Open Access Articles- Top Results for Ensembl
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International Journal of Innovative Research in Computer and Communication EngineeringOnline Dynamic Assessment
|Primary citation||Hubbard, et al. (2002)|
The human genome consists of three billion base pairs, which code for approximately 20,000–25,000 genes. However the genome alone is of little use, unless the locations and relationships of individual genes can be identified. One option is manual annotation, whereby a team of scientists tries to locate genes using experimental data from scientific journals and public databases. However this is a slow, painstaking task. The alternative, known as automated annotation, is to use the power of computers to do the complex pattern-matching of protein to DNA.
In the Ensembl project, sequence data are fed into the gene annotation system (a collection of software "pipelines" written in Perl) which creates a set of predicted gene locations and saves them in a MySQL database for subsequent analysis and display. Ensembl makes these data freely accessible to the world research community. All the data and code produced by the Ensembl project is available to download, and there is also a publicly accessible database server allowing remote access. In addition, the Ensembl website provides computer-generated visual displays of much of the data.
Over time the project has expanded to include additional species (including key model organisms such as mouse, fruitfly and zebrafish) as well as a wider range of genomic data, including genetic variations and regulatory features. Since April 2009, a sister project, Ensembl Genomes, has extended the scope of Ensembl into invertebrate metazoa, plants, fungi, bacteria, and protists, whilst the original project continues to focus on vertebrates.
Displaying genomic data
Central to the Ensembl concept is the ability to automatically generate graphical views of the alignment of genes and other genomic data against a reference genome. These are shown as data tracks, and individual tracks can be turned on and off, allowing the user to customise the display to suit their research interests. The interface also enables the user to zoom in to a region or move along the genome in either direction.
Other displays show data at varying levels of resolution, from whole karyotypes down to text-based representations of DNA and amino acid sequences, or present other types of display such as trees of similar genes (homologues) across a range of species. The graphics are complemented by tabular displays, and in many cases data can be exported directly from the page in a variety of standard file formats such as FASTA.
Externally produced data can also be added to the display, either via a DAS (Distributed Annotation System) server on the internet, or by uploading a suitable file in one of the supported formats, such as BAM, BED, or PSL.
Graphics are generated using a suite of custom Perl modules based on GD, the standard Perl graphics display library.
Alternative access methods
In addition to its website, Ensembl provides a Perl API (Application Programming Interface) that models biological objects such as genes and proteins, allowing simple scripts to be written to retrieve data of interest. The same API is used internally by the web interface to display the data. It is divided in sections like the core API, the compara API (for comparative genomics data), the variation API (for accessing SNPs, SNVs, CNVs..), and the functional genomics API (to access regulatory data). The Ensembl website provides extensive information on how to install and use the API.
This software can be used to access the public MySQL database, avoiding the need to download enormous datasets. The users could even choose to retrieve data from the MySQL with direct SQL queries, but this requires an extensive knowledge of the current database schema.
Large datasets can be retrieved using the BioMart data-mining tool. It provides a web interface for downloading datasets using complex queries.
Last, there is an FTP server which can be used to download entire MySQL databases as well some selected data sets in other formats.
The annotated genomes include most fully sequenced vertebrates and selected model organisms. All of them are eukaryotes, there are no prokaryotes. As of 2008[update], this includes:
- Laurasiatheria: Cow, Dolphin, Alpaca, Pig, Cat, Dog, Horse, Megabat, Microbat, Hedgehog, Shrew ;
- Afrotheria: Elephant, Hyrax, Tenrec
- Xenarthra: Armadillo, sloth ;
- Marsupialia: Opossum, Wallaby ;
- Monotremes: Platypus ;
- Birds: Chicken, Zebra Finch ;
- Lepidosauria: Anole Lizard (pre) ;
- Lissamphibia: Xenopus tropicalis ;
- Teleost fishes: Takifugu rubripes (Fugu), Tetraodon nigroviridis (Green spotted pufferfish), Danio rerio (Zebrafish), Oryzias latipes (Medaka), Gasterosteus aculeatus (Stickleback) ;
- Cyclostomata: Petromyzon marinus (Sea lamprey) (pre) ;
- Tunicates: Ciona intestinalis, Ciona savignyi ;
- Yeast: Saccharomyces cerevisiae (Baker's yeast)
- List of sequenced eukaryotic genomes
- Sequence analysis
- Sequence profiling tool
- Sequence motif
- UCSC Genome Browser
- Hubbard T. et al. (January 2002). "The Ensembl genome database project". Nucleic Acid Res. 30 (1): 38–41. PMC 99161. PMID 11752248. doi:10.1093/nar/30.1.38. Retrieved 11 November 2014.
- Flicek P, Amode MR, Barrell D et al. (November 2010). "Ensembl 2011". Nucleic Acids Res 39 (Database issue): D800–D806. PMC 3013672. PMID 21045057. doi:10.1093/nar/gkq1064.
- Flicek P, Aken BL, Ballester B et al. (January 2010). "Ensembl's 10th year". Nucleic Acids Res. 38 (Database issue): D557–62. PMC 2808936. PMID 19906699. doi:10.1093/nar/gkp972.
- Stabenau A, McVicker G, Melsopp C, Proctor G, Clamp M, and Birney E (February 2004). "The Ensembl Core Software Libraries". Genome Research 14 (5): 929–933. PMC 479122. PMID 15123588. doi:10.1101/gr.1857204.
- Official website
- Ensembl genomes
- UCSC Genome Browser
- Ensembl: Browsing chordate genomes on EBI Train OnLine