bosak, S.; Doucette-Stamm, L.; Le Peuch, C.; Vandenhaute, J.; Cusick, M. E.; Albala, J. S.; Hill, D. E.; Vidal, M.
  3. Genome Research. 2004, OCT; 14(10B): 2128-2135.
NCI at Frederick

You are leaving a government website.

This external link provides additional information that is consistent with the intended purpose of this site. The government cannot attest to the accuracy of a non-federal site.

Linking to a non-federal site does not constitute an endorsement by this institution or any of its employees of the sponsors or the information and products presented on the site. You will be subject to the destination site's privacy policy when you follow the link.

ContinueCancel