PDBsum entry 1x9c

RNA

PDB id

1x9c

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Contents

			DNA/RNA

			Ligands

					SO4


					NCO ×2

			Waters ×42

PDB id:

1x9c

Links

Name:

RNA

Title:

An all-RNA hairpin ribozyme with mutation u39c

Structure:

5'-r( Up Cp Cp Cp (A2m)p Gp Up Cp Cp Ap Cp Cp G)-3'. Chain: a. Engineered: yes. Mutation: yes. 5'-r( Cp Gp Gp Up Gp Ap Gp Ap Ap Gp Gp G)-3'. Chain: b. Engineered: yes. 5'-r( Gp Gp Cp Ap Gp Ap Gp Ap Ap Ap Cp Ap Cp Ap Cp Gp A)- 3'.

Source:

Synthetic: yes. Other_details: solid phase chemical synthesis. Synthetic: yes

Biol. unit:

Tetramer (from PQS)

Resolution:

2.19Å

R-factor:

0.249

R-free:

0.263

Authors:

S.Alam,V.Grum-Tokars,J.Krucinska,M.L.Kundracik,J.E.Wedekind

Key ref:

S.Alam et al. (2005). Conformational heterogeneity at position U37 of an all-RNA hairpin ribozyme with implications for metal binding and the catalytic structure of the S-turn. Biochemistry, 44, 14396-14408. PubMed id: 16262240 DOI: 10.1021/bi051550i

Date:

20-Aug-04

Release date:

22-Nov-05

	Headers

	References

DNA/RNA chains

		U-C-C-C-A2M-G-U-C-C-A-C-C-G 13 bases
		C-G-G-U-G-A-G-A-A-G-G-G 12 bases
		G-G-C-A-G-A-G-A-A-A-C-A-C-A-C-G-A 17 bases
		U-C-G-U-G-G-U-A-C-A-U-U-A-C-C-U-G-C-C 19 bases

DOI no: 10.1021/bi051550i	Biochemistry 44:14396-14408 (2005)
PubMed id: 16262240

Conformational heterogeneity at position U37 of an all-RNA hairpin ribozyme with implications for metal binding and the catalytic structure of the S-turn.
S.Alam, V.Grum-Tokars, J.Krucinska, M.L.Kundracik, J.E.Wedekind.

ABSTRACT

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.

Literature references that cite this PDB file's key reference

PubMed id

Reference

21428954

D.M.Lilley (2011).
Catalysis by the nucleolytic ribozymes.

Biochem Soc Trans, 39, 641-646.

21199369

I.Drude, A.Strahl, D.Galla, O.Müller, and S.Müller (2011).
Design of hairpin ribozyme variants with improved activity for poorly processed substrates.

FEBS J, 278, 622-633.

20554048

A.R.Ferré-D'Amaré (2010).
Use of the spliceosomal protein U1A to facilitate crystallization and structure determination of complex RNAs.

Methods, 52, 159-167.

19754142

M.A.Ditzler, M.Otyepka, J.Sponer, and N.G.Walter (2010).
Molecular dynamics and quantum mechanics of RNA: conformational and chemical change we can believe in.

Acc Chem Res, 43, 40-47.

19948769

N.Kulshina, T.E.Edwards, and A.R.Ferré-D'Amaré (2010).
Thermodynamic analysis of ligand binding and ligand binding-induced tertiary structure formation by the thiamine pyrophosphate riboswitch.

RNA, 16, 186-196.

PDB code:

3k0j

19223444

M.A.Ditzler, J.Sponer, and N.G.Walter (2009).
Molecular dynamics suggest multifunctionality of an adenine imino group in acid-base catalysis of the hairpin ribozyme.

RNA, 15, 560-575.

19416070

M.J.Fedor (2009).
Comparative enzymology and structural biology of RNA self-cleavage.

Annu Rev Biophys, 38, 271-299.

19261617

R.C.Spitale, A.T.Torelli, J.Krucinska, V.Bandarian, and J.E.Wedekind (2009).
The Structural Basis for Recognition of the PreQ0 Metabolite by an Unusually Small Riboswitch Aptamer Domain.

J Biol Chem, 284, 11012-11016.

PDB code:

3gca

19559088

R.C.Spitale, and J.E.Wedekind (2009).
Exploring ribozyme conformational changes with X-ray crystallography.

Methods, 49, 87.

19634899

R.C.Spitale, R.Volpini, M.V.Mungillo, J.Krucinska, G.Cristalli, and J.E.Wedekind (2009).
Single-atom imino substitutions at A9 and A10 reveal distinct effects on the fold and function of the hairpin ribozyme catalytic core.

Biochemistry, 48, 7777-7779.

PDB codes:

3i2q 3i2r 3i2s 3i2u

18596253

C.MacElrevey, J.D.Salter, J.Krucinska, and J.E.Wedekind (2008).
Structural effects of nucleobase variations at key active site residue Ade38 in the hairpin ribozyme.

RNA, 14, 1600-1616.

PDB codes:

3b58 3b5a 3b5f 3b5s 3b91 3bbi 3bbk 3bbm 3cr1

18287565

J.A.Nelson, and O.C.Uhlenbeck (2008).
Hammerhead redux: does the new structure fit the old biochemical data?

RNA, 14, 605-615.

17488874

A.T.Torelli, J.Krucinska, and J.E.Wedekind (2007).
A comparison of vanadate to a 2'-5' linkage at the active site of a small ribozyme suggests a role for water in transition-state stabilization.

RNA, 13, 1052-1070.

PDB codes:

2p7d 2p7e 2p7f

17582172

C.MacElrevey, R.C.Spitale, J.Krucinska, and J.E.Wedekind (2007).
A posteriori design of crystal contacts to improve the X-ray diffraction properties of a small RNA enzyme.

Acta Crystallogr D Biol Crystallogr, 63, 812-825.

PDB codes:

2npy 2npz

17351263

J.W.Cottrell, Y.I.Kuzmin, and M.J.Fedor (2007).
Functional analysis of hairpin ribozyme active site architecture.

J Biol Chem, 282, 13498-13507.

17685395

M.A.Ditzler, E.A.Alemán, D.Rueda, and N.G.Walter (2007).
Focus on function: single molecule RNA enzymology.

Biopolymers, 87, 302-316.

17456566

M.Roychowdhury-Saha, and D.H.Burke (2007).
Distinct reaction pathway promoted by non-divalent-metal cations in a tertiary stabilized hammerhead ribozyme.

RNA, 13, 841-848.

16411744

J.Salter, J.Krucinska, S.Alam, V.Grum-Tokars, and J.E.Wedekind (2006).
Water in the active site of an all-RNA hairpin ribozyme and effects of Gua8 base variants on the geometry of phosphoryl transfer.

Biochemistry, 45, 686-700.

PDB codes:

1zfr 1zft 1zfv 1zfx 2bcy 2bcz 2fgp 2oue

The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB code is shown on the right.