Figure 3
Figure 3. Configurations of allosteric disulfide bonds. (A) Classification of disulfide bonds based on their geometry.95,96 The geometry is defined by the 5 bond angles (χ angles) linking the 2 α-carbons of the cystine residue. Cα, main chain carbon atom; Cβ, side chain carbon atom of each cysteine residue. The χ angles are recorded as being either positive or negative. The 3 basic types of bond configurations (spirals, hooks, and staples) are based on the signs of the central 3 angles, and they can be either RH or LH depending on whether the sign of the χ3 angle is positive or negative, respectively. These 6 bond types expand to 20 when the χ1 and χ1′ angles are taken into account. (B) Examples of the structures of the emerging allosteric configurations: –RHStaple, –LHHook, and −/+RHHook.

Configurations of allosteric disulfide bonds. (A) Classification of disulfide bonds based on their geometry.95,96  The geometry is defined by the 5 bond angles (χ angles) linking the 2 α-carbons of the cystine residue. Cα, main chain carbon atom; Cβ, side chain carbon atom of each cysteine residue. The χ angles are recorded as being either positive or negative. The 3 basic types of bond configurations (spirals, hooks, and staples) are based on the signs of the central 3 angles, and they can be either RH or LH depending on whether the sign of the χ3 angle is positive or negative, respectively. These 6 bond types expand to 20 when the χ1 and χ1′ angles are taken into account. (B) Examples of the structures of the emerging allosteric configurations: –RHStaple, –LHHook, and −/+RHHook.

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