Everything about Calmodulin totally explained
Calmodulin (
CaM) (an abbreviation for
CALcium
MODULated prote
IN) is a calcium-binding protein expressed in all
eukaryotic cells. It can bind to and regulate a number of different protein targets, thereby affecting many different cellular functions.
Function
CaM mediates processes such as inflammation, metabolism, apoptosis, muscle contraction, intracellular movement, short-term and long-term memory, nerve growth and the immune response. CaM is expressed in many cell types and can have different subcellular locations, including the cytoplasm, within organelles, or associated with the plasma or organelle membranes. Many of the proteins that CaM binds are unable to bind calcium themselves, and as such use CaM as a calcium sensor and signal transducer. CaM can also make use of the calcium stores in the endoplasmic reticulum, and the sarcoplasmic reticulum. CaM undergoes a conformational change upon binding to calcium, which enables it to bind to specific proteins for a specific response. CaM can bind up to four calcium ions, and can undergo post-translational modifications, such as phosphorylation, acetylation, methylation and proteolytic cleavage, each of which can potentially modulate its actions. Calmodulin can also bind to
edema factor toxin from the
anthrax bacteria.
Structure
Calmodulin is a small,
acidic protein approximately 148
amino acids long (16706
Dalton) and, as such, is a favorite for testing
protein simulation software. It contains four
EF-hand "
motifs", each of which binds a Ca
2+ ion. The protein has two approximately symmetrical
domains, separated by a flexible "hinge" region.
Mechanism
Calcium is bound via the use of the EF hand motif, which supplies an electronegative environment for ion coordination. After calcium binding, hydrophobic methyl groups from methionine residues become exposed on the protein via conformational change. This presents hydrophobic surfaces, which can in turn bind to Basic Amphiphilic Helices (BAA helices) on the target protein. These helices contain complementary hydrophobic regions. The flexibilily of Calmodulin's hinged region allows the molecule to "wrap around" its target. This property allows it to tightly bind to a wide range of different target proteins.
Family members
Other calcium-binding proteins
Calmodulin belongs to one of the two main groups of
calcium-binding proteins, called EF hand proteins. The other group, called
annexins, bind calcium and
phospholipid (for example,
lipocortin). Many other proteins bind calcium, although binding calcium may not be considered their principal function in the cell.
Further Information
Get more info on 'Calmodulin'.
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