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Abstract
We show here that chicken gizzard caldesmon (CaD) and its C-terminal domain (residues 636–771, CaD136) are intrinsically disordered proteins. The computational and experimental analyses of the wild type CaD136 and series of its single tryptophan mutants (W674A, W707A, and W737A) and a double tryptophan mutant (W674A/W707A) suggested that although the interaction of CaD136 with calmodulin (CaM) can be driven by the non-specific electrostatic attraction between these oppositely charged molecules, the specificity of CaD136-CaM binding is likely to be determined by the specific packing of important CaD136 tryptophan residues at the CaD136-CaM interface. It is suggested that this interaction can be described as the “buttons on a charged string” model, where the electrostatic attraction between the intrinsically disordered CaD136 and the CaM is solidified in a “snapping buttons” manner by specific packing of the CaD136 “pliable buttons” (which are the short segments of fluctuating local structure condensed around the tryptophan residues) at the CaD136-CaM interface. Our data also show that all three “buttons” are important for binding, since mutation of any of the tryptophans affects CaD136-CaM binding and since CaD136 remains CaM-buttoned even when two of the three tryptophans are mutated to alanines.
Highlights
Caldesmon (CaD) is a ubiquitous actin-binding protein of ∼770 residues with the molecular mass of 88.75 kDa and pI of 5.56 (Mabuchi et al, 1996)
Data presented in our study suggest that CaD and its C-terminal domain, CaD136, are intrinsically disordered proteins
It is likely that CaD136-CaM interaction is driven by the non-specific electrostatic attraction interactions due to the opposite charges of these two proteins
Summary
Caldesmon (CaD) is a ubiquitous actin-binding protein of ∼770 residues with the molecular mass of 88.75 kDa and pI of 5.56 (Mabuchi et al, 1996). CaD is found to form tight complexes with several proteins, such as myosin, actin, CaM (Marston & Redwood, 1991), caltropin (Gusev, 2001; Mani & Kay, 1996), calcyclin (Kuznicki & Filipek, 1987), S100ao, S100a and S100b proteins (Polyakov et al, 1998), and non-muscle tropomyosin (Gusev, 2001) It possesses distinctive phospholipid-binding properties (Czurylo, Zborowski & Dabrowska, 1993; Makowski et al, 1997; Vorotnikov, Bogatcheva & Gusev, 1992; Vorotnikov & Gusev, 1990)
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