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DOCK

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This article is about the software. For the protein class, see DOCK (protein). For other uses, see Dock (disambiguation).

Original author(s)Brian K. Shoichet, David A. Case, Robert C.Rizzo
Developer(s)University of California, San Francisco
Initial release1982; 42 years ago (1982)
Stable release3 series: 3.7; 6 series: 6.7 / 12 February 2015; 9 years ago (2015-02-12)
Written inDOCK 3: Fortran, C
DOCK 6: C++, C, Fortran 77
Operating systemDOCK 3: source code
DOCK 6: Linux, macOS, Windows
Platformx86, x86-64
Size100 MB
Available inEnglish
TypeMolecular docking
LicenseProprietary: freeware academic, commercial
Websitedock.compbio.ucsf.edu

The program UCSF DOCK was created in the 1980s by Irwin "Tack" Kuntz's Group, and was the first docking program. DOCK uses geometric algorithms to predict the binding modes of small molecules. Brian K. Shoichet, David A. Case, and Robert C.Rizzo are codevelopers of DOCK.

Two versions of the docking program are actively developed: DOCK 6 and DOCK 3.

Ligand sampling methods used by the program DOCK include.

  • Rigid docking: shape matching, uses spheres placed in the pocket and performs bipartite matching between those spheres and the molecule (all versions).
  • Flexible ligand is accounted for using the following methods: an algorithm called anchor and grow (v4-v6), and hierarchical docking of databases (v3.5-3.7).

A molecular dynamics engine was implemented into DOCK v6 by David A. Case's Group in the scoring function AMBER score. This ability accounts for receptor flexibility and allows for rank ordering by energetic ensembles in the docking calculations.

See also

References

  1. Kuntz, ID; Blaney, JM; Oatley, SJ; Langridge, R; Ferrin, TE (1982). "A geometric approach to macromolecule-ligand interactions". Journal of Molecular Biology. 161 (2): 269–88. doi:10.1016/0022-2836(82)90153-X. PMID 7154081.
  2. ^ Ewing, TJ; Makino, S; Skillman, AG; Kuntz, ID (2001). "DOCK 4.0: search strategies for automated molecular docking of flexible molecule databases". Journal of Computer-aided Molecular Design. 15 (5): 411–28. Bibcode:2001JCAMD..15..411E. doi:10.1023/A:1011115820450. PMID 11394736. S2CID 5553209.
  3. Moustakas, DT; Lang, PT; Pegg, S; Pettersen, E; Kuntz, ID; Brooijmans, N; Rizzo, RC (2006). "Development and validation of a modular, extensible docking program: DOCK 5". Journal of Computer-aided Molecular Design. 20 (10–11): 601–19. Bibcode:2006JCAMD..20..601M. doi:10.1007/s10822-006-9060-4. PMID 17149653. S2CID 24495648.
  4. ^ Lang, PT; Brozell, SR; Mukherjee, S; Pettersen, EF; Meng, EC; Thomas, V; Rizzo, RC; Case, DA; et al. (2009). "DOCK 6: Combining techniques to model RNA–small molecule complexes". RNA. 15 (6): 1219–30. doi:10.1261/rna.1563609. PMC 2685511. PMID 19369428.
  5. Lorber, DM; Shoichet, BK (1998). "Flexible ligand docking using conformational ensembles". Protein Sci. 7 (4): 938–950. doi:10.1002/pro.5560070411. PMC 2143983. PMID 9568900.
  6. Lorber, DM; Shoichet, BK (2005). "Hierarchical Docking of Databases of Multiple Ligand Conformations". Curr Top Med Chem. 5 (8): 739–49. doi:10.2174/1568026054637683. PMC 1364474. PMID 16101414.

External links

Official website

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