Abstract
Effect of neighbouring residues in conformational plasticity of intrinsically disordered regions. The concept of unstructured proteins has opened new avenues in the field of structural biology. Intrinsically disordered proteins (IDPs) are the new class of proteins which have been found to be a major player in many significant cellular functions. IDPs have been characterised by its physicochemical properties as well as its molecular interaction behaviour. Detailed study of IDPs can lead to a better understanding of protein folding and its functioning. To understand the source of disorderedness in the disordered regions (IDRs) in IDPs, we studied how the sequence environment of a disordered region correlates to its randomness. Here, we analysed the physicochemical and structural features like amino acid propensities, net charge, hydropathy index, secondary structure propensity, relative surface accessibility, interaction density and H-bonds to characterise the neighbours of the IDRs. Five residues, each towards N and C terminal of the disordered region are considered as the neighbours of IDRs. These neighbouring residues are found to be enriched in disorder promoting amino acids and have higher propensity to form loops than other secondary structures. Solvent accessibility of neighbouring residues also showed increasing trend as we move towards the IDRs. The variation of other parameters along with the above observation indicates that the neighbouring residues of IDRs induce a degree of flexibility to the adjoining IDRs. Based on our findings, we are designing an algorithm using random forest, which shall predict the disordered region based on its neighbouring sequences. The information on IDRs and its neighbours can be useful for proteins to be expressed or characterised for the first time. It can also provide a lead in understanding the molecular mechanism behind the polymorphic interactions that are involved with IDPs.
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