Corrin Ring Modifications Reveal the Chemical and Spatial Requirements for the B12‐btuB Riboswitch Interaction

The btuB riboswitch is a regulatory RNA sequence controlling gene expression of the outer membrane B12 transport protein BtuB by specifically binding coenzyme B12 (AdoCbl) as its natural ligand. The B12 sensing riboswitch class is known to accept various B12 derivatives, leading to a division into t...

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Veröffentlicht in:	Chemistry : a European journal 2024-09, Vol.30 (49), p.e202401800-n/a
Hauptverfasser:	Musiari, Anastasia, Reichenbach, María, Gallo, Sofia, Sigel, Roland K. O.
Format:	Artikel
Sprache:	eng
Schlagworte:	Affinity Amino acid sequence Binding Chemical bonds Chemical modification Electrostatic properties Footprinting Gene expression Hydrogen bonding Hydrogen bonds Ligands Nucleotide sequence Protein transport Recognition Regulatory sequences Ribonucleic acid Riboswitch RNA RNA modification RNA transport Vitamin B12 Vitamin B12 derivatives
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creator	Musiari, Anastasia Reichenbach, María Gallo, Sofia Sigel, Roland K. O.
description	The btuB riboswitch is a regulatory RNA sequence controlling gene expression of the outer membrane B12 transport protein BtuB by specifically binding coenzyme B12 (AdoCbl) as its natural ligand. The B12 sensing riboswitch class is known to accept various B12 derivatives, leading to a division into two riboswitch subclasses, dependent on the size of the apical ligand. Here we focus on the role of side chains b and e on affinity and proper recognition, i. e. correct structural switch of the btuB RNA, which belongs to the AdoCbl‐binding class I. Chemical modification of these side chains disturbs crucial hydrogen bonds and/or electrostatic interactions with the RNA, its effect on both affinity and switching being monitored by in‐line probing. Chemical modifications at sidechain b of vitamin B12 show larger effects indicating crucial B12‐RNA interactions. When introducing the same modification to AdoCbl the influence of any side‐chain modification tested is reduced. This renders the impact of the adenosyl‐ligand for B12‐btuB riboswitch recognition clearly beyond the known role in affinity. To find the structural requirements of a B12‐derivative to bind and switch the btuB riboswitch we derivatised the corrin sidechains b and e as well as the apical ligand. While modifications at the sidechains have a large impact on the riboswitch, introduction of an apical adenosyl‐ligand restores the riboswitch fold.
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subjects	Affinity Amino acid sequence Binding Chemical bonds Chemical modification Electrostatic properties Footprinting Gene expression Hydrogen bonding Hydrogen bonds Ligands Nucleotide sequence Protein transport Recognition Regulatory sequences Ribonucleic acid Riboswitch RNA RNA modification RNA transport Vitamin B12 Vitamin B12 derivatives
title	Corrin Ring Modifications Reveal the Chemical and Spatial Requirements for the B12‐btuB Riboswitch Interaction
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