Results of search for Murray

    Fold 2010 (click to unfold)

  1. High-throughput computational structure-based characterization of protein families: START domains and implications for structural genomics.
    Lee H, Li Z, Silkov A, Fischer M, Petrey D, Honig B, MURRAY
    NESG, Journal of Structural and Functional Genomics (2010) 11:51-9
     PSI:Phase 2(Details)(Pubmed ID: 20383749)
    Times cited: 8

  2. Fold 2009 (click to unfold)

  3. Outcome of a workshop on applications of protein models in biomedical research.
    Schwede T, Sali A, Honig B, Levitt M, Berman HM, Jones D, Brenner SE, Burley SK, Das R, Dokholyan NV, Dunbrack RL, Fidelis K, Fiser A, Godzik A, Huang YJ, Humblet C, Jacobson MP, Joachimiak A, Krystek SR, Kortemme T, Kryshtafovych A, Montelione GT, Moult J, MURRAY D, Sanchez R, Sosnick TR, Standley DM, Stouch T, Vajda S, Vasquez M, Westbrook JD, Wilson IA 
    JCSG+MCSG+NESG+NMHRCM+NYSGXRC, Structure (2009) 17:151-9
     PSI:Phase 2(Details)(Pubmed ID: 19217386)
    Times cited: 72

  4. Fold 2008 (click to unfold)

  5. Structure of an acetyl-CoA binding protein from Staphylococcus aureus representing a novel subfamily of GCN5-related N-acetyltransferase-like proteins.
    Cort JR, Ramelot TA, MURRAY D, Acton TB, Ma LC, Xiao R, Montelione GT, Kennedy MA 
    NESG, Journal of Structural and Functional Genomics (2008) 9:7-20
     PSI:Phase 2(Details)(Pubmed ID: 18709443)
    PDB ID(s): 1R57 2H5M
    Times cited: 6

  6. Fold 2007 (click to unfold)

  7. Strategies for high-throughput comparative modeling: applications to leverage analysis in structural genomics and protein family organization.
    Mirkovic N, Li Z, Parnassa A, MURRAY
    NESG, Proteins (2007) 66(4):766-77
     PSI:Phase 2(Details)(Pubmed ID: 17154423)
    Times cited: 17

  8. Fold 2005 (click to unfold)

  9. Solution structure of Archaeglobus fulgidis peptidyl-tRNA hydrolase (Pth2) provides evidence for an extensive conserved family of Pth2 enzymes in archea, bacteria, and eukaryotes.
    Powers R, Mirkovic N, Goldsmith-Fischman S, Acton TB, Chiang Y, Huang YJ, Ma L, Rajan PK, Cort JR, Kennedy MA, Liu J, Rost B, Honig B, MURRAY D, Montelione GT 
    NESG, Protein Science (2005) 14(11):2849-61
     PSI:Phase 2(Details)(Pubmed ID: 16251366)
    PDB ID(s): 1RZW
    Times cited: 23

  10. 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
     PSI:Phase 2(Details)(Pubmed ID: 15965736)
    PDB ID(s): 1TVI
    Times cited: 14

  11. 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
     PSI:Phase 2(Details)(Pubmed ID: 15930006)
    PDB ID(s): 1NI7
    Times cited: 29

  12. Fold 2004 (click to unfold)

  13. 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
     PSI:Phase 2(Details)(Pubmed ID: 15096641)
    PDB ID(s): 1QXF
    Times cited: 12

  14. Fold 2003 (click to unfold)

  15. Molecular modeling of the membrane targeting of phospholipase C pleckstrin homology domains.
    Singh SM, MURRAY
    NESG, Protein Science (2003) 12:1934-53
     PSI:Phase 2(Details)(Pubmed ID: 12930993)
    PDB ID(s): 1MAI 1FB8 1B55
    Times cited: 52

Total number of citations for publications: 233
Average number of citations per publication (): 25.9