Hi Tom Thanks for this. I've realised that the electrostatic calculation doesn't work, if there are posttranslationallymodified residues. In the case of pdb:6g2j for example, there's 2MR (dimethylated arginine). Could we please have a fix for this too? Thanks Yaikhomba Get Outlook for Android<https://aka.ms/ghei36> ________________________________ From: Tom Goddard <goddard@sonic.net> Sent: Saturday, February 13, 2021 9:06:59 PM To: Y. Mutum <ym337@cam.ac.uk> Cc: chimerax-users@cgl.ucsf.edu <chimerax-users@cgl.ucsf.edu> Subject: Re: [chimerax-users] Coloring Atoms by Hydrohpobicity and Electrostatic potential You can color a cryoEM map surface #2 directly using coulombic #1 surface #2 and also mlp should work mlp #1 surface #2 but the mlp command has a bug that prevents that from working -- I will fix it next week. Tom On Feb 13, 2021, at 6:07 AM, Y. Mutum <ym337@cam.ac.uk<mailto:ym337@cam.ac.uk>> wrote: Hi I tried looking up on colouring atoms by hydrophobicity/ electrostatic potential, but couldn't find a way to work in my current model. So, please excuse me if this is redundant. I am working with a pdb: 6j5k and was thinking of a way to color the atoms by hydrophobicity. From this, the idea is to also use this atomic model to color a map (a cryoEM map MRC format) based on hydrophobicity, using the command 'color zone'. First, I tried to generate a 'mlp' using the command:
mlp #1 map true color true
Even after saving the volumes in .mrc format, I am not sure how to load them up to 'color the atoms by hydrophobicity'; the command 'color sample' only seems to accept the surfaces for colouring. I also looked up coloring by attribute - but the hydrophobicity/ electrostatic doesn't seem to be a part of it. Also, there are lots of subunits/ chains, so is there a more straightforward way to load these hydrophobic-potential-maps later and color the atoms by hydrophobicity? In this particular case, I am trying to color the 'whole' pdb model and the cryo-EM map by hydrophobicity EMD-0667<https://www.emdataresource.org/EMD-0667>. Any workaround suggestions would be helpful for electrostatic too. Thanks Yaikhomba _______________________________________________ ChimeraX-users mailing list ChimeraX-users@cgl.ucsf.edu<mailto:ChimeraX-users@cgl.ucsf.edu> Manage subscription: https://www.rbvi.ucsf.edu/mailman/listinfo/chimerax-users