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1H NMR studies at 360 Mhz of the methyl groups in native and chemically modified basic pancreatic trypsin inhibitor (BPTI) (1977)

Marco, Antonio ; Tschesche, Harald ; Wagner, Gerhard ; [et al.]

Springer

European biophysics journal 3 (1977), S. 303-315

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ISSN: 1432-1017

Keywords: NMR ; Proteinase inhibitor ; Protein modification ; Protein structure ; Basic pancreatic trypsin inhibitor

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract In the 1H NMR spectra obtained at 360 MHz after digital resolution enhancement, the multiplet resonances of the methyl groups in the basic pancreatic trypsin inhibitor (BPTI) were resolved. With suitable double irradiation techniques the individual methyl resonances were assigned to the different types of aliphatic amino acid residues. Furthermore, from pH titration and comparison of the native protein with chemically modified BPTI, the resonance lines of Ala 16 in the active site and Ala 58 at the C-terminus were identified. Potential applications of the resolved methyl resonances as natural NMR probes for studies of the molecular conformations are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00535703

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Support of1H NMR assignments in proteins by biosynthetically directed fractional13C-labeling (1992)

Szyperski, Thomas ; Neri, Dario ; Leiting, Barbara ; [et al.]

Springer

Journal of biomolecular NMR 2 (1992), S. 323-334

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ISSN: 1573-5001

Keywords: Protein structure ; NMR assignment ; Isotope labeling ; Biosynthetically directed fractional13C-labeling ; Stereospecific NMR assignment

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Biosynthetically directed fractional incorporation of13C into proteins results in nonrandom13C-labeling patterns that can be investigated by analysis of the13C−13C scalar coupling fine structures in heteronuclear13C−1H or homonuclear13C−13C correlation experiments. Previously this approach was used for obtaining stereospecific1H and13C assignments of the diastereotopic methyl groups of valine and leucine. In the present paper we investigate to what extent the labeling patterns are characteristic for other individual amino acids or groups of amino acids, and can thus be used to support the1H spin-system identifications. Studies of the hydrolysates of fractionally13C-labeled proteins showed that the 59 aliphatic carbon positions in the 20 proteinogenic amino acids exhibit 16 different types of13C−13C coupling fine structures. These provide support for the assignment of the resonances of all methyl groups in a protein, which are otherwise often poorly resolved in homonuclear1H NMR spectra. In particular, besides the individual methyl assignments in Val and Leu, unambiguous distinctions are obtained between the methyl groups of Ala and Thr, and between the γ- and δ-methyl groups of Ile. In addition to the methyl resonances, the γCH2 groups of Glu and Gln can be uniquely assigned because of the large coupling constant with the δ-carbon, and the identification of most of the other spin systems can be supported on the basis of coupling patterns that are common to small groups of amino acid residues.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01874811

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NMR spectroscopy of hydroxyl protons in aqueous solutions of peptides and proteins (1992)

Liepinsh, Edvards ; Otting, Gottfried ; Wüthrich, Kurt

Springer

Journal of biomolecular NMR 2 (1992), S. 447-465

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ISSN: 1573-5001

Keywords: Protein structure ; NMR solution structures ; Hydroxyl protons ; Protein surface ; Proton exchange

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Hydroxyl groups of serine and threonine, and to some extent also tyrosine are usually located on or near the surface of proteins. NMR observations of the hydroxyl protons is therefore of interest to support investigations of the protein surface in solution, and knowledge of the hydroxyl NMR lines is indispensable as a reference for studies of protein hydration in solution. In this paper, solvent suppression schemes recently developed for observation of hydration water resonances were used to observe hydroxyl protons of serine, threonine and tyrosine in aqueous solutions of small model peptides and the protein basic pancreatic trypsin inhibitor (BPTI). The chemical shifts of the hydroxyl protons of serine and threonine were found to be between 5.4 and 6.2 ppm, with random-coil shifts at 4°C of 5.92 ppm and 5.88 ppm, respectively, and those of tyrosine between 9.6 and 10.1 ppm, with a random-coil shift of 9.78 ppm. Since these spectral regions are virtually free of other polypeptide1H NMR signals, cross peaks with the hydroxyl protons are usually well separated even in homonuclear two-dimensional1H NMR spectra. To illustrate the practical use of hydroxyl proton NMR in polypeptides, the conformations of the side-chain hydroxyl groups in BPTI were characterized by measurements of nuclear Overhauser effects and scalar coupling constants involving the hydroxyl protons. In addition, hydroxyl proton exchange rates were measured as a function of pH, where simple first-order rate processes were observed for both acid- and base-catalysed exchange of all but one of the hydroxyl-bearing residues in BPTI. For the conformations of the individual Ser, Thr and Tyr side chains characterized in the solution structure with the use of hydroxyl proton NMR, both exact coincidence and significant differences relative to the corresponding BPTI crystal structure data were observed.[/p]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02192808

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