Interactions between a single immunoglobulin-binding domain of protein L from Peptostreptococcus magnus and a human kappa light chain

The placement of a tryptophan residue into a single Ig-binding-domain of protein L from Peptostreptococcus magnus has been used to examine the binding interactions between the binding domain and kappa light chains (kappa-chains). The fluorescence intensity of the mutant domain increases on the forma...

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Bibliographic Details
Published in:Biochemical journal 1999-05, Vol.340 ( Pt 1) (1), p.193-199
Main Authors: Beckingham, J A, Bottomley, S P, Hinton, R, Sutton, B J, Gore, M G
Format: Article
Language:English
Subjects:
Amino Acid Substitution
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Binding Sites
Circular Dichroism
Humans
Hydrogen-Ion Concentration
Immunoglobulin G - metabolism
Immunoglobulin kappa-Chains - chemistry
Immunoglobulin kappa-Chains - metabolism
Kinetics
Peptide Fragments - chemistry
Peptide Fragments - metabolism
Peptostreptococcus
Protein Binding
Protein Structure, Secondary
Sequence Homology, Amino Acid
Spectrometry, Fluorescence
Static Electricity
Temperature
Thermodynamics
Tryptophan - genetics
Tryptophan - metabolism
Tyrosine - metabolism
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Summary:The placement of a tryptophan residue into a single Ig-binding-domain of protein L from Peptostreptococcus magnus has been used to examine the binding interactions between the binding domain and kappa light chains (kappa-chains). The fluorescence intensity of the mutant domain increases on the formation of a complex with kappa-chains. This has been used to determine the Kd of the complex under a range of conditions by using both pre-equilibrium and equilibrium methods. The Kd values determined for the complex with kappa-chains at a number of different pH values are very close to those obtained with the wild-type domain, indicating that the mutation has not substantially affected its binding properties. Examination of the reaction between the mutant domain and kappa-chains by stopped-flow fluorescence shows that complex formation takes place by two discrete, sequential processes. A fast bimolecular reaction, with a rate constant of 8.3x10(5) M-1. s-1 (at pH8.0 and 25 degrees C), is followed by a slow unimolecular process with a rate (1.45 s-1) that is independent of the concentration of the reactants. This suggests that a conformational change occurs after the initial encounter complex is formed. The dissociation of the complex at equilibrium occurs in a single process of rate 0.095 s-1 at pH8.0 and 25 degrees C. Stopped-flow CD studies show that a slow decrease in ellipticity at 275 nm occurs with a rate of 1.3 s-1 when wild-type protein binds to kappa-chains, suggesting that the conformational transition might involve a change in environment around one or more tyrosine residues.
ISSN:0264-6021
1470-8728
DOI:10.1042/0264-6021:3400193