UTOPIA (Bioinformatics tools)

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UTOPIA
Utopia-desktop600.jpg
UTOPIA tools on a Mac
Developer(s) Steve Pettifer,
Terri Attwood,
David Parry-Smith,
D.N.Perkins,
A.W. Payne,
A.D. Michie,
Phillip W.Lord,
J.N.Selley,
Phil McDermott,
James Marsh,
James Sinnott,
Dave Thorne,
Benjamin Blundell
Written in C++, Python
Operating system Linux, Mac and Windows
Website utopia.cs.manchester.ac.uk, getutopia.com

UTOPIA (User-friendly Tools for OPerating Informatics Applications) is a suite of free tools for visualising and analysing bioinformatics data. Based on an ontology-driven data model, it contains applications for viewing and aligning protein sequences, rendering complex molecular structures in 3D, and for finding and using resources such as web services and data objects.[1][2][3][4] There are two major components, the protein analysis suite and UTOPIA documents.

Utopia Protein Analysis suite[edit]

The Utopia Protein Analysis suite is a collection of interactive tools for analysing protein sequence and protein structure. Up front are user-friendly and responsive visualisation applications, behind the scenes a sophisticated model that allows these to work together and hides much of the tedious work of dealing with file formats and web services.[1]

Utopia Documents[edit]

Utopia Documents brings a fresh new perspective to reading the scientific literature, combining the convenience and reliability of the Portable Document Format (pdf) with the flexibility and power of the web.[3][5][6]

History[edit]

Between 2003 and 2005 work on UTOPIA was funded via The e-Science North West Centre based at The University of Manchester by the Engineering and Physical Sciences Research Council, UK Department of Trade And Industry, and the European Molecular Biology Network (EMBnet). Since 2005 work continues under the EMBRACE European Network of Excellence.

UTOPIA's CINEMA (Colour INteractive Editor for Multiple Alignments), a tool for Sequence Alignment, is the latest incarnation of software originally developed at The University of Leeds to aid the analysis of G protein-coupled receptors (GPCRs).[7] SOMAP,[8] a Screen Oriented Multiple Alignment Procedure was developed in the late 1980s on the VMS computer operating system, used a monochrome text-based VT100 video terminal, and featured context-sensitive help and pulldown menus some time before these were standard operating system features.

SOMAP was followed by a Unix tool called VISTAS[9] (VIsualizing STructures And Sequences) which included the ability to render 3D molecular structure and generate plots and statistical representations of sequence properties.

The first tool under the CINEMA[10] banner developed at The University of Manchester was a Java-based applet launched via web pages, which is still available but is no longer maintained. A standalone Java version, called CINEMA-MX,[11] was also released but is no longer readily available.

A C++ version of CINEMA, called CINEMA5 was developed early on as part of the UTOPIA project, and was released as a stand-alone sequence alignment application. It has now been replaced by a version of the tool integrated with UTOPIA's other visualisation applications, and its name has reverted simply to CINEMA.

References[edit]

  1. ^ a b Pettifer, S. R.; Sinnott, J. R.; Attwood, T. K. (2004). "UTOPIA—User-Friendly Tools for Operating Informatics Applications". Comparative and Functional Genomics. 5 (1): 56–60. doi:10.1002/cfg.359. PMC 2447318Freely accessible. PMID 18629035. 
  2. ^ McDermott, P.; Sinnott, J.; Thorne, D.; Pettifer, S.; Attwood, T. (2006). "An Architecture for Visualisation and Interactive Analysis of Proteins". Fourth International Conference on Coordinated & Multiple Views in Exploratory Visualization (CMV'06). p. 55. doi:10.1109/CMV.2006.3. ISBN 0-7695-2605-5. 
  3. ^ a b Attwood, T. K.; Kell, D. B.; McDermott, P.; Marsh, J.; Pettifer, S. R.; Thorne, D. (2009). "Calling International Rescue: Knowledge lost in literature and data landslide!". Biochemical Journal. 424 (3): 317–333. doi:10.1042/BJ20091474. PMC 2805925Freely accessible. PMID 19929850. 
  4. ^ Pettifer, S.; Thorne, D.; McDermott, P.; Marsh, J.; Villéger, A.; Kell, D. B.; Attwood, T. K. (2009). "Visualising biological data: A semantic approach to tool and database integration". BMC Bioinformatics. 10: S19. doi:10.1186/1471-2105-10-S6-S19. PMC 2697642Freely accessible. PMID 19534744. 
  5. ^ Attwood, T. K.; Kell, D. B.; McDermott, P.; Marsh, J.; Pettifer, S. R.; Thorne, D. (2010). "Utopia documents: Linking scholarly literature with research data". Bioinformatics. 26 (18): i568–i574. doi:10.1093/bioinformatics/btq383. PMC 2935404Freely accessible. PMID 20823323. 
  6. ^ Pettifer, S.; McDermott, P.; Marsh, J.; Thorne, D.; Villeger, A.; Attwood, T. K. (2011). "Ceci n'est pas un hamburger: Modelling and representing the scholarly article". Learned Publishing. 24 (3): 207. doi:10.1087/20110309. 
  7. ^ Vroling, B.; Thorne, D.; McDermott, P.; Attwood, T. K.; Vriend, G.; Pettifer, S. (2011). "Integrating GPCR-specific information with full text articles". BMC Bioinformatics. 12: 362. doi:10.1186/1471-2105-12-362. PMC 3179973Freely accessible. PMID 21910883. 
  8. ^ Parry-Smith, D. J.; Attwood, T. K. (1991). "SOMAP: A novel interactive approach to multiple protein sequences alignment". Bioinformatics. 7 (2): 233. doi:10.1093/bioinformatics/7.2.233. 
  9. ^ Perkins, D. N.; Attwood, T. K. (1995). "VISTAS: A package for VIsualizing STructures and sequences of proteins". Journal of Molecular Graphics. 13 (1): 73–75, 62. doi:10.1016/0263-7855(94)00013-I. PMID 7794837. 
  10. ^ Parry-Smith, D. J.; Payne, A. W. R.; Michie, A. D.; Attwood, T. K. (1998). "CINEMA—a novel Colour INteractive Editor for Multiple Alignments". Gene. 221 (1): GC57–GC63. doi:10.1016/S0378-1119(97)00650-1. PMID 9852962. 
  11. ^ Lord, P. W.; Selley, J. N.; Attwood, T. K. (2002). "CINEMA-MX: A modular multiple alignment editor". Bioinformatics. 18 (10): 1402–1403. doi:10.1093/bioinformatics/18.10.1402. PMID 12376388.