VMD-L Mailing List
From: Bennion, Brian (bennion1_at_llnl.gov)
Date: Tue May 19 2015 - 10:51:51 CDT
Please read Dr. Mayne's paper that describes ffTK, it will provide insight on question 1 (ie how charges are determined for the charmm forcefield).
Question 2. It is up to you to decide if the penalties given by cgenff.paramchem.org are worth worrying about. If someone needed to repeat your work and they parameterized everything de novo, would you trust their results if they differed from your results?
Question 3. If you don't optimize the bonded parameters then you get what the cgenff forcefield supplies (or doesn't supply for that matter). The forcefield has NO idea that your compound needs to be "frozen" in that docked conformation, unless you tell it by giving it the appropriate parameters. Please realize that the docked conformation represents a theoretical complex at 0 Kelvin. Will you or others do the experimental studies at 0 Kelvin?
Question 4. It depends if you are running he calculation correctly or if your hardware/software is properly setup for these calculations.
These questions point out that you need to do some more reading and ask for guidance from your mentor/supervisor.
From: owner-vmd-l_at_ks.uiuc.edu [owner-vmd-l_at_ks.uiuc.edu] on behalf of Evandro Semighini [epsemighini_at_gmail.com]
Sent: Tuesday, May 19, 2015 6:06 AM
Subject: vmd-l: Questions regarding fftk and Gaussian
Hello VMD community !
I'm new to NAMD and VMD and have some questions about the parameterization of the molecules I got from virtual screening assays.
I got a huge help from the NAMD mailing list and it leaded me to another kind of problems and doubts, regarding fftk and Gaussian, that I was unable to solve by myself/searching, so, here I am.
I was instructed by mrs. Crystopher Mayne and Brian Bennion to use ParamChem and then cut the molecules in pieces with molefracture to optimize them with fftk and Gaussian, and there's where I am stuck now.
As my molecules are sort of big, fftk creates more than 90 water interaction files to be loaded to Gaussian for each one, and I have more than 30 molecules.
1- Do I really need to run all of this water optimization in Gaussian or I can run just the geometry optimization, which calculates new charges ?
2- If no, can I run only the interactions for the highest penalized atoms or, there is other method with lower time cost ?
3- Do I really need to optimize the angles and dihedrals penalties, as my molecules are in the docked conformation ?
4- I never used quantum softwares before, so, is it normal this calculations take several hours to end ?
Thank you in advance for any help.