The IDP-Specific Force Field <i>ff14IDPSFF</i> Improves the Conformer Sampling of Intrinsically Disordered Proteins

Dong, Song; Luo, Ray; Chen, Haifeng

doi:10.1021/acs.jcim.7b00135

Cited by 178 publications

(195 citation statements)

References 61 publications

(122 reference statements)

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“…19 In order to better reproduce the disordered conformation, a set of AMBER force fields ff99IDPs 20, 21 and others 22 were used, which were developed specially for IDPs with grid-based energy correction maps (CMAP) term 23, 24 to correct the dihedral of backbone for eight disordered-promotion residues of Alanine, Arginine, Glycine, Glutamine, Serine, Glutamic acid, Lysine, and Proline. By adding CMAP energy term, the Φ/Ψ distributions of the eight disorder-promoting residues have been improved with respect to the benchmark data of IDPs, while the root mean squared percentage deviation is less than 0.15% between the benchmark and the simulation 20 .…”

Section: Introductionmentioning

confidence: 99%

Conformation dynamics of the intrinsically disordered protein c-Myb with the ff99IDPs force field

et al. 2017

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The intrinsically disordered protein c-Myb plays a critical role in cellular proliferation and differentiation. Loss of c-myb function results in embryonic lethality due to failure of fetal hepatic hematopoiesis. The conformation dynamics of the intrinsically disordered c-Myb are still unknown. Here, molecular dynamics (MD) simulations with the intrinsically disordered protein force field ff99IDPs were used to study the conformation dynamics. In comparison with ff99SBildn, ff99IDPs can reproduce more diverse disordered conformers of c-Myb. The predicted secondary chemical shift under ff99IDPs is more close to that of experiment data than that under ff99SBildn. Therefore, ff99IDPs can sample native molten globule, native pre-molten globule and native coil conformers for c-Myb. These results are consistent with those of other intrinsically disordered proteins. Kinetic analysis of MD simulations shows that c-Myb folds via a two-state process and indicates that c-Myb folds in the order of tertiary folding and helical folding. The folding nucleus of KEL plays an essential role in stabilizing the folding state with dynamic correlation networks. The influences of solvent models for TIP3P, TIP4P-EW and TIP5P were also investigated and it was found that TIP3P and ff99IDPs are the best combination to research the conformer sampling of c-Myb. These results reveal the conformation dynamics of c-Myb and confirm that the ff99IDPs force field can be used to research the relationship between structure and function of other intrinsically disordered proteins.

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Section: Introductionmentioning

confidence: 99%

Conformation dynamics of the intrinsically disordered protein c-Myb with the ff99IDPs force field

et al. 2017

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“…[50] The default cutoff distance is 8 Å for evaluating the van der Waals and direct Coulomb interactions. [52] The force fields of ff14SB, [53] ff14IDPs, [45] and ff14IDPSFF [41] were employed to handle the intramolecular interactions, respectively. [51] The long-range electrostatic interactions were evaluated by using partial Mesh Ewald (PME) method.…”

Section: Molecular Dynamics Simulationmentioning

confidence: 99%

“…However, the structural basis of PHFs is still unsolved for assembly in atomic detail. [41][42][43] Force field plays a key role of MD simulations, but the validity of force field for MD simulations limits the proper sampling of IDPs. [36,38] Thus, the usage of former probes to characterize secondary structures content is limited for the studies of Tau aggregation.…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, Tau is a hydrophilic protein and belongs to the class of intrinsically disordered proteins (IDPs) without apparent ordered secondary structures detected by spectroscopy methods (CD). To overcome this defect, several generations of IDP-specific AMBER force fields such as ff99IDPs, [44] ff14IDPs, [45] and ff14IDPSFF [41] were built to improve the accurate modeling of IDPs. [39,40] Furthermore, molecular dynamics (MD) simulation is a powerful tool to investigate the dynamic ensemble of heterogeneous conformations and has referential significance to experiment for revealing the disorder-function paradigm of IDPs.…”

Section: Introductionmentioning

confidence: 99%

“…[36,38] Thus, the usage of former probes to characterize secondary structures content is limited for the studies of Tau aggregation. [41,46] Tau protein, as a highly soluble IDPs with little secondary structures, is suitable for understanding the disorderfunction relationship for IDPs with IDP-specific force fields. [41][42][43] Force field plays a key role of MD simulations, but the validity of force field for MD simulations limits the proper sampling of IDPs.…”

Section: Introductionmentioning

confidence: 99%

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Secondary structures transition of tau protein with intrinsically disordered proteins specific force field

Dan

Chen

2018

Chem Biol Drug Des

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Microtubule-associated Tau protein plays a key role in assembling microtubule and modulating the functional organization of the neuron and developing axonal morphology, growth, and polarity. The pathological Tau can aggregate into cross-beta amyloid as one of the hallmarks for Alzheimer's disease (AD). Therefore, one of the top priorities in AD research is to figure out the structural model of Tau aggregation and to screen the inhibitors. The latest generation intrinsically disordered protein specific force field ff14IDPSFF significantly improved the distributions of heterogeneous conformations for intrinsically disordered proteins (IDPs). Here, the molecular dynamics (MD) simulations with three force fields of ff14SB, ff14IDPs, and ff14IDPSFF were employed to investigate the secondary structures transition of Tau (267-312) fragment. The results indicate that ff14IDPSFF can generate more heterogeneous conformers, and the predicted secondary structural distribution is closer to that of the experimental observation. In addition, predicted secondary chemical shifts from ff14IDPSFF are the most approach to those of experiment. Secondary structures transition kinetics for Tau(267-312) with ff14IDPSFF shows that the secondary structures were gradually transformed from α-helix to β-strand and the β-strand located at the regions of the residues 274-280 and residues 305-311. Besides, the driving force for the secondary structures transition of Tau(267-312) is mainly hydrophobic interactions which located at hexa-peptides 275 VQIINK 280 and 306 VQIVYK 311 . Secondary structure transition of Tau protein can give insight into the aggregation mechanism for AD. K E Y W O R D Sff14IDPSFF force field, intrinsically disordered protein, secondary chemical shift, secondary structure transition, Tau protein

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Dimerization of Full‐Length Aβ‐42 Peptide: A Comparison of Different Force Fields and Water Models

Paul,

Biswas

2024

ChemPhysChem

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Among the two isoforms of amyloid‐ i.e., Aβ‐40 and Aβ‐42, Aβ‐42 is more toxic due to its increased aggregation propensity. The oligomerization pathways of amyloid‐β may be investigated by studying its dimerization process at an atomic level. Intrinsically disordered proteins (IDPs) lack well‐defined structures and are associated with numerous neurodegenerative disorders. Molecular dynamics simulations of these proteins are often limited by the choice of parameters due to inconsistencies in the empirically developed protein force fields and water models. To evaluate the accuracy of recently developed force fields for IDPs, we study the dimerization of full‐length Aβ‐42 in aqueous solution with three different combinations of AMBER force field parameters and water models such as ff14SB/TIP3P, ff19SB/OPC, and ff19SB/TIP3P using classical MD and Umbrella Sampling method. This work may be used as a benchmark to compare the performance of different force fields for the simulations of IDPs.

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The IDP-Specific Force Field ff14IDPSFF Improves the Conformer Sampling of Intrinsically Disordered Proteins

Cited by 178 publications

References 61 publications

Conformation dynamics of the intrinsically disordered protein c-Myb with the ff99IDPs force field

Conformation dynamics of the intrinsically disordered protein c-Myb with the ff99IDPs force field

Secondary structures transition of tau protein with intrinsically disordered proteins specific force field

Dimerization of Full‐Length Aβ‐42 Peptide: A Comparison of Different Force Fields and Water Models

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