Prediction of Protein Binding Regions in Disordered Proteins
Institute of Molecular Life Sciences · Hungarian Academy of Sciences
Abstract
Many disordered proteins function via binding to a structured partner and undergo a disorder-to-order transition. The coupled folding and binding can confer several functional advantages such as the precise control of binding specificity without increased affinity. Additionally, the inherent flexibility allows the binding site to adopt various conformations and to bind to multiple partners. These features explain the prevalence of such binding elements in signaling and regulatory processes. In this work, we report ANCHOR, a method for the prediction of disordered binding regions. ANCHOR relies on the pairwise energy estimation approach that is the basis of IUPred, a previous general disorder prediction method.…
Citation impact
- FWCI
- 10.81
- Percentile
- 100%
- References
- 99
Authors
3Topics & keywords
- Intrinsically disordered proteins
- Globular protein
- Binding site
- Binding energy
- Folding (DSP implementation)
- Computational biology
- Proteome
- Plasma protein binding
- Affordable and clean energy