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PDBsum entry 1x9c
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References listed in PDB file
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Key reference
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Title
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Conformational heterogeneity at position u37 of an all-Rna hairpin ribozyme with implications for metal binding and the catalytic structure of the s-Turn.
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Authors
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S.Alam,
V.Grum-Tokars,
J.Krucinska,
M.L.Kundracik,
J.E.Wedekind.
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Ref.
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Biochemistry, 2005,
44,
14396-14408.
[DOI no: ]
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PubMed id
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Abstract
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The hairpin ribozyme is an RNA enzyme that performs site-specific phosphodiester
bond cleavage between nucleotides A-1 and G+1 within its cognate substrate.
Previous functional studies revealed that the minimal hairpin ribozyme exhibited
"gain-of-function" cleavage properties resulting from U39C or U39 to propyl
linker (C3) modifications. Furthermore, each "mutant" displayed different
magnesium-dependence in its activity. To investigate the molecular basis for
these gain-of-function variants, crystal structures of minimal, junctionless
hairpin ribozymes were solved in native (U39), and mutant U39C and U39(C3)
forms. The results revealed an overall molecular architecture comprising two
docked internal loop domains folded into a wishbone shape, whose tertiary
interface forms a sequestered active site. All three minimal hairpin ribozymes
bound Co(NH(3))(6)(3+) at G21/A40, the E-loop/S-turn boundary. The native
structure also showed that U37 of the S-turn adopts both sequestered and exposed
conformations that differ by a maximum displacement of 13 A. In the sequestered
form, the U37 base packs against G36, and its 2'-hydroxyl group forms a water
mediated hydrogen bond to O4' of G+1. These interactions were not observed in
previous four-way-junction hairpin ribozyme structures due to crystal contacts
with the U1A splicing protein. Interestingly, the U39C and U39(C3) mutations
shifted the equilibrium conformation of U37 into the sequestered form through
formation of new hydrogen bonds in the S-turn, proximal to the essential
nucleotide A38. A comparison of all three new structures has implications for
the catalytically relevant conformation of the S-turn and suggests a rationale
for the distinctive metal dependence of each mutant.
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Secondary reference #1
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Title
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Crystallization and X-Ray diffraction analysis of an all-Rna u39c mutant of the minimal hairpin ribozyme.
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Authors
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V.Grum-Tokars,
M.Milovanovic,
J.E.Wedekind.
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Ref.
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Acta Crystallogr D Biol Crystallogr, 2003,
59,
142-145.
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PubMed id
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Headers
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