Replica exchange molecular dynamics simulation study on the mechanism of desiccation-induced structuralization of an intrinsically disordered peptide as a model of LEA proteins.
desiccation protectant
late embryogenesis abundant proteins
α-helical coiled coil
Journal
Biophysics and physicobiology
ISSN: 2189-4779
Titre abrégé: Biophys Physicobiol
Pays: Japan
ID NLM: 101675089
Informations de publication
Date de publication:
2019
2019
Historique:
received:
02
04
2019
accepted:
03
06
2019
entrez:
28
1
2020
pubmed:
28
1
2020
medline:
28
1
2020
Statut:
epublish
Résumé
Group 3 late embryogenesis abundant (G3LEA) proteins, which act as a well-characterized desiccation protectant in anhydrobiotic organisms, are structurally disordered in solution, but they acquire a predominantly α-helical structure during drying. Thus, G3LEA proteins are now accepted as intrinsically disordered proteins (IDPs). Their functional regions involve characteristic 11-mer repeating motifs. In the present study, to elucidate the origin of the IDP property of G3LEA proteins, we applied replica exchange molecular dynamics (REMD) simulation to a model peptide composed of two tandem repeats of an 11-mer motif and its counterpart peptide whose amino acid sequence was randomized with the same amino acid composition as that of the 11-mer motif. REMD simulations were performed for a single α-helical chain of each peptide and its double-bundled strand in a wide water content ranging from 5 to 78.3 wt%. In the latter case, we tested different types of arrangement: 1) the dipole moments of the two helices were parallel or anti-parallel and 2) due to the amphiphilic nature of the α-helix of the 11-mer motif, two types of the side-to-side contact were tested: hydrophilic-hydrophilic facing or hydrophobic-hydrophobic facing. Here, we revealed that the single chain alone exhibits no IDP-like properties, even if it involves the 11-mer motif, and the hydrophilic interaction of the two chains leads to the formation of a left-handed α-helical coiled coil in the dry state. These results support the cytoskeleton hypothesis that has been proposed as a mechanism by which G3LEA proteins work as a desiccation protectant.
Identifiants
pubmed: 31984172
doi: 10.2142/biophysico.16.0_196
pii: 16_196
pmc: PMC6975979
doi:
Types de publication
Journal Article
Langues
eng
Pagination
196-204Informations de copyright
2019 © The Biophysical Society of Japan.
Déclaration de conflit d'intérêts
Conflict of Interest The authors declare that they have no conflicts of interest.
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