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UCSC Genome Browser

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UCSC Genome Browser

The UCSC Genome Browser
Description The UCSC Genome Browser
Research center University of California Santa Cruz
Laboratory Center for Biomolecular Science and Engineering, Baskin School of Engineering,
Primary citation Fujita & al. (2011)[1]
Website .edu.ucscgenome

The UCSC Genome Browser is an on-line genome browser hosted by the University of California, Santa Cruz (UCSC).[2][3] It is an interactive website offering access to genome sequence data from a variety of vertebrate and invertebrate species and major model organisms, integrated with a large collection of aligned annotations. The Browser is a graphical viewer optimized to support fast interactive performance and is an open-source, web-based tool suite built on top of a MySQL database for rapid visualization, examination, and querying of the data at many levels. The Genome Browser Database, browsing tools, downloadable data files, and documentation can all be found on the UCSC Genome Bioinformatics website.


Initially built and still managed by Jim Kent, then a graduate student, and David Haussler, professor of Computer Science (now Biomolecular Engineering) at the University of California, Santa Cruz in 2000, the UCSC Genome Browser began as a resource for the distribution of the initial fruits of the Human Genome Project. Funded by the Howard Hughes Medical Institute and the National Human Genome Research Institute, NHGRI (one of the US National Institutes of Health), the browser offered a graphical display of the first full-chromosome draft assembly of human genome sequence. Today the browser is used by geneticists, molecular biologists and physicians as well as students and teachers of evolution for access to genomic information.


In the years since its inception, the UCSC Browser has expanded to accommodate genome sequences of all vertebrate species and selected invertebrates for which high-coverage genomic sequences is available,[4] now including 46 species. High coverage is necessary to allow overlap to guide the construction of larger contiguous regions. Genomic sequences with less coverage are included in multiple-alignment tracks on some browsers, but the fragmented nature of these assemblies does not make them suitable for building full featured browsers. (more below on multiple-alignment tracks). The species hosted with full-featured genome browsers are shown in the table.

primates non-primate mammals non-mammal chordates invertebrates
human mouse chicken lancelet
chimpanzee rat zebra finch sea squirt
gorilla guinea pig lizard sea urchin
orangutan rabbit frog (Xenopus tropicalis) 11 Drosophila flies
gibbon cat zebrafish mosquito
rhesus macaque dog Tetraodon (pufferfish) honey bee
baboon panda Fugu (pufferfish) C. elegans + 5 other worms
squirrel monkey horse stickleback Aplysia (sea hare)
marmoset pig medaka yeast
tarsier cow lamprey  
mouse lemur elephant    
bushbaby opossum    
tree shrew platypus    

Browser Functionality

The large amount of data about biological systems that is accumulating in the literature makes it necessary to collect and digest information using the tools of bioinformatics. The UCSC Genome Browser presents a diverse collection of annotation datasets (known as "tracks" and presented graphically), including mRNA alignments, mappings of DNA repeat elements, gene predictions, gene-expression data, disease-association data (representing the relationships of genes to diseases), and mappings of commercially available gene chips (e.g., Illumina and Agilent). The basic paradigm of display is to show the genome sequence in the horizontal dimension, and show graphical representations of the locations of the mRNAs, gene predictions, etc. Blocks of color along the coordinate axis show the locations of the alignments of the various data types. The ability to show this large variety of data types on a single coordinate axis makes the browser a handy tool for the vertical integration of the data.

To find a specific gene or genomic region, the user may type in the gene name, (e.g., BRCA1) an accession number for an RNA, the name of a genomic cytological band (e.g., 20p13 for band 13 on the short arm of chr20) or a chromosomal position (chr17:38,450,000-38,531,000 for the region around the gene BRCA1).

Presenting the data in the graphical format allows the browser to present link access to detailed information about any of the annotations. The gene details page of the UCSC Genes track provides a large number of links to more specific information about the gene at many other data resources, such as Online Mendelian Inheritance in Man (OMIM) and SwissProt.

Designed for the presentation of complex and voluminous data, the UCSC Browser is optimized for speed. By pre-aligning the 55 million RNAs of GenBank to each of the 81 genome assemblies (many of the 46 species have more than one assembly), the browser allows instant access to the alignments of any RNA to any of the hosted species.

Multiple gene products of FOXP2 gene (top) and evolutionary conservation shown in multiple alignment (bottom)

The juxtaposition of the many types of data allow researchers to display exactly the combination of data that will answer specific questions. A pdf/postscript output functionality allows export of a camera-ready image for publication in academic journals.

One unique and useful feature that distinguishes the UCSC Browser from other genome browsers is the continuously variable nature of the display. Sequence of any size can displayed, from a single DNA base up to the entire chromosome (human chr1 = 245 million bases, Mb) with full annotation tracks. Researchers can display a single gene, a single exon, or an entire chromosome band, showing dozens or hundreds of genes and any combination of the many annotations. A convenient drag-and-zoom feature allows the user to choose any region in the genome image and expand it to occupy the full screen.

Researchers may also use the browser to display their own data via the Custom Tracks tool. This feature allows users to upload a file of their own data and view the data in the context of the reference genome assembly. Users may also use the data hosted by UCSC, creating subsets of the data of their choosing with the Table Browser tool (such as only the SNPs that change the amino acid sequence of a protein) and display this specific subset of the data in the browser as a Custom Track.

Any browser view created by a user, including those containing Custom Tracks, may be shared with other users via the Saved Sessions tool.

Variation data

Many types of variation data are also displayed. For example, the entire contents of each release of the dbSNP database from NCBI are mapped to human, mouse and other genomes. This includes the fruits of the 1000 Genomes Project, as soon as they are released in dbSNP. Other types of variation data include copy-number variation data (CNV) and human population allele frequencies from the HapMap project.

The Genome Browser offers a unique set of comparative-genomic data for most of the species hosted on the site. The comparative alignments give a graphical view of the evolutionary relationships among species. This makes it a useful tool both for the researcher, who can visualize regions of conservation among a group of species and make predictions about functional elements in unknown DNA regions, and in the classroom as a tool to illustrate one of the most compelling arguments for the evolution of species. The 44-way comparative track on the human assembly clearly shows that the farther one goes back in evolutionary time, the less sequence homology remains, but functionally important regions of the genome (e.g., exons and control elements, but not introns typically) are conserved much farther back in evolutionary time.

Analysis tools

More than simply a genome browser, the UCSC site hosts a set of genome analysis tools, including a full-featured GUI interface for mining the information in the browser database (the Table Browser), a fast sequence alignment tool (BLAT[5]) that is also useful for simply finding sequences in the massive sequence (human genome = 2.8 billion bases, Gb) of any of the featured genomes.

A liftOver tool uses whole-genome alignments to allow conversion of sequences from one assembly to another or between species. The Genome Graphs tool allows users to view all chromosomes at once and display the results of genome-wide association studies (GWAS). The Gene Sorter displays genes grouped by parameters not linked to genome location, such as expression pattern in tissues.

Creating spreadsheet links to UCSC Genome Browser views

Many users of the Genome Browser gather data of their own in Excel spreadsheets and would like to create links to the Browser using data in the spreadsheet. For example, a clinical geneticist may have lists of regions for a patient that are duplicated or deleted, as determined by comparative genomic hybridization (CGH). These regions can be the source information for a browser view allowing access to each region with a single click.
Click to download the spreadsheet:


Careful use of Excel's "copy" and "move" functions should allow the links on this sheet to be used without modification.

Customizing Excel links

The contents of the last cell in the image above (cell G22 in the actual spreadsheet) are as follows:


This example shows how to create a link that turns on specific tracks of interest. In this case, three tracks are explicitly turned on:

 Database of Genomic Variants (table: dgv)
 UCSC Genes (table: knownGene)
 OMIM Genes (table: omimGene2) 

Each track is set to "pack" in the link as follows:


Any track that has been open in a session will remain in the view when the new browser window opens.

A new track can be added using the tableName and a visibility of choice:

 &snp131=dense   (for hg18)
 &snp135=dense   (for hg19)

Simply add to the end of the url any other desired tableName=visibility, connected to the url by an ampersand (&). The simplest way to learn the name of the table underlying a track is to do a mouseover in a Genome Browser image and read the url at the bottom of the browser page. The table is shown in the url as


Visibility options include:


Customizing direct links

Direct links to the browser can be created by adjusting the URL. For example, if one wanted to create a direct link to the SIRT1 gene UCSC details page, also knowon as the hgGene page, for the human genome hg19 assembly, they could create the following URL where "db=" assigns database and "hgg_gene=" assigns the gene:

Similarly, a direct link to the hg19 database at the SIRT1 gene position can be created by using the knownCanonical database, which is often the longest isoform of the related UCSC gene group:

For those who are hosting a track hub, a direct link that will open the browser and display the hub can be created in the following format where the "hubUrl" gets assigned the online location of your hub.txt file:

Open Source / Mirrors

The UCSC Browser code base is open-source for non-commercial use, and is mirrored locally by many research groups, allowing private display of data in the context of the public data. The UCSC Browser is mirrored at several locations world-wide, as shown in the table.

official European mirror site
European mirror -- maintained by UCSC at University of Bielefeld, Germany
mirror sites
Medical College of Wisconsin
Cornell University, NY
Aarhus University, Denmark
Genomics Virtual Lab, Australia

The Browser code is also used in separate installations by the UCSC Malaria Genome Browser and the Archaea Browser.

See also


  1. ^ Fujita PA, Rhead B, Zweig AS, Hinrichs AS, Karolchik D, Cline MS, Goldman M, Barber GP, Clawson H, Coelho A, Diekhans M, Dreszer TR, Giardine BM, Harte RA, Hillman-Jackson J, Hsu F, Kirkup V, Kuhn RM, Learned K, Li CH, Meyer LR, Pohl A, Raney BJ, Rosenbloom KR, Smith KE, Haussler D, Kent WJ (Jan 2011). "The UCSC Genome Browser database: update 2011". Nucleic Acids Res. 39 (Database issue): D876–82.  
  2. ^ Kent WJ, Sugnet CW, Furey TS, Roskin KM, Pringle TH, Zahler AM, Haussler D (June 2002). "The human genome browser at UCSC". Genome Res. 12 (6): 996–1006.  
  3. ^ Kuhn, RM, Karolchik D, Zweig AS, Wang T, Smith KE, Rosenbloom KR, Rhead B, Raney BJ, Pohl A, Pheasant M, Meyer L, Hsu F, Hinrichs AS, Harte RA, Giardine B, Fujita P, Diekhans M, Dreszer T, Clawson H, Barber GP, Haussler D, Kent WJ (January 2009). "The UCSC Genome Browser Database: update 2009". Nucleic Acids Res. 37: D755–D761.  
  4. ^ "High-coverage" here means 6x coverage, or six times more total sequence than the size of the genome.
  5. ^ Kent, WJ. (Apr 2002). "BLAT - the BLAST-like alignment tool". Genome Res 12 (4): 656–64.  

External links

  • Official website
  • UCSC Genome Browser Tutorials sponsored by the UCSC Group
  • On-line Training/Tutorials & User's Guides
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