2IJJ

Crystal structure analysis of ColE1 ROM mutant F14Y

2IJJ の概要

• エントリーDOI: 10.2210/pdb2ijj/pdb
• 関連するPDBエントリー: 2IJH 2IJI 2IJK
• 分子名称: Regulatory protein rop (2 entities in total)
• 機能のキーワード: rop, rom, cole1, rna-recognition, transcription regulator
• 由来する生物種: Escherichia coli
• タンパク質・核酸の鎖数: 3
• 化学式量合計: 21536.69

構造登録者

Ladner, J.E. (登録日: 2006-09-29, 公開日: 2007-10-16, 最終更新日: 2023-08-30)

主引用文献

Struble, E.B.,Ladner, J.E.,Brabazon, D.M.,Marino, J.P.
New crystal structures of ColE1 Rom and variants resulting from mutation of a surface exposed residue: Implications for RNA-recognition.
Proteins, 72:761-768, 2008

PubMed Abstract: In ColE1, the plasmid encoded RNA one modulator (Rom) protein, which is also referred to as Rop, specifically binds and stabilizes an intermediate RNA loop-loop kissing structure formed between the plasmid encoded transcripts RNA I and RNA II and thereby acts as an auxiliary repressor of replication. Rom folds into a homodimeric, cylindrically packed four helix bundle with an exact twofold symmetry axis (Banner et al., J Mol Biol 1987;196:657-675; Eberle et al., J Biomol 1991;1:71-83). Previous studies (Castagnoli et al., EMBO J 1989;8:621-629; Predki et al., Cell 1995;80:41-50) have localized the RNA binding surface to the H1/H1' face of the helical bundle and found Phe14 to be a key determinant of the binding affinity and specificity for RNA kissing complexes. To investigate the role of Phe14 in RNA recognition, we have determined high-resolution crystal structures of two point mutants of Rom (F14Y and F14W), as well as a high-resolution structure of a crystal form of Rom in which the dimer comprises the asymmetric unit. Although the structures of F14Y and F14W share a very high degree of structural identity with that of the wild-type protein and each other, differences are observed between the three polypeptide chains found in the asymmetric unit of each crystal in the packing of the tryptophan and tyrosine side chains at position 14, as well as some of the other surface exposed side chains of key amino acids involved in RNA binding. In both the wild-type Rom and mutant structures, crystal packing forces can break the exact twofold symmetry of the dimer and influence the conformation of the side chains presented on the H1/H1' face of Rom. Since the new structures show such a high degree of structural identity, the disruption in RNA binding observed for the mutant proteins can be attributed specifically to the chemical nature of the side chain at position 14. Moreover, the fact that even subtle changes in the side chain at position 14 cannot be compensated for by the apparent flexibility of this side chain suggests a highly constrained packing of this residue in the RNA-protein complex.

PubMed: 18260113
DOI: 10.1002/prot.21965

実験手法

X-RAY DIFFRACTION (1.9 Å)