Yelena Koldobskaya scite author profile

Spinach is an in vitro selected RNA aptamer that binds a GFP-like ligand and activates its green fluorescence.Spinach is thus an RNA analog of GFP, and has potentially widespread applications for in vivo labeling and imaging. We used antibody-assisted crystallography to determine the structures of Spinach both with and without bound fluorophore at 2.2 and 2.4 Å resolution, respectively. Spinach RNA has an elongated structure containing two helical domains separated by an internal bulge that folds into a G-quadruplex motif of unusual topology. The G-quadruplex motif and adjacent nucleotides comprise a partially pre-formed binding site for the fluorophore.The fluorophore binds in a planar conformation and makes extensive aromatic stacking and hydrogen bond interactions with the RNA. Our findings provide a foundation for structure-based engineering of new fluorophore-binding RNA aptamers.

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Crystal Structure of the Catalytic Core of an RNA-Polymerase Ribozyme

Shechner

Grant

Bagby

et al. 2009

Science

126

206

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Primordial organisms of the putative RNA world would have required polymerase ribozymes able to replicate RNA. Known ribozymes with polymerase activity best approximating that needed for RNA replication contain at their catalytic core the class I RNA ligase, an artificial ribozyme with a catalytic rate among the fastest of known ribozymes. Here we present the 3.0 angstrom crystal structure of this ligase. The architecture resembles a tripod, its three legs converging near the ligation junction. Interacting with this tripod scaffold through a series of 10 minor-groove interactions (including two A-minor triads) is the unpaired segment that contributes to and organizes the active site. A cytosine nucleobase and two backbone phosphates abut the ligation junction; their location suggests a model for catalysis resembling that of proteinaceous polymerases.

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A portable RNA sequence whose recognition by a synthetic antibody facilitates structural determination

Koldobskaya

Duguid

Shechner

et al. 2010

Nat Struct Mol Biol

133

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RNA crystallization and phasing represent major bottlenecks in RNA structure determination. Seeking to exploit antibody fragments as RNA crystallization chaperones, we have used an arginine-enriched synthetic Fab library displayed on phage to obtain Fabs against the class I ligase ribozyme. We solved the structure of a Fab:ligase complex at 3.1Å using molecular replacement with Fab coordinates, confirming the ribozyme architecture and revealing the chaperone’s role in RNA recognition and crystal contacts. The epitope resides in the GAAACAC sequence that caps the P5 helix and retains high-affinity Fab binding within the context of other structured RNAs. This portable epitope provides a new RNA crystallization chaperone system that easily can be screened in parallel to the U1A RNA-binding protein, with the advantages of the smaller size of the loop and high molecular weight, large surface area, and phasing power provided by Fabs.

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Thermodynamics, Kinetics, and Mechanism of (silox)₃M(olefin) to (silox)₃M(alkylidene) Rearrangements (silox = ^tBu₃SiO; M = Nb, Ta)

et al. 2005

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