| URL: | http://app1.unmc.edu/mcam |
| Full name: | Mammalian Cell Adhesion Molecule |
| Description: | Mammalian Cell Adhesion Molecule (MCAM) is an interactive web-based database containing cell adhesion molecules (CAMs) from the mammalian genome. The MCAM database serves the community of biologists by providing the resources to search for sequence information and other details about CAMs including function and virtual gene expression data available for normal and tumor tissues as well as cell lines. The MCAM contains nucleotide and protein sequences of mouse, human and rat CAMs and includes Gene Ontology (GO), UniGene, UniProt, PIR, SwissProt and OMIM entries. In addition, links to GeneAtlas, GeneCards, NCBI Homologue, CGAP - Gene Finder, UniGene expression profile and GO processes and functions for each gene are provided. |
| Year founded: | 2008 |
| Last update: | |
| Version: | |
| Accessibility: |
Accessible
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| Country/Region: | United States |
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| Major species: |
NA
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| Keywords: |
| University/Institution: | University of Nebraska Medical Center |
| Address: | |
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| Province/State: | Nebraska |
| Country/Region: | United States |
| Contact name (PI/Team): | Anguraj Sadanandam |
| Contact email (PI/Helpdesk): | asadanandam@lbl.gov |
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MCAM: a database to accelerate the identification of functional cell adhesion molecules. [PMID: 19259402]
In the post-genomic era, computational identification of cell adhesion molecules (CAMs) becomes important in defining new targets for diagnosis and treatment of various diseases including cancer. Lack of a comprehensive CAM-specific database restricts our ability to identify and characterize novel CAMs. Therefore, we developed a comprehensive mammalian cell adhesion molecule (MCAM) database. The current version is an interactive Web-based database, which provides the resources needed to search mouse, human and rat-specific CAMs and their sequence information and characteristics such as gene functions and virtual gene expression patterns in normal and tumor tissues as well as cell lines. Moreover, the MCAM database can be used for various bioinformatics and biological analyses including identifying CAMs involved in cell-cell interactions and homing of lymphocytes, hematopoietic stem cells and malignant cells to specific organs using data from high-throughput experiments. Furthermore, the database can also be used for training and testing existing transmembrane (TM) topology prediction methods specifically for CAM sequences. The database is freely available online at http://app1.unmc.edu/mcam. |