AI Article Synopsis
- The study investigates the effects of intrinsic disorder in proteins, focusing on the colicin E3 rRNase domain and its interaction with the Im3 protein.
- An alanine mutation turns the colicin E3 rRNase into an intrinsically disordered protein (IDP), which still binds to Im3 but with significantly weaker affinity.
- The research highlights that while intrinsic disorder can be beneficial, it results in a notable reduction in binding strength and kinetic efficiency, demonstrating a trade-off between flexibility and stability in protein interactions.
Article Abstract
The kinetic and thermodynamic consequences of intrinsic disorder in protein-protein recognition are controversial. We address this by inducing one partner of the high-affinity colicin E3 rRNase domain-Im3 complex (K(d) ≈ 10(-12) M) to become an intrinsically disordered protein (IDP). Through a variety of biophysical measurements, we show that a single alanine mutation at Tyr507 within the hydrophobic core of the isolated colicin E3 rRNase domain causes the enzyme to become an IDP (E3 rRNase(IDP)). E3 rRNase(IDP) binds stoichiometrically to Im3 and forms a structure that is essentially identical to the wild-type complex. However, binding of E3 rRNase(IDP) to Im3 is 4 orders of magnitude weaker than that of the folded rRNase, with thermodynamic parameters reflecting the disorder-to-order transition on forming the complex. Critically, pre-steady-state kinetic analysis of the E3 rRNase(IDP)-Im3 complex demonstrates that the decrease in affinity is mostly accounted for by a drop in the electrostatically steered association rate. Our study shows that, notwithstanding the advantages intrinsic disorder brings to biological systems, this can come at severe kinetic and thermodynamic cost.
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