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3F2Q

Crystal structure of the FMN riboswitch bound to FMN

Summary for 3F2Q
Entry DOI10.2210/pdb3f2q/pdb
Related3F2T 3F2W 3F2X 3F2Y 3F30 3F4E 3F4G 3F4H
DescriptorFMN riboswitch, FLAVIN MONONUCLEOTIDE, POTASSIUM ION, ... (5 entities in total)
Functional Keywordsfmn riboswitch, transcription, rna
Total number of polymer chains1
Total formula weight37326.23
Authors
Serganov, A.A.,Huang, L. (deposition date: 2008-10-30, release date: 2009-01-27, Last modification date: 2024-04-03)
Primary citationSerganov, A.,Huang, L.,Patel, D.J.
Coenzyme recognition and gene regulation by a flavin mononucleotide riboswitch.
Nature, 458:233-237, 2009
Cited by
PubMed Abstract: The biosynthesis of several protein cofactors is subject to feedback regulation by riboswitches. Flavin mononucleotide (FMN)-specific riboswitches, also known as RFN elements, direct expression of bacterial genes involved in the biosynthesis and transport of riboflavin (vitamin B(2)) and related compounds. Here we present the crystal structures of the Fusobacterium nucleatum riboswitch bound to FMN, riboflavin and antibiotic roseoflavin. The FMN riboswitch structure, centred on an FMN-bound six-stem junction, does not fold by collinear stacking of adjacent helices, typical for folding of large RNAs. Rather, it adopts a butterfly-like scaffold, stapled together by opposingly directed but nearly identically folded peripheral domains. FMN is positioned asymmetrically within the junctional site and is specifically bound to RNA through interactions with the isoalloxazine ring chromophore and direct and Mg(2+)-mediated contacts with the phosphate moiety. Our structural data, complemented by binding and footprinting experiments, imply a largely pre-folded tertiary RNA architecture and FMN recognition mediated by conformational transitions within the junctional binding pocket. The inherent plasticity of the FMN-binding pocket and the availability of large openings make the riboswitch an attractive target for structure-based design of FMN-like antimicrobial compounds. Our studies also explain the effects of spontaneous and antibiotic-induced deregulatory mutations and provided molecular insights into FMN-based control of gene expression in normal and riboflavin-overproducing bacterial strains.
PubMed: 19169240
DOI: 10.1038/nature07642
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.95 Å)
Structure validation

229380

数据于2024-12-25公开中

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