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Cheminformatics (also known as chemoinformatics and chemical informatics) is the use of computer and informational techniques, applied to a range of problems in the field of chemistry. These in silico techniques are used in pharmaceutical companies in the process of drug discovery. These methods can also be used in chemical and allied industries in various other forms.

Contents 1 History 2 Basics 3 Applications 3.1 Storage and retrieval 3.1.1 File formats 3.2 Virtual screening 3.3 Quantitative structure-activity relationship (QSAR) 4 See also 5 References 6 External links

History

The term Chemoinformatics was defined by F.K. Brown ^[1][2] in 1998:

Chemoinformatics is the mixing of those information resources to transform data into information and information into knowledge for the intended purpose of making better decisions faster in the area of drug lead identification and optimization.

Since then, both spellings have been used, and some have evolved to be established as Cheminformatics,^[3] while European Academia settled in 2006 for Chemoinformatics. ^[4]

Basics

Cheminformatics combines the scientific working fields of chemistry and computer science for example in the area of chemical graph theory and mining the chemical space.^[5][6] It is to be expected that the chemical space contains at least 10⁶⁰ molecules. Cheminformatics can also be applied to data analysis for various industries like paper and pulp,dyes and such allied industries.

Applications

Storage and retrieval

Main article: Chemical database

The primary application of cheminformatics is in the storage of information relating to compounds. The efficient search of such stored information includes topics that are dealt with in computer science as data mining and machine learning. Related research topics include:

• Unstructured data
• Structured Data Mining and mining of Structured data
  • Database mining
  • Graph mining
  • Molecule mining
  • Sequence mining
  • Tree mining

File formats

Main article: Chemical file format

The in silico representation of chemical structures uses specialized formats such as the XML-based Chemical Markup Language, or SMILES. These representations are often used for storage in large chemical databases. While some formats are suited for visual representations in 2 or 3 dimensions, others are more suited for studying physical interactions, modeling and docking studies.

Virtual screening

Main article: Virtual_high_throughput_screening

In contrast to high-throughput screening, virtual screening involves the creation of large in silico virtual libraries of compounds, which are then submitted to a docking program in order to identify the most active members. In some cases, combinatorial chemistry is used in the development of the library to increase the efficiency in mining the chemical space. More commonly, a diverse library of small molecules or natural products is screened.

Quantitative structure-activity relationship (QSAR)

Main article: Quantitative structure-activity relationship

This is the calculation of quantitative structure-activity relationship and quantitative structure property relationship values, used to predict the activity of compounds from their structures. In this context there is also a strong relationship to Chemometrics. Chemical expert systems are also relevant, since they represent parts of chemical knowledge as an in silico representation.

See also

• Chemical file format
• Chemogenomics
• Computational chemistry
• Combinatorial chemistry
• Data analysis
• Chemometrics
• Journal of Chemical Information and Modeling
• List of chemistry topics
• Docking (molecular)
• Mathematical chemistry
• Molecular modelling
• Pharmaceutical company
• Scientific visualization
• Software for molecular modeling
• Statistics

References

1. ^ F.K. Brown (1998). "Chapter 35. Chemoinformatics: What is it and How does it Impact Drug Discovery". Annual Reports in Med. Chem. 33: 375. doi:10.1016/S0065-7743(08)61100-8. 
2. ^ Brown, Frank (2005). "Editorial Opinion: Chemoinformatics – a ten year update". Current Opinion in Drug Discovery & Development 8 (3): 296–302. 
3. ^ Cheminformatics or Chemoinformatics ?
4. ^ Obernai Declaration
5. ^ Gasteiger J.(Editor), Engel T.(Editor): Chemoinformatics : A Textbook. John Wiley & Sons, 2004, ISBN 3-527-30681-1
6. ^ A.R. Leach, V.J. Gillet: An Introduction to Chemoinformatics. Springer, 2003, ISBN 1-4020-1347-7

External links

• The Free On-line Cheminformatics Service
• The Blue Obelisk Movement
• The eCheminfo Network and Community of Practice
• Cheminformatics at Indiana University
• The Chemical Structure Association Trust (see also CSA Trust).
• Comprehensive cheminformatics link list and data set repository
• A cheminformatics glossary
• Chemoinf.com Chemoinformatics Hub
• moltable.org Chemoinformatics initiatives
• Chemical Informatics Education and Research at Indiana University
• Famous Cheminformatics quotations
• The Cheminformatics and QSAR Society
• UK-QSAR and ChemoInformatics Group
• Education and Research at the University of Hamburg
• Cheminformatics research at the Unilever Centre for Molecular Informatics, Cambridge, UK
• YACHS Yet Another CHemistry Summarizer, Laboratoire Informatique d'Avignon LIA, France
• Cheminformatics research at NovaMechanics Cyprus

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• This page was last modified on 9 August 2008, at 10:18.

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