Data

MPrIC Database: Mitochondrial Protein Import Components

Also known as: MPRIC Database, Mitochondrial Protein Import Components Database
The University of Western Australia
Professor Ian Small (Managed by, Aggregated by) Winthrop Professor Harvey Millar (Aggregated by) Winthrop Professor Jim Whelan (Aggregated by) Winthrop Professor Steven Smith (Aggregated by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=http://millar3.biochem.uwa.edu.au/MPRIC/&rft.title=MPrIC Database: Mitochondrial Protein Import Components&rft.identifier=http://millar3.biochem.uwa.edu.au/MPRIC/&rft.publisher=The University of Western Australia&rft.description= Knowledge of protein localisation contributes towards the understanding of protein function and of biological inter-relationships. A variety of experimental methods are being used to produce localisation data that need to be made accessible in an integrated manner. An increasing volume of available software provides location prediction information for proteins based on amino acid sequence. SUBA, a SUBcellular location database for Arabidopsis proteins, brings these various data sources together. The localisation data in SUBA encompasses 10 distinct subcellular locations, >6743 non-redundant proteins and represents the proteins encoded in the transcripts responsible for 51\ of Arabidopsis expressed sequence tags. The SUBA database provides a powerful means by which to assess protein subcellular localisation in Arabidopsis The database searches and aligns gene components within the following species: - Arabidopsis thaliana; - Caenorhabditis elegans; - Drosophila melanogaster; - Homo sapiens; - Mus musculus; - Neurospora crassa; - Oryza sativa; - Rattus novegicus; - and Saccharomyces cerevisiae. &rft.creator=Australian Research Council Centre of Excellence in Plant Energy Biology&rft.creator=Professor Ian Small&rft.creator=Winthrop Professor Harvey Millar&rft.creator=Winthrop Professor Jim Whelan&rft.creator=Winthrop Professor Steven Smith&rft.date=2014&rft_subject=Protein Trafficking&rft_subject=BIOLOGICAL SCIENCES&rft_subject=BIOCHEMISTRY AND CELL BIOLOGY&rft_subject=Plant Cell and Molecular Biology&rft_subject=PLANT BIOLOGY&rft.type=dataset&rft.language=English Access the data

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The database is freely accessible from the url: http://millar3.biochem.uwa.edu.au/MPRIC/ For further access rights to datasets please contact plantenergy@uwa.edu.au.


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Contact Information

Postal Address:
<p> School of Biomedical, Biomolecular and Chemical Sciences The University of Western Australia 35 Stirling Highway Crawley, Perth Western Australia 6009</p>
Ph: <p> ( 61 8) 6488 4414</p>
Fax: <p> ( 61 8) 6488 7330</p>

Street Address:
<p> Bayliss Building, Fairway entrance number 4, Crawley campus</p>



Brief description

Knowledge of protein localisation contributes towards the understanding of protein function and of biological inter-relationships. A variety of experimental methods are being used to produce localisation data that need to be made accessible in an integrated manner. An increasing volume of available software provides location prediction information for proteins based on amino acid sequence. SUBA, a SUBcellular location database for Arabidopsis proteins, brings these various data sources together. The localisation data in SUBA encompasses 10 distinct subcellular locations, >6743 non-redundant proteins and represents the proteins encoded in the transcripts responsible for 51\ of Arabidopsis expressed sequence tags. The SUBA database provides a powerful means by which to assess protein subcellular localisation in Arabidopsis The database searches and aligns gene components within the following species: - Arabidopsis thaliana; - Caenorhabditis elegans; - Drosophila melanogaster; - Homo sapiens; - Mus musculus; - Neurospora crassa; - Oryza sativa; - Rattus novegicus; - and Saccharomyces cerevisiae.

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