Fig. 4.
Fig. 4. The BION-1/D4βc interface. / D4βc is shown as a surface representation colored according to the functional effect of residue substitution. Blue represents residues whose substitution abrogates binding of BION-1 but does not affect affinity-conversion. Red represents residues whose substitution reduces affinity-conversion but does not affect binding of BION-1. Yellow represents residues whose substitution does not affect binding of BION-1 or cytokines. Gray represents residues that have not been examined by mutation and do not contact BION-1. The identities of key D4βc residues are shown in italics. Residues in BION-1 that contact D4βc are shown in stick representation and colored cyan blue (hydrophilic) or brown (hydrophobic-aromatic). The backbone atoms of residues colored gray show the connectivity of the loops.

The BION-1/D4βc interface.

D4βc is shown as a surface representation colored according to the functional effect of residue substitution. Blue represents residues whose substitution abrogates binding of BION-1 but does not affect affinity-conversion. Red represents residues whose substitution reduces affinity-conversion but does not affect binding of BION-1. Yellow represents residues whose substitution does not affect binding of BION-1 or cytokines. Gray represents residues that have not been examined by mutation and do not contact BION-1. The identities of key D4βc residues are shown in italics. Residues in BION-1 that contact D4βc are shown in stick representation and colored cyan blue (hydrophilic) or brown (hydrophobic-aromatic). The backbone atoms of residues colored gray show the connectivity of the loops.

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