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|2rqs, 20 NMR models ()|
|Gene:||pinA (Cenarchaeum symbiosum)|
3D structure of Pin from the psychrophilic archeon Cenarcheaum symbiosum (CsPin)
Parvulins are a group of peptidyl-prolyl isomerases (PPIases) responsible for important biological processes in all kingdoms of life. The PinA protein from the psychrophilic archaeon Cenarchaeum symbiosum is a parvulin-like PPIase. Due to its striking similarity to the human parvulins Pin1 and Par14, PinA constitutes an interesting subject for structural and functional studies. Here, we present the first high resolution NMR structure of an archaeal parvulin, PinA, based on 1798 conformational restraints. Structure calculation yields an ensemble of 20 convergent low energy structures with a backbone r.m.s.d. value of 0.6 A within the secondary structure elements. The overall fold of PinA comprises the beta-alpha(3)-beta-alpha-beta(2) fold typical for all parvulin structures known so far, but with helix III being a short 3(10)-helix. A detailed comparison of this high resolution structure of the first archaeal PinA protein with bacterial and eukaryotic parvulin PPIase structures reveals an atypically large catalytic binding site. This feature provides an explanation for cold-adapted protein function. Moreover, the residues in and around 3(10)-helix III exhibit strong intramolecular dynamics on a microsecond to millisecond timescale and display structural heterogeneity within the NMR ensemble. A putative peptide ligand was found for PinA by phage display and was used for (1)H-(15)N-HSQC titrations. Again, the flexible region around 3(10)-helix III as well as residues of the peptide binding pocket showed the strongest chemical shift perturbations upon peptide binding. The local flexibility of this region also was modulated by ligand binding. A glycine and two positively charged residues are conserved in most parvulin proteins in this flexible loop region, which may be of general functional importance for parvulin-type PPIases.
Structure and Dynamics of the First Archaeal Parvulin Reveal a New Functionally Important Loop in Parvulin-type Prolyl Isomerases., Jaremko L, Jaremko M, Elfaki I, Mueller JW, Ejchart A, Bayer P, Zhukov I, J Biol Chem. 2011 Feb 25;286(8):6554-65. Epub 2010 Dec 7. PMID:21138844
From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.
About this Structure
- Jaremko L, Jaremko M, Elfaki I, Mueller JW, Ejchart A, Bayer P, Zhukov I. Structure and Dynamics of the First Archaeal Parvulin Reveal a New Functionally Important Loop in Parvulin-type Prolyl Isomerases. J Biol Chem. 2011 Feb 25;286(8):6554-65. Epub 2010 Dec 7. PMID:21138844 doi:10.1074/jbc.M110.160713