Binding domain
In molecular biology, 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 or evolve, 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.
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