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XB-ART-23840
Biochemistry 1992 Apr 07;3113:3534-42.
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Delineation of structural domains in eukaryotic 5S rRNA with a rhodium probe.

Chow CS , Hartmann KM , Rawlings SL , Huber PW , Barton JK .


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The three-dimensional folding of Xenopus oocyte 5S rRNA has been examined using the coordination complex Rh(phen)2phi3+ (phen = phenanthroline; phi = phenanthrenequinone diimine) as a structural probe. Rh(phen)2phi3+ binds neither double-helical RNA nor unstructured single-stranded regions of RNA. Instead, the complex targets through photoactivated cleavage sites of tertiary interaction which are open in the major groove and accessible to stacking. The sites targeted by the rhodium complex have been mapped on the wild-type Xenopus oocyte RNA, on a truncated RNA representing the arm of the molecule comprised of helix IV-loop E-helix V, and on several single-nucleotide mutants of the 5S rRNA. On the wild-type 5S rRNA, strong cleavage is found at residues U73, A74, A101, and U102 in the E loop and U80 and G81 in helix IV; additional sites are evident at A22 and A56 in the B loop, C29 and A32 in helix III, and C34, C39, A42, and C44 in the C loop. Given the similarity observed in cleavage between the full 5S RNA and the truncated fragment as well as the absence of any long-range effects on cleavage in mutant RNAs, the results do not support models which involve long-range tertiary interactions. Cleavage results with Rh(phen)2phi3+ do, however, indicate that the apposition of several noncanonical bases as well as stem--loop junctions may result in intimately stacked structures with opened major grooves. In particular, on the basis of cleavage results on mutant RNAs, both loops C and E represent structures where the strands constituting each loop are not independent of one another but are intrinsically structured.(ABSTRACT TRUNCATED AT 250 WORDS)

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