Database Commons a catalog of biological databases

Database Commons - MAPPER2

MAPPER2

Citations: 116

z-index 5.62

Short name MAPPER2
Full name Multi-genome Analysis of Positions and Patterns of Elements of Regulation
Description The MAPPER Database contains putative Transcription Factor Binding Sites (TFBSs) located in the upstream sequences of genes from the human,mouse and D.melanogaster genomes.For each transcript, the region scanned extends from 10,000bp upstream of the transcript start to 50bp downstream of the coding sequence start. Therefore, the database contains putative binding sites in the gene promoter and in the initial introns and non-coding exons.
URL http://genome.ufl.edu/mapperdb
Year founded 2005
Last update & version 2013-09-15    v1.0
Availability Free to all users
University/Institution hosted University of Florida
Address Gainesville,FL 32610,USA
City Gainesville
Province/State FL
Country/Region United States
Contact name Alberto Riva
Contact email ariva@ufl.edu
Data type(s)
Major organism(s)
Keyword(s)
  • transcription factor binding site
Publication(s)
  • The MAPPER2 Database: a multi-genome catalog of putative transcription factor binding sites. [PMID: 22121218]

    Alberto Riva
    Nucleic acids research 2012:40(Database issue)
    12 Citations (Google Scholar as of 2016-04-28)

    Abstract: The mapper(2) Database (http://genome.ufl.edu/mapperdb) is a component of mapper(2), a web-based system for the analysis of transcription factor binding sites in multiple genomes. The database contains predicted binding sites identified in the promoters of all human, mouse and Drosophila genes using 1017 probabilistic models representing over 600 different transcription factors. In this article we outline the current contents of the database and we describe its web-based user interface in detail. We then discuss ongoing work to extend the database contents to experimental data and to add analysis capabilities. Finally, we provide information about recent improvements to the hardware and software platform that mapper(2) is based on.

  • The MAPPER database: a multi-genome catalog of putative transcription factor binding sites. [PMID: 15608292]

    Voichita D Marinescu, Isaac S Kohane, Alberto Riva
    Nucleic acids research 2005:33(Database issue)
    104 Citations (Google Scholar as of 2016-04-28)

    Abstract: We describe a comprehensive map of putative transcription factor binding sites (TFBSs) across multiple genomes created using a search method that relies on hidden Markov models built from experimentally determined TFBSs. Using the information in the TRANSFAC and JASPAR databases, we built 1134 models for TFBSs and used them to scan regions 10 kb upstream of the start of the transcript for all known genes in the human, mouse and Drosophila melanogaster genomes. The results, together with homology information on clusters of ortholog genes across the three genomes, were used to create a multi-organism catalog of annotated TFBSs. The catalog can be queried through a web interface accessible at http://bio.chip.org/mapper that allows the identification, visualization and selection of TFBSs occurring in the promoter of a gene of interest and also the common factors predicted to bind across the cluster of orthologs that includes that gene. Alternatively, the interface allows the user to retrieve binding sites for a single transcription factor of interest in a single gene or in all genes of the human, mouse or fruit fly genomes.

Community reviews

Data
quality & quantity
Content organization & presentation
System accessibility & reliability
Reviewed by

Word cloud (embeddable)

Database Commons - Word Cloud

Accessibility

Rate of accessibility:
HTTP status codeDate requested
404 Failed2018-11-13
404 Failed2018-11-09
404 Failed2018-11-06
404 Failed2018-11-02
404 Failed2018-10-30
404 Failed2018-10-26
404 Failed2018-10-23
404 Failed2018-10-19
404 Failed2018-10-16
404 Failed2018-10-12
404 Failed2018-10-09
404 Failed2018-10-05
404 Failed2018-10-02
404 Failed2018-09-28
404 Failed2018-09-25
404 Failed2018-09-21
404 Failed2018-09-18
404 Failed2018-09-14
404 Failed2018-09-11
404 Failed2018-09-07
404 Failed2018-09-04
404 Failed2018-08-31
404 Failed2018-08-28
404 Failed2018-08-24
404 Failed2018-08-21
404 Failed2018-08-17
404 Failed2018-08-14
404 Failed2018-08-10
404 Failed2018-08-07
404 Failed2018-08-03
404 Failed2018-07-31
404 Failed2018-07-27
404 Failed2018-07-24
404 Failed2018-07-20
404 Failed2018-07-17
404 Failed2018-07-13
404 Failed2018-07-10
404 Failed2018-07-06
404 Failed2018-07-03
404 Failed2018-06-29
404 Failed2018-06-26
404 Failed2018-06-22
404 Failed2018-06-19
404 Failed2018-06-15
404 Failed2018-06-12
404 Failed2018-06-08
404 Failed2018-06-05
404 Failed2018-06-01
404 Failed2018-05-29
404 Failed2018-05-25
404 Failed2018-05-22
404 Failed2018-05-18
404 Failed2018-05-15
404 Failed2018-05-11
404 Failed2018-05-08
404 Failed2018-05-04
404 Failed2018-05-01
404 Failed2018-04-27
404 Failed2018-04-24
404 Failed2018-04-20
404 Failed2018-04-17
404 Failed2018-04-13
404 Failed2018-04-10
404 Failed2018-04-06
404 Failed2018-04-03
404 Failed2018-02-27
404 Failed2018-02-23
404 Failed2018-02-20
404 Failed2018-02-16
404 Failed2018-02-13
404 Failed2018-02-09
404 Failed2018-02-06
404 Failed2018-02-02
404 Failed2018-01-30
404 Failed2018-01-26
404 Failed2018-01-23
404 Failed2018-01-19
404 Failed2018-01-16
404 Failed2018-01-12
-1 Failed2018-01-09
-1 Failed2018-01-05
-1 Failed2018-01-02
-1 Failed2017-12-29
-1 Failed2017-12-26
-1 Failed2017-12-22
-1 Failed2017-12-19
-1 Failed2017-12-15
-1 Failed2017-12-12
-1 Failed2017-12-08
-1 Failed2017-12-05
-1 Failed2017-12-01
-1 Failed2017-11-28
-1 Failed2017-11-24
-1 Failed2017-11-21
-1 Failed2017-11-17
503 Failed2017-11-14
503 Failed2017-11-10
503 Failed2017-11-07
503 Failed2017-11-03
503 Failed2017-10-31
503 Failed2017-10-27
503 Failed2017-10-24
503 Failed2017-10-20
200 OK2017-10-17
200 OK2017-10-13
200 OK2017-10-10
200 OK2017-10-06
200 OK2017-10-03
200 OK2017-09-29
200 OK2017-09-26
200 OK2017-09-22
200 OK2017-09-19
200 OK2017-09-15
200 OK2017-09-12
200 OK2017-09-08
200 OK2017-09-05
200 OK2017-09-01
200 OK2017-08-29
200 OK2017-08-25
200 OK2017-08-22
200 OK2017-08-18
200 OK2017-08-15
200 OK2017-08-11
200 OK2017-08-08
200 OK2017-08-04
200 OK2017-08-01
200 OK2017-07-28
200 OK2017-07-25
200 OK2017-07-21
200 OK2017-07-18
200 OK2017-07-14
200 OK2017-07-04
200 OK2017-06-30
200 OK2017-06-27
200 OK2017-06-23
200 OK2017-06-20
200 OK2017-06-16
200 OK2017-06-13
200 OK2017-06-09
200 OK2017-06-06
200 OK2017-06-02
200 OK2017-05-30
200 OK2017-05-26
200 OK2017-05-23
200 OK2017-05-19
200 OK2017-05-16
200 OK2017-05-12
200 OK2017-05-09
200 OK2017-05-05
200 OK2017-05-02
200 OK2017-04-28
200 OK2017-04-25
200 OK2017-04-21
200 OK2017-04-18
200 OK2017-04-14
200 OK2017-04-11
200 OK2017-04-07
200 OK2017-04-04
200 OK2017-03-31
200 OK2017-03-28
200 OK2017-03-24
200 OK2017-03-21
200 OK2017-03-17
200 OK2017-03-14
200 OK2017-03-10
200 OK2017-03-07
200 OK2017-03-03
200 OK2017-02-28
200 OK2017-02-24
200 OK2017-02-21
200 OK2017-02-17
200 OK2017-02-14
200 OK2017-02-10
200 OK2017-02-07
200 OK2017-02-03
200 OK2017-01-31
200 OK2017-01-27
200 OK2017-01-24
200 OK2017-01-20
200 OK2017-01-17
200 OK2017-01-13
200 OK2017-01-10
200 OK2017-01-06
200 OK2017-01-03
200 OK2016-12-30
200 OK2016-12-27
200 OK2016-12-23
200 OK2016-12-20
200 OK2016-12-16
200 OK2016-12-13
200 OK2016-12-09
200 OK2016-12-06
200 OK2016-12-02
200 OK2016-11-29
200 OK2016-11-25
200 OK2016-11-22
200 OK2016-11-18
200 OK2016-11-15
200 OK2016-11-11
200 OK2016-11-08
200 OK2016-11-04
200 OK2016-11-01
200 OK2016-10-28
200 OK2016-10-25
200 OK2016-10-21
200 OK2016-10-18
200 OK2016-10-14
200 OK2016-10-11
200 OK2016-10-07
200 OK2016-10-04
200 OK2016-09-30
200 OK2016-09-27
-1 Failed2016-09-23
-1 Failed2016-09-20
-1 Failed2016-09-16
-1 Failed2016-09-13
200 OK2016-09-09
200 OK2016-09-06
200 OK2016-09-02
200 OK2016-08-30
200 OK2016-08-26
200 OK2016-08-23
200 OK2016-08-19
200 OK2016-08-16
200 OK2016-08-12
200 OK2016-08-09
200 OK2016-08-05
200 OK2016-08-02
200 OK2016-07-29
200 OK2016-07-26
200 OK2016-07-22
200 OK2016-07-19
200 OK2016-07-15
200 OK2016-07-12
200 OK2016-07-08
200 OK2016-07-05
200 OK2016-07-01
200 OK2016-06-28
200 OK2016-06-24
200 OK2016-06-21
200 OK2016-06-17
200 OK2016-06-14
200 OK2016-06-10
200 OK2016-06-07
200 OK2016-06-03
200 OK2016-05-31
200 OK2016-05-27
200 OK2016-05-24
200 OK2016-05-20
200 OK2016-05-17
200 OK2016-05-13
200 OK2016-05-10
200 OK2016-05-06
200 OK2016-05-03
200 OK2016-04-29
200 OK2016-04-26
200 OK2016-04-22
200 OK2016-04-19
200 OK2016-04-15
200 OK2016-04-12
200 OK2016-04-08
200 OK2016-04-05
200 OK2016-04-01
200 OK2016-03-29
200 OK2016-03-28
200 OK2016-03-25
200 OK2016-03-23
200 OK2016-03-21
200 OK2016-03-18
200 OK2016-03-16
200 OK2016-03-14
200 OK2016-03-11
200 OK2016-03-09
200 OK2016-03-07
200 OK2016-03-04
200 OK2016-03-02
200 OK2016-02-29
200 OK2016-02-26
200 OK2016-02-24
200 OK2016-02-22
200 OK2016-02-19
200 OK2016-02-17
200 OK2016-02-15
200 OK2016-02-14
200 OK2016-02-12
200 OK2016-02-10
200 OK2016-02-08
200 OK2016-02-07
200 OK2016-02-05
200 OK2016-02-03
503 Failed2016-02-01
503 Failed2016-01-31
503 Failed2016-01-29
503 Failed2016-01-27
503 Failed2016-01-25
503 Failed2016-01-24
503 Failed2016-01-22
200 OK2016-01-20
200 OK2016-01-18
200 OK2016-01-17
200 OK2016-01-15
200 OK2016-01-13
200 OK2016-01-11
200 OK2016-01-10
200 OK2016-01-08
200 OK2016-01-06
200 OK2016-01-04

Tags

DNA Interaction and Network
Drosophila melanogaster Homo sapiens Mus musculus
transcription factor binding site

Record metadata

  • Created on: 2015-06-20
  • Curated by:
    • Lina Ma [2016-09-26]
    • Lin Liu [2016-03-26]
    • Li Yang [2015-11-23]
    • Chunlei Yu [2015-07-11]
    • Li Yang [2015-06-26]
Stats