From: Ivan Vyalov (VyalovIvan_at_yandex.ru)
Date: Fri Apr 08 2011 - 15:48:09 CDT
Well, I took a protein as a common example, but the system is actually cellobiose in ionic liquid. That's why I have these differences and values of free energy don't change with time, so I think it's ok with respect to converrgence. But if I apply bias calculated at the point where the barriers are high, then in point where solute-solvent interactions are switched off my system will be over-biased, won't it?
09.04.11, 00:05, "Jérôme Hénin" <jhenin_at_ifr88.cnrs-mrs.fr>:
> Hi Ivan,
>
> On 8 April 2011 21:12, Ivan Vyalov <VyalovIvan_at_yandex.ru> wrote:
> > Hi Jerome,
> >
> > Thanks for reply! So, colvars config should contain lines like these:
> >
> > abf {
> > Â colvars phi psi
> > Â updateBias no
> > Â inputPrefix colvarA01o
> > Â fullSamples 200
> > }
>
> This looks fine. Setting the fullSamples parameter is a good idea, actually.
>
> > And then I start FEP calculations that seems to be working ( I didn't try with solvent yet ).
> >
> >
> > May I ask you one more question?
> >
> > If I want to perform annihilation of dipeptide then won't I have to recalculate bias ( along \phi & \psi ) between FEP steps ( perhaps, not between every lambda window )? In my case solvent changes free energy surface quite significantly and if I have barriers ~6 kcal/mol for vacuum then for solvent they are ~16 kcal/mol.
>
> Well, you probably don't need the biases to be perfectly accurate,
> they are just there to improve sampling. It is a bit surprising that
> solvent effects on conformational free energy are so drastic. Are you
> confident that the ABF calculations are converged (or close enough)?
>
> In principle you can certainly apply different biases at different
> stages, if you are ready to run more calculations. I am not sure it is
> worth the effort. It depends on the specifics of your system (and how
> much time you are willing to spend on it).
>
> By the way, an idea just came to my mind: it might be a better idea to
> replace the data in the gradient file with that in the '.est' file
> written by abf_integrate. The good thing about that data is that it is
> a "true gradient" (its curl is zero), whereas the raw data in the
> '.grad' file is not, due to statistical noise. Applying the bias based
> on the '.est' file ensures that the biasing force is conservative.
>
> Best,
> Jerome
>
>
> > 06.04.11, 20:45, "Jérôme Hénin" <jhenin_at_ifr88.cnrs-mrs.fr>:
> >
> >> Hi Ivan,
> >>
> >> Â That should be possible. Here is how I see it:
> >> Â 1) run ABF to get biasing potential
> >> Â 2) run FEP with ABF bias, disabling updatePotential to keep the bias
> >> Â time-independent.
> >> Â In this step, save FEP data and colvars trajectory with the same
> >> Â frequency (e.g. 10 timesteps) to make the next step easier
> >> Â 3) compute a FEP estimator with unbiased data: you need to reweight
> >> Â the ensemble averages based on the applied ABF bias.
> >>
> >> Â Cheers,
> >> Â Jerome
> >>
> >> Â On 6 April 2011 11:49, Ivan Vyalov <VyalovIvan_at_yandex.ru> wrote:
> >> Â > Hi all,
> >> Â >
> >> Â > I wonder, is it possible to perform FEP calculations with solute molecule with flattened free energy surface along several reaction coordinates?
> >> Â >
> >> Â > For instance, if I take dipeptide with conformational degrees of freedom ( dihedrals \phi & \psi ) and two minima defined by them, I should take into account this minima and do something similiar to what is described in JPhysChem 97, 3409.
> >> Â >
> >> Â > From the other hand I could run ABF, apply forces and perform FEP with flat free energy surface along these coordinates, is it possible in NAMD? Or I should do such task in a different way?
> >> Â >
> >> Â >
> >> Â >
> >> Â > --
> >> Â > with best regards,
> >> Â > Ivan
> >> Â >
> >> Â >
> >>
> >>
> >>
> >
> > --
> > with best regards,
> > Ivan
> >
> >
>
>
>
-- with best regards, Ivan
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