[gmx-users] EnMin & constraints: Hamletic doubt
Nicola Staffolani
nicola.staffolani at gmail.com
Fri Jun 20 10:01:39 CEST 2014
On 19 June 2014 23:59, Justin Lemkul <jalemkul at vt.edu> wrote:
>
>
> On 6/19/14, 10:05 AM, Nicola Staffolani wrote:
>
>> Dear Justin,
>>
>> thank u 4 replying!
>>
>>
>> On 19 June 2014 15:04, Justin Lemkul <jalemkul at vt.edu> wrote:
>>
>>
>>>
>>> On 6/19/14, 4:11 AM, Nicola Staffolani wrote:
>>>
>>> Dear GMX community,
>>>>
>>>> I am running simulations of a solvated protein on a (frozen) Au
>>>> substrate,
>>>> but I think that my question is so basic that it falls outside the
>>>> details
>>>> of my case...
>>>>
>>>> So, the question is: when I prepare the system by minimizing the energy,
>>>> should I set constraints = all_bonds, h_bonds or none?
>>>>
>>>>
>>> What was your force field parametrized to use? Most commonly, modern
>>> force fields constrain bonds involving H, though all bonds are frequently
>>> constrained in practice because the differences are generally small and
>>> the
>>> rigid representation of a bond is considered by many to be a more
>>> realistic
>>> representation of the ground state than a harmonic function.
>>>
>>> I do not understand your question... Do you mean which force field I am
>>>
>> using? In this case the answer is gromos43a1...
>>
>>
> Constraining all bonds is common with Gromos96 parameter sets. I know
> that 53a6 was parametrized with all bonds constrained; I am not sure if the
> full details of 43a1 were ever published. If someone else knows, please
> chime in. The oldest public reference I know of for Gromos96 is a paper
> about the software suite in general, but not the original parametrization
> protocol.
>
>
>> IMHP, I should set it to all_bonds, otherwise I may risk that the
>>> system's
>>>
>>>> energy minimum corresponds to a configuration very different from the
>>>> initial one... However, I saw somebody is using constraints = none and
>>>> I
>>>> was wandering why...
>>>>
>>>>
>>>> Without context, answering that is impossible.
>>>
>>> I see... How can I better describe the context ? Which info do u need?
>>>
>> I have seen setting the constraints to none with the same very system as
>> mines (solvated azurin on Au
>> layers) where the ff used was again gromos43a1...
>>
>>
> The context to which I refer is: what were the goals of the study? If one
> wants to examine, for instance, vibrational spectra, it would be
> inappropriate to apply constraints (and you'd be forced to use a very small
> time step). For normal MD investigations, constraints are used to increase
> the time step for better throughput. My comment about context is also a
> general one. People often mention previous posts without providing links
> or looking at the whole thread. There may be very specific reasons for a
> particular approach, or it may turn out that the posted settings were wrong
> ;)
>
>
Thanks for explaining! Indeed we are in a early phase of our study and are
interested in the vibrational (Raman) spectra (!!) of Cu-ligands; we want
to see whether we are able to reproduce the experimental spectra in order
to validate our model and then go further... And I was thinking that we
should remove the constraints if we want to see the appropriate
oscillations!
It is also very interesting your comment about the relation between time
step duration and aim of the MD simulation: I had been suggested to use Δt
= 0.002 ps, but then I had issues with the frozen Au layers and changed it
to 0.001 ps. Afterwards, in my last runs, I changed some other parameters
and decided to give a try again to 0.002 ps, but it seems more appropriate
- thanks to your comment - to switch back to 0.001 ps...
Nicola
> -Justin
>
>
>>
>>> Would somebody take the pleasure to embark on the discussion of such an
>>>
>>>> issue with me? Thnx in advance,
>>>>
>>>>
>>>> There ha
>>>
>>> ve been numerous discussions on the underlying theory of constraints and
>>> their proper application; a bit of searching should turn them up.
>>> Several
>>> have occurred very recently on this very list.
>>>
>>> -Justin
>>>
>>> Thank you very much again for answering!
>>>
>>
>> Regards,
>>
>> Nicola
>>
>>
>> --
>>> ==================================================
>>>
>>> Justin A. Lemkul, Ph.D.
>>> Ruth L. Kirschstein NRSA Postdoctoral Fellow
>>>
>>> Department of Pharmaceutical Sciences
>>> School of Pharmacy
>>> Health Sciences Facility II, Room 601
>>> University of Maryland, Baltimore
>>> 20 Penn St.
>>> Baltimore, MD 21201
>>>
>>> jalemkul at outerbanks.umaryland.edu | (410) 706-7441
>>> http://mackerell.umaryland.edu/~jalemkul
>>>
>>> ==================================================
>>> --
>>> Gromacs Users mailing list
>>>
>>> * Please search the archive at http://www.gromacs.org/
>>> Support/Mailing_Lists/GMX-Users_List before posting!
>>>
>>> * Can't post? Read http://www.gromacs.org/Support/Mailing_Lists
>>>
>>> * For (un)subscribe requests visit
>>> https://maillist.sys.kth.se/mailman/listinfo/gromacs.org_gmx-users or
>>> send a mail to gmx-users-request at gromacs.org.
>>>
>>>
>>
>>
>>
> --
> ==================================================
>
> Justin A. Lemkul, Ph.D.
> Ruth L. Kirschstein NRSA Postdoctoral Fellow
>
> Department of Pharmaceutical Sciences
> School of Pharmacy
> Health Sciences Facility II, Room 601
> University of Maryland, Baltimore
> 20 Penn St.
> Baltimore, MD 21201
>
> jalemkul at outerbanks.umaryland.edu | (410) 706-7441
> http://mackerell.umaryland.edu/~jalemkul
>
> ==================================================
> --
> Gromacs Users mailing list
>
> * Please search the archive at http://www.gromacs.org/
> Support/Mailing_Lists/GMX-Users_List before posting!
>
> * Can't post? Read http://www.gromacs.org/Support/Mailing_Lists
>
> * For (un)subscribe requests visit
> https://maillist.sys.kth.se/mailman/listinfo/gromacs.org_gmx-users or
> send a mail to gmx-users-request at gromacs.org.
>
--
"New ideas, fragile as spring flowers, easily bruised by the tread of the
multitude, may yet be cherished by the solitary wanderer.", Fred Hoyle, *The
Black Cloud*.
"Everybody knows that something can't be done until somebody turns up who
doesn't know that it can't be done and he does it.", Albert Einstein
Sometime ago I met a fellow who was wearing an abnormally long tie - I
mean, it was abnormally long because of how the knot had been made, not
because the tie was an abnormally long one, and so I asked him why such an
abnormally long tie, and you know what he told me? That the tie belonged to
his grandfather!!
More information about the gromacs.org_gmx-users
mailing list