Journal - PLoS Computational Biology

Journal Name: PLoS Computational Biology
ISSN: 1553-734X
Impact Factor: 5.515
Impact Factor Year: 2010

Journal aliases

"PLoS Comput Biol"
"PLoS computational biology"

Publications from this journal

    Fold 2015 (click to unfold)

  1. Nullspace Sampling with Holonomic Constraints Reveals Molecular Mechanisms of Protein Gαs.
    Pachov DV, van den Bedem H 
    JCSG, PLoS Computational Biology (2015) 11:e1004361
     PSI:Biology(Details)(Pubmed ID: 26218073)(DOI: 10.1371/journal.pcbi.1004361)
    Times cited: 2

  2. Fold 2013 (click to unfold)

  3. Target prediction for an open access set of compounds active against Mycobacterium tuberculosis.
    Martínez-Jiménez F, Papadatos G, Yang L, Wallace IM, Kumar V, Pieper U, Sali A, Brown JR, Overington JP, Marti-Renom MA 
    NYSGRC, PLoS Computational Biology (2013) 9:e1003253
     PSI:Biology(Details)(Pubmed ID: 24098102)(DOI: 10.1371/journal.pcbi.1003253)
    Times cited: 25

  4. Fold 2012 (click to unfold)

  5. Collective dynamics differentiates functional divergence in protein evolution.
    Glembo TJ, Farrell DW, Gerek ZN, Thorpe MF, Ozkan SB 
    MPID, PLoS Computational Biology (2012) 8:e1002428
     PSI:Biology(Details)(Pubmed ID: 22479170)(DOI: 10.1371/journal.pcbi.1002428)
    Times cited: 15

  6. Exploring the Evolution of Novel Enzyme Functions within Structurally Defined Protein Superfamilies.
    Furnham N, Sillitoe I, Holliday GL, Cuff AL, Laskowski RA, Orengo CA, Thornton JM 
    MCSG, PLoS Computational Biology (2012) 8:e1002403
     PSI:Biology(Details)(Pubmed ID: 22396634)(DOI: 10.1371/journal.pcbi.1002403)
    Times cited: 34

  7. Fold 2011 (click to unfold)

  8. The FGGY Carbohydrate Kinase Family: Insights into the Evolution of Functional Specificities.
    Zhang Y, Zagnitko O, Rodionova I, Osterman A, Godzik A 
    JCSG, PLoS Computational Biology (2011) 7:e1002318
     PSI:Biology(Details)(Pubmed ID: 22215998)(DOI: 10.1371/journal.pcbi.1002318)
    Times cited: 15

  9. Change in allosteric network affects binding affinities of PDZ domains: analysis through perturbation response scanning.
    Gerek ZN, Ozkan SB 
    MPID, PLoS Computational Biology (2011) 7:e1002154
     PSI:Biology(Details)(Pubmed ID: 21998559)(DOI: 10.1371/journal.pcbi.1002154)
    Times cited: 48

  10. Fold 2010 (click to unfold)

  11. VASP: a volumetric analysis of surface properties yields insights into protein-ligand binding specificity.
    Chen BY, Honig B 
    NESG, PLoS Computational Biology (2010) 6:e1000881
     PSI:Phase 2(Details)(Pubmed ID: 20814581)(DOI: 10.1371/journal.pcbi.1000881)
    Times cited: 19

  12. Expansion of the protein repertoire in newly explored environments: human gut microbiome specific protein families.
    Ellrott K, Jaroszewski L, Li W, Wooley JC, Godzik A 
    JCMM+JCSG, PLoS Computational Biology (2010) 6:e1000798
     PSI:Phase 2(Details)(Pubmed ID: 20532204)(DOI: 10.1371/journal.pcbi.1000798)
    Times cited: 34

  13. Fold 2009 (click to unfold)

  14. Predicting protein ligand binding sites by combining evolutionary sequence conservation and 3D structure.
    Capra JA, Laskowski RA, Thornton JM, Singh M, Funkhouser TA 
    MCSG, PLoS Computational Biology (2009) 5:e1000585
     PSI:Phase 2(Details)(Pubmed ID: 19997483)(DOI: 10.1371/journal.pcbi.1000585)
    Times cited: 141

  15. FLORA: a novel method to predict protein function from structure in diverse superfamilies.
    Redfern OC, Dessailly BH, Dallman TJ, Sillitoe I, Orengo CA 
    MCSG, PLoS Computational Biology (2009) 5:e1000485
     PSI:Phase 2(Details)(Pubmed ID: 19714201)(DOI: 10.1371/journal.pcbi.1000485)
    Times cited: 29

  16. Probabilistic interaction network of evidence algorithm and its application to complete labeling of peak lists from protein NMR spectroscopy.
    Bahrami A, Assadi AH, Markley JL, Eghbalnia HR 
    CESG, PLoS Computational Biology (2009) 5:e1000307
     PSI:Phase 2(Details)(Pubmed ID: 19282963)(DOI: 10.1371/journal.pcbi.1000307)
    Times cited: 84

  17. Fold 2008 (click to unfold)

  18. Evolutionarily conserved substrate substructures for automated annotation of enzyme superfamilies.
    Chiang RA, Sali A, Babbitt PC 
    NYSGXRC, PLoS Computational Biology (2008) 4:e1000142
     PSI:Phase 2(Details)(Pubmed ID: 18670595)(DOI: 10.1371/journal.pcbi.1000142)
    Times cited: 17

  19. Fold 2007 (click to unfold)

  20. Natively unstructured loops differ from other loops.
    Schlessinger A, Liu J, Rost B 
    NESG, PLoS Computational Biology (2007) 3:e140
     PSI:Phase 2(Details)(Pubmed ID: 17658943)(DOI: 10.1371/journal.pcbi.0030140)
    Times cited: 57

  21. Fold 2006 (click to unfold)

  22. Structural modeling of protein interactions by analogy: application to PSD-95.
    Korkin D, Davis FP, Alber F, Luong T, Shen MY, Lucic V, Kennedy MB, Sali A 
    NYSGXRC, PLoS Computational Biology (2006) 2(11):e153
     PSI:Phase 2(Details)(Pubmed ID: 17096593)(DOI: 10.1371/journal.pcbi.0020153)
    Times cited: 35

Total number of citations for publications: 555
Average number of citations per publication (): 39.6