mutate_bases is a standalone ANSI C program, on a par with other major 3DNA programs (e.g., find_pair, analyze, rebuild, fiber etc). As seen from the help message below, it can be used for any nucleic-acid-containing structures (DNA, RNA, or their complexes) in PDB format:
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Usage: mutate_bases mutinfo pdbfile outfile
'mutinfo' can contain upto 5 fields for each mutation:
[name=residue_name] [icode=insertion_code]
chain=chain_id seqnum=residue_number
mutation=residue_name
Alternatively, 'mutinfo' can be specified with the '-l' option
followed by a mutation file: '-l mutations.dat'
o The five fields per mutation can be in any order or CaSe
o Each field can be abbreviated to its first character
o Multiple mutations are separated by ';'
o Fields in [] (i.e., name and icode) are optional
o Mutation info should be QUOTED to be taken as one entry
Examples:
mutate_bases 'c=a s=2 m=DA' 355d.pdb 355d_G2A.pdb
# mutate G2 in chain A of B-DNA 355d to A
mutate_bases 'c=a s=2 m=DA; c=B s=23 m=DT' 355d.pdb 355d_mutfile.pdb
# mutate base-pair G-C (C23 in chain B) to A-T
# also create file 'mutations.dat', see below
mutate_bases -l mutations.dat 355d.pdb 355d_mutfile.pdb
# 355d_mutfile.pdb and 355d_mutfile.pdb would be identical
mutate_bases 'c=A s=74 m=U' 1evv.pdb 1evv_C74U.pdb
# mutate C74 in chain A of tRNA 1evv to U
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mutate_bases is designed to solve the base mutation problem in a practical sense: robust and efficient, getting its job done and then out of the way. The program can have many possible applications: in addition to perform base-pair mutations in DNA-protein complexes, it should also prove handy RNA modeling and in providing initial structures for QM/MM/MD energy calculations, and in DNA/RNA modeling studies.
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