Binding domain

A binding domain is a protein domain which binds to a specific atom or molecule, such as calcium or DNA. A protein domain is a part of a protein sequence and a tertiary structure that can change, function, and live by itself independent of the rest of the protein chain.[1] Upon binding, proteins may undergo a conformational change. Binding domains are essential for the function of many proteins. They are essential because they help splice, assemble, and translate proteins.[2]

Examples of binding domains include the Zinc finger, which binds to DNA, and EF hand, which binds to calcium.

References

Phillips, DC. (1966). "The three-dimensional structure of an enzyme molecule". Scientific American. 215 (5): 78–90. doi:10.1038/scientificamerican1166-78. PMID 5978599.
Yong, J., T. J. Golembe, D. J. Battle, L. Pellizzoni, and G. Dreyfuss. "SnRNAs Contain Specific SMN-binding Domains That Are Essential for SnRNP Assembly". Molecular and Cellular Biology. U.S. National Library of Medicine, April 2004. Retrieved April 2017.

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[1] Phillips, DC. (1966). "The three-dimensional structure of an enzyme molecule". Scientific American. 215 (5): 78–90. doi:10.1038/scientificamerican1166-78. PMID 5978599.

[2] Yong, J., T. J. Golembe, D. J. Battle, L. Pellizzoni, and G. Dreyfuss. "SnRNAs Contain Specific SMN-binding Domains That Are Essential for SnRNP Assembly". Molecular and Cellular Biology. U.S. National Library of Medicine, April 2004. Retrieved April 2017.

Binding domain

See also

References