MDP files for Protein in Water MD Simulation

 Copy the script of respective .mdp file and paste it into notepad and save as .mdp file (ions.mdp, minim.mdp, nvt.mdp, npt.mdp, md.mdp)

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Ions.mdp

; ions.mdp - used as input into grompp to generate ions.tpr

; Parameters describing what to do, when to stop and what to save

integrator  = steep         ; Algorithm (steep = steepest descent minimization)

emtol       = 1000.0        ; Stop minimization when the maximum force < 1000.0 kJ/mol/nm

emstep      = 0.01          ; Minimization step size

nsteps      = 50000         ; Maximum number of (minimization) steps to perform

 

; Parameters describing how to find the neighbors of each atom and how to calculate the interactions

nstlist         = 1         ; Frequency to update the neighbor list and long range forces

cutoff-scheme   = Verlet    ; Buffered neighbor searching

ns_type         = grid      ; Method to determine neighbor list (simple, grid)

coulombtype     = cutoff    ; Treatment of long range electrostatic interactions

rcoulomb        = 1.0       ; Short-range electrostatic cut-off

rvdw            = 1.0       ; Short-range Van der Waals cut-off

pbc             = xyz       ; Periodic Boundary Conditions in all 3 dimensions

 

 

minim.mdp

; minim.mdp - used as input into grompp to generate em.tpr

; Parameters describing what to do, when to stop and what to save

integrator  = steep         ; Algorithm (steep = steepest descent minimization)

emtol       = 1000.0        ; Stop minimization when the maximum force < 1000.0 kJ/mol/nm

emstep      = 0.01          ; Minimization step size

nsteps      = 50000         ; Maximum number of (minimization) steps to perform

 

; Parameters describing how to find the neighbors of each atom and how to calculate the interactions

nstlist         = 1         ; Frequency to update the neighbor list and long range forces

cutoff-scheme   = Verlet    ; Buffered neighbor searching

ns_type         = grid      ; Method to determine neighbor list (simple, grid)

coulombtype     = PME       ; Treatment of long range electrostatic interactions

rcoulomb        = 1.0       ; Short-range electrostatic cut-off

rvdw            = 1.0       ; Short-range Van der Waals cut-off

pbc             = xyz       ; Periodic Boundary Conditions in all 3 dimensions

 

 

 

nvt.mdp

title                   = OPLS Lysozyme NVT equilibration

define                  = -DPOSRES  ; position restrain the protein

; Run parameters

integrator              = md        ; leap-frog integrator

nsteps                  = 50000     ; 2 * 50000 = 100 ps

dt                      = 0.002     ; 2 fs

; Output control

nstxout                 = 500       ; save coordinates every 1.0 ps

nstvout                 = 500       ; save velocities every 1.0 ps

nstenergy               = 500       ; save energies every 1.0 ps

nstlog                  = 500       ; update log file every 1.0 ps

; Bond parameters

continuation            = no        ; first dynamics run

constraint_algorithm    = lincs     ; holonomic constraints

constraints             = h-bonds   ; bonds involving H are constrained

lincs_iter              = 1         ; accuracy of LINCS

lincs_order             = 4         ; also related to accuracy

; Nonbonded settings

cutoff-scheme           = Verlet    ; Buffered neighbor searching

ns_type                 = grid      ; search neighboring grid cells

nstlist                 = 10        ; 20 fs, largely irrelevant with Verlet

rcoulomb                = 1.0       ; short-range electrostatic cutoff (in nm)

rvdw                    = 1.0       ; short-range van der Waals cutoff (in nm)

DispCorr                = EnerPres  ; account for cut-off vdW scheme

; Electrostatics

coulombtype             = PME       ; Particle Mesh Ewald for long-range electrostatics

pme_order               = 4         ; cubic interpolation

fourierspacing          = 0.16      ; grid spacing for FFT

; Temperature coupling is on

tcoupl                  = V-rescale             ; modified Berendsen thermostat

tc-grps                 = Protein Non-Protein   ; two coupling groups - more accurate

tau_t                   = 0.1     0.1           ; time constant, in ps

ref_t                   = 300     300           ; reference temperature, one for each group, in K

; Pressure coupling is off

pcoupl                  = no        ; no pressure coupling in NVT

; Periodic boundary conditions

pbc                     = xyz       ; 3-D PBC

; Velocity generation

gen_vel                 = yes       ; assign velocities from Maxwell distribution

gen_temp                = 300       ; temperature for Maxwell distribution

gen_seed                = -1        ; generate a random seed

 

 

 

npt.mdp

title                   = OPLS Lysozyme NPT equilibration

define                  = -DPOSRES  ; position restrain the protein

; Run parameters

integrator              = md        ; leap-frog integrator

nsteps                  = 50000     ; 2 * 50000 = 100 ps

dt                      = 0.002     ; 2 fs

; Output control

nstxout                 = 500       ; save coordinates every 1.0 ps

nstvout                 = 500       ; save velocities every 1.0 ps

nstenergy               = 500       ; save energies every 1.0 ps

nstlog                  = 500       ; update log file every 1.0 ps

; Bond parameters

continuation            = yes       ; Restarting after NVT

constraint_algorithm    = lincs     ; holonomic constraints

constraints             = h-bonds   ; bonds involving H are constrained

lincs_iter              = 1         ; accuracy of LINCS

lincs_order             = 4         ; also related to accuracy

; Nonbonded settings

cutoff-scheme           = Verlet    ; Buffered neighbor searching

ns_type                 = grid      ; search neighboring grid cells

nstlist                 = 10        ; 20 fs, largely irrelevant with Verlet scheme

rcoulomb                = 1.0       ; short-range electrostatic cutoff (in nm)

rvdw                    = 1.0       ; short-range van der Waals cutoff (in nm)

DispCorr                = EnerPres  ; account for cut-off vdW scheme

; Electrostatics

coulombtype             = PME       ; Particle Mesh Ewald for long-range electrostatics

pme_order               = 4         ; cubic interpolation

fourierspacing          = 0.16      ; grid spacing for FFT

; Temperature coupling is on

tcoupl                  = V-rescale             ; modified Berendsen thermostat

tc-grps                 = Protein Non-Protein   ; two coupling groups - more accurate

tau_t                   = 0.1     0.1           ; time constant, in ps

ref_t                   = 300     300           ; reference temperature, one for each group, in K

; Pressure coupling is on

pcoupl                  = Parrinello-Rahman     ; Pressure coupling on in NPT

pcoupltype              = isotropic             ; uniform scaling of box vectors

tau_p                   = 2.0                   ; time constant, in ps

ref_p                   = 1.0                   ; reference pressure, in bar

compressibility         = 4.5e-5                ; isothermal compressibility of water, bar^-1

refcoord_scaling        = com

; Periodic boundary conditions

pbc                     = xyz       ; 3-D PBC

; Velocity generation

gen_vel                 = no        ; Velocity generation is off

 

 

md.mdp

title                   = OPLS Lysozyme NPT equilibration

; Run parameters

integrator              = md        ; leap-frog integrator

nsteps                  = 500000    ; 2 * 500000 = 1000 ps (1 ns)

dt                      = 0.002     ; 2 fs

; Output control

nstxout                 = 0         ; suppress bulky .trr file by specifying

nstvout                 = 0         ; 0 for output frequency of nstxout,

nstfout                 = 0         ; nstvout, and nstfout

nstenergy               = 5000      ; save energies every 10.0 ps

nstlog                  = 5000      ; update log file every 10.0 ps

nstxout-compressed      = 5000      ; save compressed coordinates every 10.0 ps

compressed-x-grps       = System    ; save the whole system

; Bond parameters

continuation            = yes       ; Restarting after NPT

constraint_algorithm    = lincs     ; holonomic constraints

constraints             = h-bonds   ; bonds involving H are constrained

lincs_iter              = 1         ; accuracy of LINCS

lincs_order             = 4         ; also related to accuracy

; Neighborsearching

cutoff-scheme           = Verlet    ; Buffered neighbor searching

ns_type                 = grid      ; search neighboring grid cells

nstlist                 = 10        ; 20 fs, largely irrelevant with Verlet scheme

rcoulomb                = 1.0       ; short-range electrostatic cutoff (in nm)

rvdw                    = 1.0       ; short-range van der Waals cutoff (in nm)

; Electrostatics

coulombtype             = PME       ; Particle Mesh Ewald for long-range electrostatics

pme_order               = 4         ; cubic interpolation

fourierspacing          = 0.16      ; grid spacing for FFT

; Temperature coupling is on

tcoupl                  = V-rescale             ; modified Berendsen thermostat

tc-grps                 = Protein Non-Protein   ; two coupling groups - more accurate

tau_t                   = 0.1     0.1           ; time constant, in ps

ref_t                   = 300     300           ; reference temperature, one for each group, in K

; Pressure coupling is on

pcoupl                  = Parrinello-Rahman     ; Pressure coupling on in NPT

pcoupltype              = isotropic             ; uniform scaling of box vectors

tau_p                   = 2.0                   ; time constant, in ps

ref_p                   = 1.0                   ; reference pressure, in bar

compressibility         = 4.5e-5                ; isothermal compressibility of water, bar^-1

; Periodic boundary conditions

pbc                     = xyz       ; 3-D PBC

; Dispersion correction

DispCorr                = EnerPres  ; account for cut-off vdW scheme

; Velocity generation

gen_vel                 = no        ; Velocity generation is off

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