Related ArticlesCrystal structure and NMR conformation of a cyclic pseudotetrapeptide containing urethane backbone linkages.
Biopolymers. 1994 Mar;34(3):403-14
Authors: Parkinson GN, Wu Y, Fan P, Kohn J, Baum J, Berman HM
Urethane bonds, derived from the hydroxyl group of the tyrosine side chain, have been investigated as a new type of amide bond mimetic in the design of pseudopeptides. The structure of a representative cyclic pseudotetrapeptide that consists of an -Ala-Tyr(urethane)Ala-Tyr(urethane) sequence fused into a rigid ring has been studied in the solid state by x-ray crystallography and in solution by two-dimensional nmr techniques. The cyclic pseudotetrapeptide has an oblong shape. The backbone urethane bonds assume a trans-trans conformation. The carbonyl groups in the ring have an alternating pattern of down, up, down, up with respect to the average ring plane. Solution nmr studies give observed nuclear Overhauser effects and coupling constants largely in agreement with the crystal structure. However, in solution the observed structure is likely to be conformationally averaged, and in the averaged structure, the urethane bond is perpendicular to the plane of the aromatic ring of the tyrosine, while in the crystal it is close to this plane. These differences may be explained by intermolecular hydrogen-bonding interactions. Four aspects of the conformation of the cyclic pseudotetrapeptide were investigated in detail: the tyrosine residue with the attached side-chain urethane bond (the tyrosine-urethane unit), the conformation of the two urethane backbone linkages, the conformation of the two conventional peptide bonds within this unusual ring structure, and the tight turns within the cyclic pseudotetrapeptide. The conformation of the tight turns present in the cyclic pseudotetrapeptide is very similar to that of a beta-bend of type II. Intermolecular hydrogen bonding, joining adjacent layers of the cyclic pseudotetrapeptide in the solid state, resemble a parallel beta-pleated sheet. The presence of these structural motifs in the cyclic pseudotetrapeptide indicates that the tyrosine urethane unit may find applications in peptide and protein engineering.
[NMR paper] Crystal structure and solution NMR dynamics of a D (type II) peroxiredoxin glutaredox
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Biochemistry. 2005 Feb 15;44(6):1755-67
Authors: Echalier A, Trivelli X, Corbier C, Rouhier N, Walker O, Tsan P, Jacquot JP, Aubry A, Krimm I, Lancelin JM
Peroxiredoxins (Prxs) constitute a family of...
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11-24-2010 11:14 PM
[NMR paper] Crystal structure and NMR studies of the apo SH2 domains of ZAP-70: two bikes rather
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Biochemistry. 2002 Dec 3;41(48):14176-84
Authors: Folmer RH, Geschwindner S, Xue Y
The protein kinase ZAP-70 is involved in T-cell activation, and interacts with tyrosine-phosphorylated peptide sequences known as immunoreceptor tyrosine activation motifs (ITAMs), which are present in three of the subunits of the T-cell receptor....
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NMR structure of the protein NP_247299.1: comparison with the crystal structure.
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Acta Crystallogr Sect F Struct Biol Cryst Commun. 2010 Oct 1;66(Pt 10):1367-80
Authors: Jaudzems K, Geralt M, Serrano P, Mohanty B, Horst R, Pedrini B, Elsliger MA, Wilson IA, Wüthrich K
The NMR structure of the protein NP_247299.1 in solution at 313 K has been determined and is compared with the X-ray crystal structure, which was also solved in the Joint Center for...
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[Question from NMRWiki Q&A forum] Free program to calculate the theoretical second moment from crystal structure data?
Free program to calculate the theoretical second moment from crystal structure data?
Does anyone know of a free, available program I can use to calculate the theoretical second moment from crystal structure data? I was only able to find one online, written in a mix of FORTRAN 77/90. The current limitations of the program can't accommodate my system (big unit cell and lots of atoms), and FORTRAN coding really isn't my fortay.
Ideally, the program would be able to simulate second moment(s) by defining specific rotational axes, and modeling different rotational rates and hopping angles...
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09-29-2010 10:24 AM
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[NMR paper] Crystal structure of the SH2 domain from the adaptor protein SHC: a model for peptide
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[NMR paper] Crystal structure and NMR conformation of a cyclic pseudotetrapeptide containing uret
Crystal structure and NMR conformation of a cyclic pseudotetrapeptide containing urethane backbone linkages.
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Biopolymers. 1994 Mar;34(3):403-14
Authors: Parkinson GN, Wu Y, Fan P, Kohn J, Baum J, Berman HM
Urethane bonds, derived from the hydroxyl group of the tyrosine side chain, have been investigated as a new type of amide bond mimetic in the design of pseudopeptides. The structure of a representative cyclic...
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Elucidation of the structure and intermolecular interactions of a reversible cyclic-p
Elucidation of the structure and intermolecular interactions of a reversible cyclic-peptide inhibitor of the proteasome by NMR spectroscopy and molecular modeling.
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Angew Chem Int Ed Engl. 2010 May 25;49(23):3934-8
Authors: Stauch B, Simon...
Crystal structure and NMR conformation of a cyclic pseudotetrapeptide containing uret
Linear Mode
