d like to
be able to look at the table of existing parameters). I've been looking
through the "top" directory and can't find them anywhere. Can anyone give
me a pointer to where they are? Or are they hardwired into the code
somewhere?
Thanks so much,
David
--
David Mobley
dmob
Hunenberger papers from J. Chem. Phys (2006 or 2007) and references
therein. The good news is that for simple spherical ions K&H have worked
out the relevant corrections. The bad news is that if you move away from
simple spherical ions you've got problems.
David Mobley
On Fri, Dec 16, 2011 a
ld be documented in the manual since (with this behavior)
knowing what value of dihre-fc one is using is critical to knowing what
dihedral restraint strength one is using.
Thanks.
--
David Mobley
dmob...@gmail.com
504-383-3662
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sts/Search before posting!
> Please don't post (un)subscribe requests to the list. Use the
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dmob...@gmail.com
504-383-3662
--
gmx
/ still I think that there must be some underlying coding issue
>> > (probably />>/ one that only exists because of a reasonable assumption
>> > that nobody />>/ would annihilate the largest part of their system).
>> > />>/
>> > />>/ Ch
ously can do some benchmarking myself
as well but I thought I'd check in with the list first.
Thanks so much,
David
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Please search the archi
nd and
> protein, I have individual .top and .gro files for protein and ligand.
>
> Thanks in Advance
> --
> Best Regards
> SUNITA GUPTA
>
David Mobley
dmob...@gmail.com
504-383-3662
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Erik
On Jul 29, 2009, at 12:18 AM, David Mobley wrote:
> Erik,
>
> Here's the fixed md.c for 3.3.3. It is a one-line fix and is
> commented with DLM.
>
> Please note that the basic fix was developed by you guys in this
> Bugzilla: http://bugzilla.gromacs.org/show_bug.cgi?
I agree with Carsten. See perhaps the discussion at www.alchemistry.org as
well.
On Fri, Aug 7, 2009 at 2:35 AM, Carsten Kutzner wrote:
> On Aug 6, 2009, at 10:57 PM, Ragnarok sdf wrote:
>
> I am performing FEP do obtain the dimerization of a protein in
>> membrane. The lambda intervals i am us
hen what guarantees that the the volume/density is correct
> at the end of the equilibration phase when the user is advised to switch to
> NVT?
>
> Peter Nagy
> The University of Toledo
>
> -Original Message-
> From: gmx-users-boun...@gromacs.org on behalf of David
-Original Message-
> From: gmx-users-boun...@gromacs.org on behalf of David Mobley
> Sent: Thu 8/6/2009 2:38 PM
> To: Mauricio Carrillo Tripp
> Cc: Discussion list for GROMACS users
> Subject: [gmx-users] Re: Free Energy Calculation
>
> Hi,
>
> Sorry for the delay answering
Hi,
Sorry for the delay answering. These questions are better put on the
GROMACS users list.
1) Yes -- the Berendsen barostat does not sample the correct
distribution of pressures.
2) Regenerating velocities is fine for a couple of reasons: (a) we are
after thermodynamics, not dynamics, a
y
components (which is yet another reason why we need a patched 3.3.x to
compare to), given the number of times we were burned by free energy
bugs in 3.3.x.
Thanks for your help.
David Mobley, Ph.D.
Assistant Professor of Chemistry
University of New Orleans
New Orleans, LA 70148
dlm
You may also want to look at www.alchemistry.org, as it has some
general information about how these should be set up.
On Wed, Mar 18, 2009 at 8:02 PM, Justin A. Lemkul wrote:
>
> Again, *please keep all Gromacs-related correspondence on the mailing list*
> The type of information that you have
Berk,
> I checked the gro manual page:
> http://www.gromacs.org/documentation/reference_4.0/online/gro.html
> and found out that it is actually pretty clear.
> Note that it is fixed format, but with flexible precision which is derived
> from the space between the decimal points.
Thanks. I was loo
David,
> Both your gro files are wrong, the definition of gro files has never
> changed. Do you mean to say this has ever worked?
Yes, it worked fine in 3.3.x. I would point out that trjconv has an
-ndec option which, if used to output a gro file, will generate
high-precision gro files as output.
All,
I'm trying to run a zero-step mdrun in 4.0.3 (basically just to
evaluate the energy of a specific configuration). I've done this test
in 3.3.x and am trying to check if 4.0.3 gives the same energies. I'm
also comparing against another simulation package. To this end, I have
my starting coordi
ubject: Re: [gmx-users] shake for water
>> >>
>> >> Berk Hess wrote:
>> >> >
>> >> >
>> >> > > Date: Thu, 5 Feb 2009 19:35:09 +0100
>> >> > > From: sp...@xray.bmc.uu.se
>> >> > > To:
27;ll need to make sure you explore the
energy landscape enough to establish some level of consequence that
the preferred state for the protein in the absence of the copper isn't
the unfolded state (I'm not talking experimentally, here -- I'm
talking about with your particular paramet
rom: sp...@xray.bmc.uu.se
>> To: gmx-users@gromacs.org
>> Subject: Re: [gmx-users] shake for water
>>
>> Berk Hess wrote:
>> >
>> >
>> > > Date: Thu, 5 Feb 2009 19:35:09 +0100
>> > > From: sp...@xray.bmc.uu.se
>> > > To: gmx-u
> No, it is not the square.
> The code does a small 'a' approximation: (1+a)^2=1+2a+a^2 is approx 1+2a.
> I have also tested/benchmark shake in gromacs for my first lincs paper
> and the plincs paper and it always behaved the way I thought it would.
>
> The problem is not that you need more iterati
Berk,
> Another question, just to be sure.
> Have you actually checked that the other code really gets the distances
> right up to 1e-12?
Yes.
> Berk
>
>> Date: Thu, 5 Feb 2009 12:03:21 -0600
>> From: dmob...@gmail.com
>> To: gmx-users@gromacs.org
>> Subject: [gmx-users] shake for water
>>
>> Al
All,
A quick question on constraints... I'm using TIP4P-Ew in gromacs 3.3.2
and am concerned with reproducing energies from another code very
precisely for several specific snapshots. I am doing a zero-step mdrun
of a setup with one small molecule and two tip4p-ew water molecules.
Anyway, I have
Perhaps this is obvious, but typically you only want to do free energy
perturbation if you are interested in computing a free energy
difference. If you are merely interested in structural properties of a
different system (in this case, the protein without the copper there)
you can simply make the c
doing some testing, but I anticipate that I will ultimately
> have to submit errata for two different papers I've published in which
> I used the TIP4P-Ew water model in combination with GROMACS. I urge
> you to check your own studies that have used TIP4P/TIP4P-Ew and see if
> they
ultimately
have to submit errata for two different papers I've published in which
I used the TIP4P-Ew water model in combination with GROMACS. I urge
you to check your own studies that have used TIP4P/TIP4P-Ew and see if
they are affected.
David Mobley
Assistant Professor
Department o
mized loops,
for sure it was in 3.3.
I have fixed this for the upcoming Gromacs 4.0.4 release.
I assume this bug also caused the cut-off dependence that David
Mobley observed.
I have done a lot of free energy calculation with tip4p and never
noticed
any problems. This was because I alway
y be some sort of an
underlying problem here. On my list of things to do is to see whether
I still get the same results in GROMACS 4.
Thanks for your help,
David Mobley
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Bob,
> I'm computing the relative binding free energies of DNA bases on a
> nanotube using the protocol listed here:
> http://www.dillgroup.ucsf.edu/group/wiki/index.php/Free_Energy:_Tutorial
> I'm using the following steps:
> 1. Turn off all charges on base
> 2. Transform LJ parameters
> 3. Turn o
ver soft core functional form you use. This just means
>> you will need to run longer simulations in this regime.
>>
>> Anyway, long story short, I suggest two things: (a) Make sure you turn
>> off partial charges on C60 (without using soft core) before turning
>> off the LJ
my data suggests this is likely. :) Personal experience tells me that
this would probably be the case but I haven't ever seen a publication
on this.
David
David Mobley, Ph.D.
Assistant Professor of Chemistry
University of New Orleans
New Orleans, LA 70148
dlmob...@uno.edu
Office 504-280-6445
Fax
- Bloco B, Sala 1048
> 09210-170 Santo André - SP Brasil
> +55.11.4437-8408
> skype: eefileti
> http://cromo.ufabc.edu.br/~fileti/
>>
>>
>> --
>>
>> Message: 4
>> Date: Thu, 11 Dec 2008 07:24:26 -0600
>> From: "David Mobley&q
Bob,
> When performing a relative binding free energy calculation, I
> understand that it is a good practice to separate the transformation
> of charges of the ligand and the transformation of vdW parameters into
> two calculations. However, is it advisable to completely discharge the
> ligand bef
w exactly you're doing the transformation and could use
more detail on how you've set this up. A more straightforward (and
easier?) way to do this would be to transfer the solute to vacuum from
each solvent and then take the difference in the vacuum transfer free
energies. Please clarify w
Hi,
As long as you end up with the same charge in the initial and final
states, you should be OK. It's only if your total transformation
involves a change of net charge that you need to worry. So you should
be fine if you turn off the charges on D, change the LJ interactions,
and turn back on the
ile I do not currently have RA support for
students, I anticipate having some in the near future, and in the
meantime anyone joining my group would be supported by a TA position.
Thanks for your time.
David Mobley, Ph.D.
Assistant Professor of Chemistry
University of New Orleans
New Orleans, LA
sk this since I found the forwards and backwards mutation free energy are
> more consistant if I do not change the mass. Accidentally?
>
> LQ
>
> On Thu, Jun 19, 2008 at 4:26 AM, David Mobley <[EMAIL PROTECTED]> wrote:
>>
>> You can change the mass if you like. Ba
You can change the mass if you like. Basically, the net free energy
change associated with changing the mass should end up being zero so
it will be irrelevant. The mass of course affects the dynamics and
things like the velocities, but based on equipartition you can
convince yourself that the free
Sorry to be slow to chime in here, but there are several reasons one
might run into hysteresis, even when not using "slow growth":
1) The aforementioned bug
2) Topology errors
3) Convergence problems.
Of 3), there could be many different types. A recurring source of
these problems is when people
Bob,
Berk is right. Essentially, it would be easy if we could accurately
compute, say, the total enthalpy of our two systems and simply
subtract. Unfortunately it's very hard to converge this quantity
(basically, subtracting two very large numbers where the error bars
are bigger than the differenc
Justin and Michael,
Just to clarify here, I don't think you want the "long cutoff in
vacuum" scheme to give you the same results as the "PME in vacuum"
scheme. That is, if you use PME in vacuum with a periodic box, you
will be including copies of the long-range unscreened electrostatic
interaction
Yes, what he said.
On Mon, May 19, 2008 at 3:00 PM, van Bemmelen
<[EMAIL PROTECTED]> wrote:
> Hi Justin,
>
> You shouldn't use PME in vacuo. Just use pbc=no and infinite (i.o.w.: no)
> cutoffs.
>
> I'm not entirely sure why PME takes such a long time, but I can give a very
> wild guess. It may hav
is another matter). Second, the behavior
you're describing strikes me as really odd and I think you should get
to the bottom of it to make sure there isn't a bug.
Hope this helps,
David
> Bob
>
>
> On Wed, May 7, 2008 at 4:12 PM, David Mobley <[EMAIL PROTECTED]> wrote
Bob,
> Hello everyone,
> I'm trying to calculate the free energy of binding of DNA bases on a
> carbon nanotube. I'm running some tests to make sure that I'm doing
> everything correctly. One thing I tried was turning off all the atom
> charges of the DNA base and then turning them back on aga
Chris,
I think you are correct here. For binding calculations there is
probably a further trick relating to how to define an unbound state
that has a well-defined concentration. This I think depends on how one
is pulling -- i.e. doing simple radial PMFs is probably a bad idea,
because to even conv
Dear Eudes,
I don't have time to provide personalized help with this at present.
You'll be better off writing the gromacs forum. You may also want to
refer to the general information on performing free energy
calculations at http://www.alchemistry.org and previous posts on the
gromacs users list.
Berk,
> Hmm. Is this different from how other packages handle this issue? I
> have never had the recurring problems with minimization in GROMACS
> that I have in other packages. Even though, strangely enough, water is
> a common feature in most of the simulations I run.
That was backwards. I
Berk,
> I assume you are using a rigid water model, and thus constraints via SETTLE.
Yes, OK.
> Constraining is required to measure the size of the force (for convergence
> and
> step size adjustment) and to make correct steps without enormous extra
> displacements in the direction of the force
Berk,
> The problem could be in the constraints.
> Gromacs 3 constrains the forces during EM by adding c*f to the coordinates,
> constraining those and then dividing the constraint displacement by c.
> This limits the accuracy.
>
> In Gromacs 4 I have implemented force constraining for LINCS and S
Dear Christian,
> mmh, just my 0.02€: I guess in a very rough energy landscape (as in
> solvated peptides or proteins) this is not generally true, because
> with small steps the system might get stuck in the next tiny local
> minimum, while with a larger step size it may jump across it.
> And
Mark,
> However should you find yourself on a very flat area of the PES, then
> the smaller the step size, the closer it will look to flat, and thus to
> have converged to a stationary point. "Flat" is of course relative to
> the step size
Right. But of course the problem here has is that
Xavier,
> I was surprised by the value you use for emstep=1.0e-8. This is the
> "maximum step size" and is in nm! I think that's where your problem is.
I added this recently in testing because I thought perhaps the problem
could be due to using too large of steps. It does not help. So
everythin
All,
I often have problems with minimization in gromacs, but now I think I
have something a little more systematic to say.
First, my system: I am simulating a short peptide in a mix of two
co-solvents. I use a program called packmol which can start pack
specified number of molecules into a box of
Be sure to see http://wiki.gromacs.org/index.php/Average_Structure for
help interpreting results.
On Tue, Mar 18, 2008 at 2:16 AM, Ran Friedman <[EMAIL PROTECTED]> wrote:
> Dear Anna,
>
> Use make_ndx to create any group you find useful.
>
> Ran.
>
>
>
> Anna Marabotti wrote:
> > Dear gmx-user
Bob,
I don't believe that it is implemented. Developers: It probably should
be, since the other restraints can be perturbed.
In the interim, it's pretty straightforward to compute the dV/dlambda
for restraining from the restraint energy if you know the value of the
dihedral angle (which you can e
Regarding amb2gmx.pl, it should work for converting whole systems from
Amber, but this may depend on the box geometry you are using. In
particular I think it is OK with cubic boxes but not some of the more
fancy geometries. The other option is just to convert your
protein+ligand and solvate using g
Bob,
> Unfortunately, I'm having problems including the correct restraints in
> my topology file. First off, the form of the angle restraint in
> Gromacs involves 4 (2 pairs) atoms. The restraint in the Boresch paper
> assumes that the angle is between 3 atoms. Is there anyway to apply
> the
ok like a harmonic potential in the dihedral angles. Am I just not
> seeing something correctly?
> Bob
>
>
>
>
> On Mon, Feb 25, 2008 at 2:47 PM, David Mobley <[EMAIL PROTECTED]> wrote:
> > Robert,
> >
> > I am not sure which manual you are looki
Robert,
I am not sure which manual you are looking at, but in the GROMACS 3.3
manual, equation 4.70 gives the dihedral restraint as harmonic.
David
On Mon, Feb 25, 2008 at 10:10 AM, Robert Johnson
<[EMAIL PROTECTED]> wrote:
> Hello everyone,
> I am trying to calculate the absolute free energy
Maik,
> Assume, you take the interconversion of ethane to methanol in solvent in
> one step.
> You sample hardcore at 11 evenly spaced lambda values for, lets say, 2
> ns each.
> You get the dG/dl mean from every run and integrate via simpson to get a
> total DG.
Hold on, if you are doing t
I think I can probably shed a little bit of light here, although Mark
is getting close in the last chapter of his e-mail.
Basically, pdb2gmx works well for parameterizing proteins, which the
chromophore in question isn't, I'm sure. Since we do lots of
protein-ligand simulations, where the ligand i
be affected by a bug. It seems like he
would have needed to (a) read the entire history of the mailing list,
and (b) wade through all of the old bugzillas.
Thanks,
David
On Feb 16, 2008 3:19 PM, David Mobley <[EMAIL PROTECTED]> wrote:
> Dear Justin,
>
> > I'll preface th
sing
> thermodynamic integration to determine my DeltaG values. Bonded parameters
> remain untouched. I follow closely the procedure posted by David Mobley at
> the
> DillGroup Wiki site, changing only a few parameters for my simulation, as I am
> using Gromos96, not OPLS-AA.
Tha
this) and get help from someone else on there, or i will be
able to attend to it (in that forum) in a few days.
Thanks,
David Mobley
On Feb 11, 2008 5:14 AM, <[EMAIL PROTECTED]> wrote:
> Dear david,
> i 'm a beginner in molecular dynamics. I was doing the tutorial of md
> gro
col I just don't know.
David
> Regards
>
> Maik Goette, Dipl. Biol.
> Max Planck Institute for Biophysical Chemistry
> Theoretical & computational biophysics department
> Am Fassberg 11
> 37077 Goettingen
> Germany
> Tel. : ++49 551 201 2310
> Fax : ++4
All,
I'm using do_dssp to do some secondary structure analysis. I have a
peptide with two nonstandard residues, one at the N-terminus and one
at the C-terminus, and a total of N residues. The output of do_dssp
only contains information on N-2 residues (numbered 1 through N-2)
while my trajectory i
Maik,
> I simulated a switching process (slow growth TI) over 10ns of ethane to
> methanol with hardcore slow-growth in water (365 TIP4P waters,PME) and
> in vacuum. The thermodynamic cycle of this calculation yields a DeltaG,
> which is in perfect agreement with the experiment and other calculati
Chris,
At one point the forces were incorrrect in the dihedral restraints. I
*think* this was in 3.3 but one of the developers will probably know.
I have a note to this effect in one of my publications too but I
haven't the time to find it right now.
David
On Jan 26, 2008 10:43 PM, <[EMAIL PRO
> really isn't any reason to use the soft core potentials when turning
> off the charges right? Thus, sc_alpha should be set to zero when
> turning off charges?
> Thanks,
> Bob
>
> On Jan 25, 2008 5:38 PM, David Mobley <[EMAIL PROTECTED]> wrote:
> > It will
It will only be smooth if you don't use soft core (i.e. sc-alpha =0 ).
Best,
David Mobley
http://www.dillgroup.ucsf.edu/~dmobley
On Jan 25, 2008 12:40 PM, Robert Johnson <[EMAIL PROTECTED]> wrote:
> Hello everyone,
> As I mentioned in a previous post, I'm trying to comput
For what it's worth, I seem to recall that the ProDrg server itself
warns rather strongly about the charges being unreliable, and I
definitely agree with Berk here.
My favorite approach for modeling small molecules is to use the AMBER
GAFF small molecule force field in combination with one of the
r is actually fairly sensitive.
This *could* lead to crashes, but I don't know about
freezing/vibrating.
Let me know if this helps.
Best wishes,
David Mobley
UCSF
http://www.dillgroup.ucsf.edu/~dmobley
> Can anyone comment on what's going on here?
> Thanks,
> Bob Johnson
> _
I have further replica exchange questions...
> >> The order is that from low temperature to high temperature (as you could
> >> check from the edr files) and when swaps happen the coordinates and
> >> boxes are exchanged between CPUs.
> >
> > OK. In other words the replicas are always ordered by t
David,
> The order is that from low temperature to high temperature (as you could
> check from the edr files) and when swaps happen the coordinates and
> boxes are exchanged between CPUs.
OK. In other words the replicas are always ordered by temperature.
> >
> > As a follow-up question, is there
0 .22 .41 .55 .20 .27
.13 .21
I can't find where it's explained what this information means. For
example, why are there x's between some numbers and not others?
Thanks!
David Mobley
UCSF
http://www.dillgroup.ucsf.edu/~dmobley
_
Maik
> I just found a strange behaviour of GROMACS, when processing topologies
> with B-values. Maybe I just think of it as unintuitive/bug, but here we go:
>
> e.g. OPLS
>
> Consider an angle given (all atoms have B-values, which angle-parameter
> can be found by GROMACS in the bonded.itp for the
Maik,
> It just came to my mind, that the behaviour, I described in the first
> mail will be quite dangerous, whenever #define statements are in the
> topology, cause this would lead to the insertion of the FF-values in the
> topology, when preprocessing, and then be copied into the B-state
> afte
bugzilla with an example input file, I think.
It's possible the problem is on my end somewhere, but as far as I can
tell I'm not doing anything I'm not supposed to...
Thanks,
David
On Jan 3, 2008 2:33 PM, David Mobley <[EMAIL PROTECTED]> wrote:
> All,
>
> I'm
t;
mean? Clearly I've got something wrong in my topology or in the
relationship between my topology and gro file, but this is not at all
transparent.
I'll poke around in the source and see if I can figure out what's
going on but I thought I might be able
#x27;ve done isn't really a viable option.
Thanks,
David Mobley
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P
Probably the easiest way for you to get an answer to this is to look
up the references which discuss the parameterization of the GROMOS
force field. Consistency is the name of the game. See here:
http://wiki.gromacs.org/index.php/Parameterization
David
On Nov 25, 2007 1:21 AM, Q733 <[EMAIL PROTE
Hi,
> servaas michielssens wrote:
> > I used amb2gmx.pl (from http://chemistry.csulb.edu/ffamber/) to convert
> > an amber topology and restart file to a gromacs topology and structure
> > file and tried to continue the simulation in gromacs. I got the
> > following error message:
> >
> > Constrai
David,
> Interesting, does that include all the multipoles and buffered 7-14
> potentials etc?
Yes. My understanding is that the implementation is somehow separate
from the main AMBER implementation and actually requires a copy of
Tinker to set up the input files, but this may have changed (I hav
David,
> As Mark answered there is no out of thebox polarizability. AFAIK there
> is no complete force field like that in Amber either, only Tinker has one.
Just to clarify here, AMBER has an implementation of AMOEBA, Jay
Ponder's polarizable force field that is also implemented in Tinker.
So yes
Chris,
> I don't know the answer to the exact question that you have posed, but
> I instead suggest that getting rid of that water molecule is not a
> good idea. You should rather minimize your system. While minimizing,
> be sure to include
>
> define=-DFLEXIBLE
>
> in your .mdp file
Just out of
ry, what I mean by "charging" versus "discharging" is that
"charging" is where the A state has zero charges and the B state has
normal charges, and discharging is the reverse. So "charging" is the
scenario you describe, and "discharging" is the re
test cases).
Bharat, be sure you submit a bugzilla and we'll see how things go from
there. I may at some point try setting up some of my own relative free
energy topologies and see if I see the same effects, but I'm not
likely to have time for that for a couple days.
Thanks,
David
On 11
subject same so that it is helpful to track in
> future :)
>
>
> On Sat, 10 Nov 2007, David Mobley wrote:
> > Dear Bharat,
> >
> > OK, I went ahead and ran with your topologies using my own run
> > scripts. My runs haven't finished yet, but looking at just
>
Dear Bharat,
OK, I went ahead and ran with your topologies using my own run
scripts. My runs haven't finished yet, but looking at just
values from equilibration, I seem to be seeing roughly
the same trends you do. In particular:
(1) The forward simulation always gives dv/dlambda values that are
Bharat,
Your values for the first set of calculations (the forward case?)
below look really weird. I suspect you have something messed up in
those runs. Have you checked that your define statements worked
properly, and checked your run input files? In particular, your
is staying almost constant a
Hi,
> By reactivating the barostat as mentioned below, I managed to recover LJ
> energies within 0.1% for my test system, which was a box of 1136 waters.
> So I applied the same thing to my system of interest (a 605 residue
> protein with around 25000 waters). The only difference is that the run
>
Hi,
> i am extremely sorry here.. i am plotting dg/dl vs lambda of reverse
> transformation onto that of forward with both axes reversed. so i
> should expect overlap. this is consistent with whatever you are saying. i
> am sorry for negligence and confusion.
And taking the negative?
> >> but wh
Hi,
> it is fairly straight FORWARD.. forward is from state A to state B, and
> reverse is from state B to state A. Say for example, forward
> transformation is going from ethane to methane. in this step, i define
> three of the terminal hydrogen on say C2, with zero charges and C2 with
> charge o
Hi,
> Everything goes fine till this point. Now, i do reverse transformations to
> check for hysteresis. For vdw transformations, i get almost perfect
> overlap of dG/dlambda vs lambda for forward and reverse transformations,
> but for coloumb transformations, if i don't use soft-core potentials,
Dear Michel,
Are you sure you're using 3.3.1? I have not checked this specific
issue -- but I have checked that if I run hydration free energy
calculations in patched 3.3.0, and again in patched 3.3.1, and do my
usual free energy analysis using mdrun -rerun, I get the same values.
That either tell
Just my unasked-for two cents: Langevin dynamics in water is probably
a poor substitute for some representation of water. Langevin can
provide some of the friction/noise of water -- but electrostatics
interactions are very different in water than in vacuum. Langevin
dynamics is probably not a subst
Hi,
Depends on what you mean by "the potential energy of only the
protein". The protein alone in what environment? (And what do you hope
this will tell you?)
One thing you can do -- assuming this is what you want to do -- is
strip out all of the waters and then use mdrun -rerun to evaluate the
po
Hi,
> is it possible to do thermodynamic integration in Gromacs using non-linear
> scaling of the lamda paramerter?
I'm not sure exactly what you mean, so first I'll answer what I think
you mean, and then tell you what I think you ought to be asking. :)
If you mean, "Is it possible to perform a
>
> First, thanks very much for your instruction. If quantum chemical
> calculation does not have any physical meaning, how should I decide the
> partial charge for a molecule?
David is correct, he was referring to Mulliken charges.
Again, there is no *right* answer to this, the name of the game
Hi,
Many
> articles didn't give out the validation procedure of their topologies in
> detail, are there some classic articles explaining how the forcefield we
> used today, such as OPLS, GROMOS, AMBER and CHARMM , developed? I want to
> know how they were deduced from the very beginning.
There
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