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Dear Xiangjun,
I analyzed the DNA molecule contained in PDB 2AOR from Web 3DNA. I then downloaded the parameter file. And I performed a reconstruction from the parameter file.
The resulting structure build.pdb contains many O3'-P bonds having a too long length, up to 4 A.
May you tell me what I made wrong ?
Many thanks for your help
Damien
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Hi Damien,
The fact that "O3'-P distance too long after reconstruction" is well expected; 3DNA built structures are accurate for the bases, with only an approximate sugar-phosphate backbone. See FAQ "How do I build nucleic acid structures with sugar-phosphate backbone? (http://forum.x3dna.org/faqs/how-do-i-build-nucleic-acid-structures-with-sugar-phosphate-backbone/)"
For cases with longer than the default 4.5 A O3'(i)--P(i+1) distance, the 3DNA rebuild program outputs info message as below (using your example, and with a B-DNA backbone conformation):
O3' (#317) and P (#331) on chain A have distance 5.3 over 4.5: no linkage assigned
O3' (#768) and P (#782) on chain B have distance 5.2 over 4.5: no linkage assigned
This approximate structure may serve as a starting point for energy minimization.
Xiang-Jun
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Many many thanks Xiang-Jun for this prompt reply! I appreciate!
OK, I understand the approximation for the sugar-phosphate backbone.
I have two questions:
- The default O3'-P distance is 4.5A. From the ADIT server of the PDB, the expected value is 1.6A. What is in fact the range of the possible values?
- Could you indicate some tools alllowing to do energy minimization?
Thanks again,
Damien
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- The default O3'-P distance is 4.5A. From the ADIT server of the PDB, the expected value is 1.6A. What is in fact the range of the possible values?
The O3'-P covalent bond distance is ~1.6 A, as you noticed on the ADIT server of the PDB. The 3DNA default of 4.5 A is purely an empirical value used to decide if to include the bond in a corresponding CONECT record in the rebuilt PDB file; it has no 'chemical' meaning. Have a look of build.pdb file using a text editor, you will see my point.
- Could you indicate some tools alllowing to do energy minimization?
AMBER should help. Some other MD packages or Phenix should also do the trick. Yet, I still failed to find a command-line tool that can 'regularize' the backbone to a reasonable geometry while keeping the base atoms fixed.
HTH,
Xiang-Jun
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Many thanks Xiang-Jun for your help! I appreciate!
Damien
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Update on 2013-09-06: please see my post titled "Restraint optimization of DNA backbone geometry using PHENIX (http://x3dna.org/highlights/restraint-optimization-of-dna-backbone-geometry-using-phenix)" for a PHENIX-based method to solve the long O3'-P distance problem.
Xiang-Jun
Funded by the NIH R24GM153869 grant on X3DNA-DSSR, an NIGMS National Resource for Structural Bioinformatics of Nucleic Acids
Created and maintained by Dr. Xiang-Jun Lu, Department of Biological Sciences, Columbia University