Multiple Assemblies exist for SMTL entry 1xpr
Structural mechanism of inhibition of the Rho transcription termination factor by the antibiotic 5a-formylbicyclomycin (FB); X-RAY DIFFRACTION 3.15 Å

SMTL ID
1xpr.1
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER
Polypeptides
Rho transcription termination factor
Oligo-state
monomer
SMTL ID
1xpr.2
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER; 5A-FORMYLBICYCLOMYCIN
Polypeptides
Rho transcription termination factor
Oligo-state
monomer
SMTL ID
1xpr.3
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER; 5A-FORMYLBICYCLOMYCIN
Polypeptides
Rho transcription termination factor
Oligo-state
monomer
SMTL ID
1xpr.4
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER; 5A-FORMYLBICYCLOMYCIN
Polypeptides
Rho transcription termination factor
Oligo-state
monomer
SMTL ID
1xpr.5
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER; 5A-FORMYLBICYCLOMYCIN
Polypeptides
Rho transcription termination factor
Oligo-state
monomer
SMTL ID
1xpr.6
Ligands
5'-R(*CP*UP*CP*UP*CP*UP*CP*U)-3'; MAGNESIUM ION; PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER; 5A-FORMYLBICYCLOMYCIN
Polypeptides
Rho transcription termination factor
Oligo-state
monomer