Marita R. Rejante scite author profile

New 2D and 3D 1H-13C-15N triple resonance experiments are presented which allow unambiguous assignments of intranucleotide H1'-H8(H6) connectivities in 13C- and 15N-labeled RNA oligonucleotides. Two slightly different experiments employing double INEPT forward and back coherence transfers are optimized to obtain the H1'-C1'-N9/N1 and H8/H6-C8/C6-N9/N1 connectivities, respectively. The correlation of H1' protons to glycosidic nitrogens N9/N1 is obtained in a nonselective fashion. To correlate H8/H6 with their respective glycosidic nitrogens, selective 13C-refocusing and 15N-inversion pulses are applied to optimize the magnetization transfers along the desired pathway. The approach employs the heteronuclear one-bond spin-spin interactions and allows the 2D 1H-15N and 3D 1H-13C-15N chemical shift correlation of nuclei along and adjacent to the glycosidic bond. Since the intranucleotide correlations obtained are based exclusively on through-bond scalar interactions, these experiments resolve the ambiguity of intra- and internucleotide H1'-H8(H6) assignments obtained from the 2D NOESY spectra. These experiments are applied to a 30-base RNA oligonucleotide which contains the binding site for Rev protein from HIV.

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Solution structure of the ɛ‐aminohexanoic acid complex of human plasminogen kringle 1

Rejante

Llinás

1994

European Journal of Biochemistry

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The solution structure of the human plasminogen kringle 1 domain complexed to the antifibrinolytic drug 6-aminohexanoic acid (epsilon Ahx) was obtained on the basis of 1H-NMR spectroscopic data and dynamical simulated annealing calculations. Two sets of structures were derived starting from (a) random coil conformations and (b) the (mutated) crystallographic structure of the homologous prothrombin kringle 1. The two sets display essentially the same backbone folding (pairwise root-mean-square deviation, 0.15 nm) indicating that, regardless of the initial structure, the data is sufficient to locate a conformation corresponding to an essentially unique energy minimum. The conformations of residues connected to prolines were localized to energetically preferred regions of the Ramachandran map. The Pro30 peptide bond is proposed to be cis. The ligand-binding site of the kringle 1 is a shallow cavity composed of Pro33, Phe36, Trp62, Tyr64, Tyr72 and Tyr74. Doubly charged anionic and cationic centers configured by the side chains of Asp55 and Asp57, and Arg34 and Arg71, respectively, contribute to anchoring the zwitterionic epsilon Ahx molecule at the binding site. The ligand exhibits closer contacts with the kringle anionic centers (approximately 0.35 nm average O...H distance between the Asp55/Asp57 carboxylate and ligand amino groups) than with the cationic ones (approximately 0.52 nm closest O...H distances between the ligand carboxylate and the Arg34/Arg71 guanidino groups). The epsilon Ahx hydrocarbon chain rests flanked by Pro33, Tyr64, Tyr72 and Tyr74 on one side and Phe36 on the other. Dipolar (Overhauser) connectivities indicate that the ligand aliphatic moiety establishes close contacts with the Phe36 and Trp62 aromatic rings. The computed structure suggests that the epsilon Ahx molecule adopts a kinked conformation when complexed to kringle 1, effectively shortening its dipole length to approximately 0.65 nm.

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Ligand specificity of human plasminogen kringle 4

Rejante¹,

Byeon²,

Llinás³

1991

Biochemistry

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The ligand specificity of the human plasminogen kringle 4 was characterized in terms of ligand size, aromatic/aliphatic character, and ionic charge distribution. The binding of the following ligands was investigated via 1H NMR spectroscopy, and their equilibrium association constants (Ka) were determined: (1) p-aminomethylbenzoic acid (Ka approximately 4.8 mM-1), (2) benzylamine (Ka approximately 0.2 mM-1), (3) l-aminohexane (Ka approximately 0.07 mM-1), (4) 7-aminoheptanoic acid (Ka approximately 6.6 mM-1), (5) 5-aminopentanoic acid (Ka approximately 16 mM-1), (6) N alpha-acetyl-L-arginine (Ka approximately 0.3 mM-1), and (7) N alpha-acetyl-L-arginine methyl ester (Ka approximately 0.08 mM-1). Benzamidine and L-arginine do not bind measurably to kringle 4. We have also established that 1-hexanoic acid and 4-methylbenzoic acid do not interact significantly with kringle 4 (Ka less than 0.05 mM-1). The Trp62 resonances were found to be quite sensitive to aromatic ligands as well as to aliphatic ligand length. Phe64 is similarly sensitive to the ligand aromatic/aliphatic character and chain length and to the identity of the ligand anionic group. His31 and His33 do not respond significantly to variations in ligand structure, although they are perturbed by aromatic and aliphatic effectors. The perturbations induced by the arginine derivatives on these residues show that these compounds interact with the lysine-binding site (LBS) of kringle 4. The LBS was further characterized using 2D NMR studies of a kringle 4/trans-(aminomethyl)cyclohexanecarboxylic acid (AMCHA) complex. A complete assignment of the AMCHA spectrum in the bound state was achieved. This enabled the unambiguous identification of intermolecular contact points between the central AMCHA protons and Trp62 and Trp72. A model based on the X-ray crystallographic structure of kringle 4, incorporating these constraints, has been derived.

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Correlation of nucleotide base and sugar protons in a 15N-labeled HIV-1 RNA oligonucleotide by 1H-15N HSQC experiments

Sklenář¹,

Peterson

Rejante

et al. 1994

J Biomol NMR

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Two-dimensional triple-resonance HCNCH experiment for direct correlation of ribose H1' and base H8, H6 protons in 13C,15N-labeled RNA oligonucleotides

Sklenar¹,

Rejante²,

Peterson³

et al. 1993

J. Am. Chem. Soc.

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Marita R. Rejante

Two-and three-dimensional HCN experiments for correlating base and sugar resonances in 15N, 13C-labeled RNA oligonucleotides

Solution structure of the ɛ‐aminohexanoic acid complex of human plasminogen kringle 1

Ligand specificity of human plasminogen kringle 4

Correlation of nucleotide base and sugar protons in a 15N-labeled HIV-1 RNA oligonucleotide by 1H-15N HSQC experiments

Two-dimensional triple-resonance HCNCH experiment for direct correlation of ribose H1' and base H8, H6 protons in 13C,15N-labeled RNA oligonucleotides

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