Ross,
The output is below. Thanks
-------------------------------------------------------
Amber 9 SANDER 2006
-------------------------------------------------------
| PMEMD implementation of SANDER, Release 9
| Run on 06/06/2008 at 16:09:26
[-O]verwriting output
File Assignments:
| MDIN:
min.in
| MDOUT:
complex_min.out
| INPCRD:
complex.inpcrd
| PARM:
complex.prmtop
| RESTRT:
complex_min.rst
| REFC:
refc
| MDVEL:
mdvel
| MDEN:
mden
| MDCRD:
mdcrd
| MDINFO:
mdinfo
|LOGFILE:
logfile
Here is the input file:
Initial minimisation of our
complex
&cntrl
imin=1, maxcyc=1000,
ncyc=400,
cut=20, ntb=0,
igb=1,
/
| Conditional Compilation Defines Used:
| DIRFRC_COMTRANS
| DIRFRC_EFS
| DIRFRC_NOVEC
| MPI
| SLOW_NONBLOCKING_MPI
| PUBFFT
| FFTLOADBAL_2PROC
| MKL
| New format PARM file being parsed.
| Version = 1.000 Date = 06/06/08 Time = 16:01:47
| Duplicated 0 dihedrals
| Duplicated 0 dihedrals
--------------------------------------------------------------------------------
1. RESOURCE USE:
--------------------------------------------------------------------------------
NATOM = 2694 NTYPES = 17 NBONH = 1329 MBONA = 1388
NTHETH = 3017 MTHETA = 1881 NPHIH = 5748 MPHIA = 4591
NHPARM = 0 NPARM = 0 NNB = 14815 NRES = 168
NBONA = 1388 NTHETA = 1881 NPHIA = 4591 NUMBND = 59
NUMANG = 119 NPTRA = 52 NATYP = 43 NPHB = 0
IFBOX = 0 NMXRS = 46 IFCAP = 0 NEXTRA = 0
NCOPY = 0
Implicit solvent radii are modified Bondi radii
(mbondi)
--------------------------------------------------------------------------------
2. CONTROL DATA FOR THE RUN
--------------------------------------------------------------------------------
General flags:
imin = 1, nmropt = 0
Nature and format of input:
ntx = 1, irest = 0, ntrx = 1
Nature and format of output:
ntxo = 1, ntpr = 50, ntrx = 1, ntwr =
500
iwrap = 0, ntwx = 0, ntwv = 0, ntwe =
0
ioutfm = 0, ntwprt = 0, idecomp = 0, rbornstat=
0
Potential function:
ntf = 1, ntb = 0, igb = 1, nsnb =
25
ipol = 0, gbsa = 0, iesp = 0
dielc = 1.00000, cut = 20.00000, intdiel = 1.00000
saltcon = 0.00000, offset = 0.09000, gbalpha= 1.00000
gbbeta = 0.00000, gbgamma = 0.00000, surften = 0.00500
rdt = 0.00000, rgbmax = 25.00000
alpb = 0
scnb = 2.00000, scee = 1.20000
Frozen or restrained atoms:
ibelly = 0, ntr = 0
Energy minimization:
maxcyc = 1000, ncyc = 400, ntmin = 1
dx0 = 0.01000, drms = 0.00010
--------------------------------------------------------------------------------
3. ATOMIC COORDINATES AND VELOCITIES
--------------------------------------------------------------------------------
begin time read from input coords = 0.000 ps
Number of triangulated 3-point waters found: 0
| Dynamic Memory, Types Used:
| Reals 81794
| Integers 252050
| Running AMBER/MPI version on 2 nodes
--------------------------------------------------------------------------------
4. RESULTS
--------------------------------------------------------------------------------
NSTEP ENERGY RMS GMAX NAME
NUMBER
1 -6.8120E+03 1.3612E+01 2.1864E+02 H42 2691
BOND = 361.7247 ANGLE = 397.1223 DIHED =
1628.3352
VDWAALS = -1261.3284 EEL = -11082.6784 EGB =
-2549.3611
1-4 VDW = 700.0442 1-4 EEL = 4994.1524 RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
50 -7.7370E+03 8.4612E-01 1.9291E+01 PB 2656
BOND = 86.0923 ANGLE = 347.5428 DIHED =
1607.9732
VDWAALS = -1480.4067 EEL = -11036.0858 EGB =
-2588.3621
1-4 VDW = 595.7157 1-4 EEL = 4730.5444 RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
100 -7.8256E+03 6.4938E-01 1.8211E+01 CG 1860
BOND = 95.2522 ANGLE = 376.9760 DIHED =
1605.2109
VDWAALS = -1506.3884 EEL = -11062.2867 EGB =
-2567.6875
1-4 VDW = 572.7459 1-4 EEL = 4660.5666 RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
150 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
200 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
250 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
300 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
350 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
NSTEP ENERGY RMS GMAX NAME
NUMBER
400 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
.... RESTARTED DUE TO LINMIN FAILURE ...
.... RESTARTED DUE TO LINMIN FAILURE ...
.... RESTARTED DUE TO LINMIN FAILURE ...
.... RESTARTED DUE TO LINMIN FAILURE ...
.... RESTARTED DUE TO LINMIN FAILURE ...
FINAL RESULTS
NSTEP ENERGY RMS GMAX NAME
NUMBER
421 NaN NaN 0.0000E+00 N 1
BOND = NaN ANGLE = NaN DIHED =
0.0000
VDWAALS = NaN EEL = NaN EGB =
NaN
1-4 VDW = NaN 1-4 EEL = NaN RESTRAINT =
0.0000
***** REPEATED LINMIN FAILURE *****
--------------------------------------------------------------------------------
5. TIMINGS
--------------------------------------------------------------------------------
| NonSetup CPU Time in Major Routines, Average for All Tasks:
|
| Routine Sec %
| ------------------------------
| DataDistrib 0.68 0.14
| Nonbond 493.96 99.54
| Bond 0.02 0.00
| Angle 0.17 0.03
| Dihedral 1.39 0.28
| Shake 0.00 0.00
| Other 0.04 0.01
| ------------------------------
| Total 496.26
| Generalized Born CPU Time, Average for All Tasks:
|
| Routine Sec %
| ------------------------------------
| Radii Calc 37.90 7.64
| Diagonal Calc 263.50 53.10
| Off Diagonal Calc 192.32 38.75
| Radii Distrib 0.24 0.05
| ---------------------------------
| Total 493.96 99.54
| Master Setup CPU time: 0.03 seconds
| Master NonSetup CPU time: 496.69 seconds
| Master Total CPU time: 496.72 seconds 0.14 hours
| Master Setup wall time: 0 seconds
| Master NonSetup wall time: 261 seconds
| Master Total wall time: 261 seconds 0.07 hours
On Fri, 2008-06-06 at 16:34 -0700, Ross Walker wrote:
> Hi Sasha,
>
>
>
> Can you post the output file from the minimization? You probably have
> two atoms sitting on top of each other or very close.
>
>
>
> All the best
>
> Ross
>
>
>
>
> From:owner-amber.scripps.edu [mailto:owner-amber.scripps.edu] On
> Behalf Of Sasha Buzko
> Sent: Friday, June 06, 2008 4:13 PM
> To: amber.scripps.edu
> Subject: RE: AMBER: Problems simulating a protein-ligand complex
>
>
>
>
>
> Hi Ross,
> thank you for the detailed instructions (although I'm trying to use GB
> and avoid having to add explicit solvent).
>
> I did get a complex with the correct position of the ligand (used
> Sirius to check the prmtop/inpcrd). But at the stage of minimization I
> run into NaN values for all energies after about 100 steps (in the
> minimization out file). Not sure whether it's missing parameters or
> something else.. frcmod file had the following:
>
> IMPROPER
> c3-cc-na-cc 1.1 180.0 2.0 Using
> default value
> h5-na-cc-nd 1.1 180.0 2.0 Using
> default value
> c -cc-cd-nd 1.1 180.0 2.0 Using
> default value
> cd-nc-c -o 10.5 180.0 2.0 General
> improper torsional angle (2 general atom types)
> na-nc-cd-nh 1.1 180.0 2.0 Using
> default value
> cd-hn-nh-hn 1.1 180.0 2.0 Using
> default value
> cc-cd-na-hn 1.1 180.0 2.0 General
> improper torsional angle (2 general atom types)
> cd-na-cc-na 1.1 180.0 2.0 Using
> default value
>
>
> But again, I'm not sure what could cause the issue with NaN values.
> Since the ligand is a triphosphate, I set its charge to -3 (using -nc
> -3 flag for antechamber). In any event, I'm a bit low on possible
> causes..
> Can you think of anything in this regard?
>
> Thanks again
>
> Sasha
>
>
> On Fri, 2008-06-06 at 15:55 -0700, Ross Walker wrote:
>
>
>
> Hi Sasha,
>
> I would do something along the lines of the following:
>
> 1) open protein pdb in a text editor and remove the END (at the end) and just make sure there is a ter card there. Also remove any connectivity data.
>
> 2) open the ligand pdb file and remove anything prior to the first atom definition. Go to the end and remove everything past the last atom definition and just add an END card.
>
> 3) cp protein pdb to complex.pdb
> Cat ligand pdb >> complex.pdb
>
> 4) load leap
> Source leaprc.ff99SB
> Source leaprc.gaff
> Loadamberprep ligand.prep
> Loadamberparams ligand.frcmod
> Foo = loadpdb complex.pdb
> Solvateoct foo TIP3PBOX 10.0
> Saveamberparm foo prmtop inpcrd
>
> I hope that makes sense and is what you actually want to do I.e make a prmtop and inpcrd for the solvated complex.
>
> All the best
> Ross
>
>
>
> From: owner-amber.scripps.edu [mailto:owner-amber.scripps.edu] On Behalf Of Sasha Buzko
> Sent: Friday, June 06, 2008 3:16 PM
> To: amber.scripps.edu
> Subject: Re: AMBER: Problems simulating a protein-ligand complex
>
> Thank you, David.
>
> With hydrogens added in another application, the antechamber part worked.
>
> But another issue appears when I combine the protein structure with the antechamber output in xleap. The ligand is loaded as a prepin file, followed by its frcmod with missing parameters. Then I load the pdb file of the protein and use complex = combine { protein GNP }, where GNP is the name of the residue assigned to the ligand. However, the ligand ends up being shifted in space far from the protein, even though the initial coordinates corresponded to the complex.. I assume that it's the result of the intermediate operations.. but is there a way to combine the two entities into the original complex?
>
> Thanks for any advice
>
> Sasha
>
>
>
>
> On Fri, 2008-06-06 at 11:59 -0700, David A. Case wrote:
>
> On Fri, Jun 06, 2008, Sasha Buzko wrote:
> >
> > The structure has correct connectivity and came directly from a PDB
> > file. Since the ligand PDB file is not that large, I'm pasting it below.
> > Thank you for any suggestions.
>
> You don't have any hydrogen atoms in your input structure. Antechamber
> doesn't know how to add hydrogens...you need to draw them in by hand, or
> use some other model building program to add all of the hydrogens.
>
> ...hope this helps...dac
>
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Received on Sun Jun 08 2008 - 06:08:07 PDT