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 28 results.
User Information
Export Records
  1. 1.   The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane
  2. Jang,Hyunbum; Smith, Iris Nira; Eng, Charis; Nussinov,Ruth
  3. iScience. 2021, May 21; 24(5):
  1. 2.   Structure of the cytoplasmic domain of Yersinia pestis YscD, an essential component of the type III secretion system
  2. Lountos, G. T.; Tropea, J. E.; Waugh, D. S.
  3. Acta Crystallographica Section D-Biological Crystallography. 2012, Mar; 68: 201-209.
  1. 3.   Investigating the "steric gate" of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase by targeted insertion of unnatural amino acids
  2. Klarmann, G. J.; Eisenhauer, B. M.; Zhang, Y.; Gotte, M.; Pata, J. D.; Chatterjee, D. K.; Hecht, S. M.; Le Grice, S. F. J.
  3. Biochemistry. 2007, Feb; 46(8): 2118-2126.
  1. 4.   The multiple common point set problem and its application to molecule binding pattern detection
  2. Shatsky, M.; Shulman-Peleg, A.; Nussinov, R.; Wolfson, H. J.
  3. Journal of Computational Biology. 2006, Mar; 13(2): 407-428.
  1. 5.   Optimization of multiple-sequence alignment based on multiple-structure alignment
  2. Shatsky, M.; Nussinov, R.; Wolfson, H. J.
  3. Proteins-Structure Function and Bioinformatics. 2006, JAN 1; 62(1): 209-217.
  1. 6.   Determining a helical protein structure using peptide pixels
  2. Walsh, J. D.; Kuszweski, J.; Wang, Y. X.
  3. Journal of Magnetic Resonance. 2005, NOV; 177(1): 155-159.
  1. 7.   Periodicity, planarity, residual dipolar coupling, and structures
  2. Walsh, J. D.; Wang, Y. X.
  3. Journal of Magnetic Resonance. 2005, MAY; 174(1): 152-162.
  1. 8.   Recognition of binding patterns common to a set of protein structures
  2. Shatsky, M.; Shulman-Peleg, A.; Nussinov, R.; Wolfson, H. J.
  3. Research in Computational Molecular Biology, Proceedings. 2005 3500: 440-455.
  1. 9.   Prediction of multi-molecular assemblies and protein structures by multiple combinatorial docking
  2. Inbar, Y.; Nussinov, R.; Wolfson, H.
  3. Biophysical Journal. 2005, JAN; 88(1, Part 2, Suppl. S): 198A-198A.
  1. 10.   Multiple docking for protein structure prediction
  2. Inbar, Y.; Wolfson, H. J.; Nussinov, R.
  3. International Journal of Robotics Research. 2005, FEB-MAR; 24(2-3): 131-150.
  1. 11.   Integrase of Mason-Pfizer monkey virus
  2. Snasel, J.; Krejcik, Z.; Jencova, V.; Rosenberg, I.; Ruml, T.; Alexandratos, J.; Gustchina, A.; Pichova, I.
  3. Febs Journal. 2005, JAN; 272(1): 203-216.
  1. 12.   Automation of NMR structure determination of proteins
  2. Altieri, A. S.; Byrd, R. A.
  3. Current Opinion in Structural Biology. 2004, OCT; 14(5): 547-553.
  1. 13.   Improving the accuracy of NMR structures of large proteins using pseudocontact shifts as long-range restraints
  2. Gaponenko, V.; Sarma, S. P.; Altieri, A. S.; Horita, D. A.; Li, J.; Byrd, R. A.
  3. Journal of Biomolecular Nmr. 2004 28(3): 205-212.
  1. 14.   The repair of the tobacco specific nitrosamine derived adduct O-6-[4-oxo-4-(3-pyridyl)butyl]guanine by O-6-alkylguanine-DNA alkyltransferase variants
  2. Mijal, R. S.; Thomson, N. M.; Fleischer, N. L.; Pauly, G. T.; Moschel, R. C.; Kanugula, S.; Fang, Q. M.; Pegg, A. E.; Peterson, L. A.
  3. Chemical Research in Toxicology. 2004 17(3): 424-434.
  1. 15.   FlexProt: Alignment of flexible protein structures without a predefinition of hinge regions
  2. Shatsky, M.; Nussinov, R.; Wolfson, H. J.
  3. Journal of Computational Biology. 2004 11(1): 83-106.
  1. 16.   Periodicity in residual dipolar couplings and nucleic acid structures
  2. Walsh, J. D.; Cabello-Villegas, J.; Wang, Y. X.
  3. Journal of the American Chemical Society. 2004 126(7): 1938-1939.
  1. 17.   Completely automated, highly error-tolerant macromolecular structure determination from multidimensional nuclear overhauser enhancement spectra and chemical shift assignments
  2. Kuszewski, J.; Schwieters, C. D.; Garrett, D. S.; Byrd, R. A.; Tjandra, N.; Clore, G. M.
  3. Journal of the American Chemical Society. 2004 126(20): 6258-6273.
  1. 18.   Recognition of functional sites in protein structures
  2. Shulman-Peleg, A.; Nussinov, R.; Wolfson, H. J.
  3. Journal of Molecular Biology. 2004 339(3): 607-633.
  1. 19.   A method for simultaneous alignment of multiple protein structures
  2. Shatsky, M.; Nussinov, R.; Wolfson, H. J.
  3. Proteins-Structure Function and Bioinformatics. 2004 56(1): 143-156.
  1. 20.   Structural information content at high resolution: MAD versus native
  2. Podjarny, A.; Schneider, T. R.; Cachau, R. E.; Joachimiak, A.
  3. Macromolecular Crystallography, Pt. D. 2003; 374 : 321-341.
  1. 21.   Multiple structural alignment by secondary structures: Algorithm and applications
  2. Dror, O.; Benyamini, H.; Nussinov, R.; Wolfson, H. J.
  3. Protein Science. 2003 12(11): 2492-2507.
  1. 22.   Widespread purifying selection at polymorphic sites in human protein-coding loci
  2. Hughes, A. L.; Packer, B.; Welch, R.; Bergen, A. W.; Chanock, S. J.; Yeager, M.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2003 100(26): 15754-15757.
  1. 23.   Structural and enzymatic properties of the sedolisin family of serine-carboxyl peptidases
  2. Wlodawer, A.; Li, M.; Gustchina, A.; Oyama, H.; Dunn, B. M.; Oda, K.
  3. Acta Biochimica Polonica. 2003 50(1): 81-102.
  1. 24.   Crystal structure of RNA 3 '-terminal phosphate cyclase, a ubiquitous enzyme with unusual topology
  2. Palm, G. J.; Billy, E.; Filipowicz, W.; Wlodawer, A.
  3. Structure with Folding & Design. 2000 8(1): 13-23.
  1. 25.   Amino acid substitutions at positions 207 and 221 contribute to catalytic differences between murine glutathione S-transferase Al-1 and A2-2 toward (+)-anti-7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo
  2. Xia, H.; Gu, Y. J.; Pan, S. S.; Ji, X. H.; Singh, S. V.
  3. Biochemistry. 1999 38(31): 9824-9830.
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