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PDBsum entry 1dqh
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References listed in PDB file
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Key reference
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Title
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Two crystal forms of helix ii of xenopus laevis 5s rrna with a cytosine bulge.
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Authors
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Y.Xiong,
M.Sundaralingam.
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Ref.
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Rna, 2000,
6,
1316-1324.
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PubMed id
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Abstract
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The crystal structure of r(GCCACCCUG).r(CAGGGUCGGC), helix II of the Xenopus
laevis 5S rRNA with a cytosine bulge (underlined), has been determined in two
forms at 2.2 A (Form I, space group P4(2)2(1)2, a = b = 57.15 A and c = 43.54 A)
and 1.7 A (Form II, space group P4(3)2(1)2, a = b = 32.78 A and c = 102.5 A).
The helical regions of the nonamers are found in the standard A-RNA
conformations and the two forms have an RMS deviation of 0.75 A. However, the
cytosine bulge adopts two significantly different conformations with an RMS
deviation of 3.9 A. In Form I, the cytosine bulge forms an intermolecular C+*G.C
triple in the major groove of a symmetry-related duplex with intermolecular
hydrogen bonds between N4C and O6G, and between protonated N3+C and N7G. In
contrast, a minor groove C*G.C triple is formed in Form II with intermolecular
hydrogen bonds between O2C and N2G, and between N3C and N3G with a water bridge.
A partial major groove opening was observed in Form I structure at the bulge
site. Two Ca2+ ions were found in Form I helix whereas there were none in Form
II. The structural comparison of these two forms indicates that bulged residues
can adopt a variety of conformations with little perturbation to the global
helix structure. This suggests that bulged residues could function as flexible
latches in bridging double helical motifs and facilitate the folding of large
RNA molecules.
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Headers
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