Dale
You have done a lot of work on this and I'd really like the files that you
have to date so I can make it easier in the future.
Regarding the hydrogens, I don't think Reduce will be able to help you. You
may have to add them using Coot and then leave the hydrogens alone.
Cheers
Nigel
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Nigel W. Moriarty
Building 64R0246B, Physical Biosciences Division
Lawrence Berkeley National Laboratory
Berkeley, CA 94720-8235
Phone : 510-486-5709 Email : [email protected]
Fax : 510-486-5909 Web : CCI.LBL.gov
On Thu, Dec 4, 2014 at 11:33 AM, Dale Kreitler
Hi All,
I am trying to add riding hydrogens to a model that includes beta-3-homoglutamine (B3Q). The monomer is not in the ccp4 library but it is a PDB chemical component. So far I have used elbow to build and optimize my own version of the ligand using the atom naming convention for a beta-amino acid in the PDB (where CB is in the backbone adjacent to the amino group, so the backbone goes like C-CA-CB-N). I am using a TRANS cif link from the monomer library for the N(alpha-amino acid) to C(beta-amino acid), and I have defined my own cif link for the N(beta-amino acid) to C(alpha-amino acid). However when I run phenix.reduce I can't get hydrogens to appear on the peptide bonds between the beta-amino acid and adjacent alpha-amino acids (hydrogens appear every where else on the ligand and in the model).
I realize the effect of two hydrogens on the model is inconsequential but I would like to figure out how I can get phenix.reduce to recognize the bonds to my "ligand" as standard peptide bonds and add hydrogens accordingly.
Thanks, Dale
-- Dale Kreitler Gellman Lab UW Madison, Department of Chemistry
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