Jan Milecki scite author profile

Right-handed RNA duplexes of (CG)n sequence undergo salt-induced helicity reversal, forming left-handed RNA double helices (Z-RNA). In contrast to the thoroughly studied Z-DNA, no Z-RNA structure of natural origin is known. Here we report the NMR structure of a half-turn, left-handed RNA helix (CGCGCG)2 determined in 6 M NaClO4. This is the first nucleic acid motif determined at such high salt. Sequential assignments of non-exchangeable proton resonances of the Z-form were based on the hitherto unreported NOE connectivity path [H6(n)-H5'/H5''(n)-H8(n+1)-H1'(n+1)-H6(n+2)] found for left-handed helices. Z-RNA structure shows several conformational features significantly different from Z-DNA. Intra-strand but no inter-strand base stacking was observed for both CpG and GpC steps. Helical twist angles for CpG steps have small positive values (4-7 degrees), whereas GpC steps have large negative values (-61 degrees). In the full-turn model of Z-RNA (12.4 bp per turn), base pairs are much closer to the helix axis than in Z-DNA, thus both the very deep, narrow minor groove with buried cytidine 2'-OH groups, and the major groove are well defined. The 2'-OH group of cytidines plays a crucial role in the Z-RNA structure and its formation; 2'-O-methylation of cytidine, but not of guanosine residues prohibits A to Z helicity reversal.

show abstract

Solution structure of RNA duplexes containing alternating CG base pairs: NMR study of r(CGCGCG)2 and 2'-O-Me(CGCGCG)2 under low salt conditions

Popenda

Biala

Milecki

et al. 1997

View full text Add to dashboard Cite

Structures of r(CGCGCG)2 and 2'-O-Me(CGCGCG)2 have been determined by NMR spectroscopy under low salt conditions. All protons and phosphorus nuclei resonances have been assigned. Signals of H5'/5" have been assigned stereospecifically. All 3JH,H and 3JP,H coupling constants have been measured. The structures were determined and refined using an iterative relaxation matrix procedure (IRMA) and the restrained MD simulation. Both duplexes form half-turn, right-handed helices with several conformational features which deviate significantly from a canonical A-RNA structure. Duplexes are characterised as having C3'-endo sugar pucker, very low base-pair rise and high helical twist and inclination angles. Helices are overwound with <10 bp per turn. There is limited inter-strand guanine stacking for CG steps. Within CG steps of both duplexes, the planes of the inter-strand cytosines are not parallel while guanines are almost parallel. For the GC steps this pattern is reversed. The 2'-O-methyl groups are spatially close to the 5'-hydrogens of neighbouring residues from the 3'-side and are directed towards the minor groove of 2'-O-Me(CGCGCG)2 forming a hydrophobic layer. Solution structures of both duplexes are similar; the effect of 2'-O-methylation on the parent RNA structure is small. This suggests that intrinsic properties imposed by alternating CG base pairs govern the overall conformation of both duplexes.

show abstract

The 1.19 A X-ray structure of 2'-O-Me(CGCGCG)2 duplex shows dehydrated RNA with 2-methyl-2,4-pentanediol in the minor groove

Adamiak

Rypniewski²,

Milecki³

et al. 2001

View full text Add to dashboard Cite

The crystal and molecular structure of 2'-O-Me(CGCGCG)(2) has been determined at 1.19 A resolution, at 100 K, using synchrotron radiation. The structure in space group P3(2)12 is a half-turn right-handed helix that includes two 2-methyl-2,4-pentanediol (MPD) molecules bound in the minor groove. The structure deviates from A-form RNA. The duplex is overwound with an average value of 9.7 bp per turn, characterised as having a C3'-endo sugar pucker, very low base pair rise and high helical twist and inclination angles. The structure includes 65 ordered water molecules. Only a single row of water molecules is observed in the minor groove due to the presence of hydrophobic 2'-O-methyl groups. As many as five magnesium ions are located in the structure. Two are in the major groove and interact with O(6) and N(7) of guanosine and N(4) of cytidine residues through their hydration spheres. This work provides the first example of molecular interactions of nucleic acids with MPD, which was used as a precipitant, cryo-solvent and resolution enhancing agent. The two MPD molecules intrude into the hydration network in the minor groove, each forming hydrogen bonds between their secondary hydroxyl group and exo-amino functions of guanosine residues. Comparison of the 2'-O-Me(CGCGCG)(2) structure in the P3(2)12 and P6(1)22 crystals delineates stability of the water network within the minor groove to dehydration by MPD and is of interest for evaluating factors governing small molecule binding to RNA. Intrusion of MPD into the minor groove of 2'-O-Me(CGCGCG)(2) is discussed with respect to RNA dehydration, a prerequisite of Z-RNA formation.

show abstract

The hydration and unusual hydrogen bonding in the crystal structure of an RNA duplex containing alternating CG base pairs

et al. 2010

View full text Add to dashboard Cite

The X-ray structures of two crystal forms of the RNA duplex [CGCG(5-FC)G] 2 are the first crystal structures for an RNA duplex containing alternating CG base pairs with unmodified 2 0 -hydroxyl groups. The triclinic and the rhombohedral crystal forms (PDB ids 3jxq, 3jxr) differ in the molecular packing, the amount of ordered structure and in molecular details, especially the hydration. The P1 data extend to 1.45 A ˚resolution, while the R32 data reach 1.25 A ˚. In both structures the RNA oligomers take the form of a right-handed half-turn with conformational parameters close to the canonical A-RNA. The duplexes stack coaxially in the crystal lattice. The geometry of C:G vs. 5-FC:G pairing is similar in terms of H-bond geometry. In CG steps, inter-strand guanines are parallel while cytosines are not parallel. In steps GC this motif is reversed. Both structures contain ordered water molecules, forming characteristic hydration network in the major and the minor grooves. In addition to water, the triclinic structure contains four magnesium cations, one of them forming an inner complex with a phosphate. Two types of unusual interactions are observed. In the major groove, the 5-fluorocytidine residues form C-FÁ Á ÁH-O-H hydrogen bonds with water molecules. In the minor groove, intermolecular contacts include C-H hydrogen bonds (C1 0 -H1Á Á ÁO2 0 and C4 0 -H4 0 Á Á ÁO4 0 ) between two ribose rings.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Jan Milecki

Hydroxypropyl-β-cyclodextrin: preparation and characterization; effects on solubility of drugs

High salt solution structure of a left-handed RNA double helix

Solution structure of RNA duplexes containing alternating CG base pairs: NMR study of r(CGCGCG)2 and 2'-O-Me(CGCGCG)2 under low salt conditions

The 1.19 A X-ray structure of 2'-O-Me(CGCGCG)2 duplex shows dehydrated RNA with 2-methyl-2,4-pentanediol in the minor groove

The hydration and unusual hydrogen bonding in the crystal structure of an RNA duplex containing alternating CG base pairs

Contact Info

Product

Resources

About