posted on 2024-07-10, 05:29authored byGuanglin Chen, Zhiyong Zhang
Intrinsically disordered regions (IDRs), which may be
functionally
important, are common in proteins. However, the structures of IDRs
are often missing due to their highly dynamic nature. In the study
of IDRs, integrative modeling combining computational simulations
and experimental data is a common approach, for which initial structures
of the IDRs need to be built. However, applying this method to large
protein complexes is challenging because existing structure generation
tools are sometimes unsuitable for IDRs in large systems. To facilitate
convenient and rapid structure generation of IDRs in large protein
complexes, we developed a computational tool named IDRWalker based
on self-avoiding random walks. Three protein complexes were used to
illustrate the efficiency of the tool, and it was found that IDRs
in more than 800 chains of the nuclear pore complex could be generated
in minutes. These structures of large protein complexes with added
IDRs can be further used to run computational simulations for integrative
modeling.