Discovery
The ability of dsRNA to convert into a left-handed helix was demonstrated usingStructural characteristics
Z-RNA to resemble, but not be identical, to that of Z-DNA. The structure of the complex of a Zalpha domain with Z-RNA under close to physiological salt concentrations however suggests a structure much closer to the Z-DNA conformation and points to two forms of Z-RNA (low and high salt conformations) Placido, D., B.A. Brown, 2nd, K. Lowenhaupt, A. Rich, and A. Athanasiadis, A left-handed RNA double helix bound by the Z alpha domain of the RNA-editing enzyme ADAR1. Structure, 2007. 15(4): p. 395-404.Role in biology
Formation of Z-RNA in living cells was suggested by experiments using anti-Z-RNA antibodies to stain fixed protozoan cells Further evidence accrued with the discovery that the Zalpha domain of the RNA editing enzyme ADAR1 binds and recognizes with high affinity Z-RNA.Brown, B.A., 2nd, K. Lowenhaupt, C.M. Wilbert, E.B. Hanlon, and A. Rich, The Zalpha domain of the editing enzyme dsRNA adenosine deaminase binds left-handed Z-RNA as well as Z-DNA. Proc Natl Acad Sci U S A, 2000. 97(25): p. 13532-6. Structural features of the recognition of Z-RNA by Zalpha domains were revealed by the crystallographic study of the complexReferences
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