[gmx-users] Protein in Guanidinium Solution
Biswajit Gorai
biswajit.ju at gmail.com
Sat Feb 16 05:34:49 CET 2013
Dear GMX Users,
Past few months I am struggling to unfold my protein using Guanidinium
(GDM) solutions (3,4,5,6 M).
I already did temperature (upto 498 K) induced unfolding, and able to get
expected results in 60 ns.
For GDM (6M), I did simulation upto 120 ns but my target protein is intact
(rmsd ~2 A).
It seems chemical denaturants take comparatively more time, so I increased
the temperature to 423 K to speed-up the process.
Now m worried, even after 80 ns simulation in 6M GDM and 423 K, target was
not showing at all any remarkable structural change
Also I tried by changing the temperature coupling groups, such as:
a) Protein Non-Protein
b) System
c) Protein+GDM Water+Ions
But all seems waste.
*Brief workflow of my work is:*
a) Build GDM topology from AmberTools and partial charge was imported from *J.
Phys. Chem. B 2011, 115, 12521–1252.
gdm.itp::
[ moleculetype ]
; Name nrexcl
GDM 3
[ atoms ]
; nr type resnr residue atom cgnr charge mass
typeB ch
argeB
1 CA 1 GDM C1 1 0.99610 12.000000
2 N2 1 GDM N1 2 -0.94930 14.000000
3 H 1 GDM H1 3 0.47530 1.000000
4 H 1 GDM H2 4 0.47530 1.000000
5 N2 1 GDM N2 5 -0.94930 14.000000
6 H 1 GDM H3 6 0.47530 1.000000
7 H 1 GDM H4 7 0.47530 1.000000
8 N2 1 GDM N3 8 -0.94930 14.000000
9 H 1 GDM H5 9 0.47530 1.000000
10 H 1 GDM H6 10 0.47530 1.000000
[ bonds ]
; ai aj funct r k
2 3 1 1.0140e-01 3.3572e+05
2 4 1 1.0140e-01 3.3572e+05
5 6 1 1.0140e-01 3.3572e+05
5 7 1 1.0140e-01 3.3572e+05
8 9 1 1.0140e-01 3.3572e+05
8 10 1 1.0140e-01 3.3572e+05
1 2 1 1.3390e-01 4.0819e+05
1 5 1 1.3390e-01 4.0819e+05
1 8 1 1.3390e-01 4.0819e+05
[ pairs ]
; ai aj funct
2 6 1
2 7 1
2 9 1
2 10 1
5 3 1
8 3 1
5 4 1
8 4 1
5 9 1
5 10 1
8 6 1
8 7 1
[ angles ]
; ai aj ak funct theta cth
1 2 3 1 1.2124e+02 4.0827e+02
1 2 4 1 1.2124e+02 4.0827e+02
1 5 6 1 1.2124e+02 4.0827e+02
1 5 7 1 1.2124e+02 4.0827e+02
1 8 9 1 1.2124e+02 4.0827e+02
1 8 10 1 1.2124e+02 4.0827e+02
3 2 4 1 1.1485e+02 3.3514e+02
6 5 7 1 1.1485e+02 3.3514e+02
9 8 10 1 1.1485e+02 3.3514e+02
2 1 5 1 1.2017e+02 6.1061e+02
2 1 8 1 1.2017e+02 6.1061e+02
5 1 8 1 1.2017e+02 6.1061e+02
[ dihedrals ]
;i j k l func C0 ... C5
2 1 5 6 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
2 1 5 7 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
2 1 8 9 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
2 1 8 10 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
5 1 2 3 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
8 1 2 3 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
5 1 2 4 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
8 1 2 4 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
5 1 8 9 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
5 1 8 10 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
8 1 5 6 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
8 1 5 7 3 5.64840 0.00000 -5.64840
0.00000
0.00000 0.00000 ;
1 3 2 4 3 9.20480 0.00000 -9.20480
0.00000
0.00000 0.00000 ;
1 6 5 7 3 9.20480 0.00000 -9.20480
0.00000
0.00000 0.00000 ;
1 9 8 10 3 9.20480 0.00000 -9.20480
0.00000
0.00000 0.00000 ;
8 1 5 2 3 9.20480 0.00000 -9.20480
0.00000
0.00000 0.00000 ;
*b) Build small equilibrated (NVT at 310 K) boxes at 3, 4, 5, 6 M of GDM+
ion.
c) Protein in GDM
i) Solvate the protein in 6M GDM
ii) Add CL to neutralize the system
iii) Minimize using SD followed by CG.
iv) NVT (2 ns) and NPT (5 ns) equilibration
v) Finally production run.
*md.mdp::*
*title = Gdm-Amber-CTX-6M
; Run parameters
integrator = sd
nsteps = 20000000
dt = 0.002
; Output control
nstxout = 5000
nstvout = 5000
nstxtcout = 5000
nstenergy = 5000
nstlog = 5000
; Bond parameters
continuation = yes
constraint_algorithm = lincs
constraints = all-bonds
lincs_iter = 1
lincs_order = 4
; Neighborsearching
ns_type = grid
nstlist = 5
rlist = 1.0
rcoulomb = 1.0
rvdw = 1.0
; Electrostatics
coulombtype = PME
pme_order = 4
fourierspacing = 0.16
; Temperature coupling is on
tcoupl = V-rescale
tc-grps = protein_gdm Water_and_ions ; Protein Non-Protein ;
System (also tried)
urate
tau_t = 0.1 0.1
ref_t = 423 423
; Pressure coupling is on
pcoupl = Parrinello-Rahman
pcoupltype = isotropic
tau_p = 5.0
ref_p = 1.0
compressibility = 4.5e-5
; Periodic boundary conditions
pbc = xyz
; Dispersion correction
DispCorr = EnerPres
; Velocity generation
gen_vel = no *
I am using AMBER99SB-ILDN and TIP3P in GROMACS 4.5.4v. I really need ur
valuable sugestions.
Thanking all.
Biswajit
* *
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