Yasuo Noda scite author profile

CD spectra of reduced and S-3-(trimethylated amino) propylated lysozyme (TMAP lysozyme) have been measured in various solutions containing guanidine hydrochloride or trifluoroethanol (TFE). The CD spectra indicate that there remain residual secondary structures in protein in aqueous solution. The addition of TFE further promotes the formation of secondary structures. In order to examine whether secondary structures are evenly induced over all the polypeptide chain, or locally at particular segments, the limited proteolysis of TMAP lysozyme by trypsin has been performed, and the CD spectra of all the final and intermediate products have been observed in solutions containing TFE. As a result, the fragments vary in a helix-forming propensity. The CD spectra of peptide fragments T5, T7, T9T10, T12T13, T14T15T16, and T17T18 are not significantly affected by the addition of TFE, where T refers to the nomenclature of R.E. Canfield [(1963), Journal of Biological Chemistry, Vol. 238, pp. 2691-2697]. They are fragments of a helix-breaking propensity. On the other hand, fragment I2 composed of T1-T4, and fragments T6T7, T8, and T11, attain secondary structures with the addition of TFE. They are fragments of a helix-forming propensity. Further, it is found that the fragments of a helix-forming propensity just correspond to the helical segments in native lysozyme. We examine the interactions between neighboring fragments, which contribute to the stabilization of local structures along the polypeptide chain.

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The transition state in the folding-unfolding reaction of four species of three-disulfide variant of hen lysozyme: the role of each disulfide bridge

Yokota

Izutani

Takai

et al. 2000

Journal of Molecular Biology

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Ultrasonographic diaphragm thickness correlates with compound muscle action potential amplitude and forced vital capacity

et al. 2015

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NMR Structural Study of Two-Disulfide Variant of Hen Lysozyme: 2SS[6−127, 30−115]A Disulfide Intermediate with a Partly Unfolded Structure

Noda

Yokota²,

Horii³

et al. 2002

Biochemistry

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The 15N-labeled recombinant hen lysozyme and two species of two-disulfide variants, denoted as 2SS[6-127, 30-115] and 2SS[64-80, 76-94], were studied by means of NMR spectroscopy. The former variant contains two disulfide bridges in the alpha-domain, while the latter has one disulfide bridge in the beta-domain and the other one at the interface between two domains. Resonance assignments were performed using 3D TOCSY-HSQC and NOESY-HSQC spectra. The 15N-1H-HSQC spectrum of 2SS[6-127, 30-115] was similar to that of recombinant lysozyme as a whole, although a number of cross-peaks disappeared. On the other hand, the HSQC spectrum of 2SS[64-80, 76-94] was characteristic of unfolded proteins. The structure of 2SS[6-127, 30-115] was thoroughly examined on the basis of NOE contacts determined by NMR spectroscopy. The structure of the alpha-domain was quite similar to that of authentic lysozyme, while the beta-domain was largely unstructured. However, NMR data clearly demonstrated that some residual structures exist in the beta-domain. The beta1 and beta2 strands were maintained stably as an antiparallel beta-sheet. In addition, the residues 55 and 56 were located in the vicinity of the end of the B-helix. Further, the C-helix was properly set with side-chains of I88, V92, K96, and V99 facing toward the hydrophobic core in the alpha-domain. These residual structures inherent in the amino acid sequence were evaluated concerning the folding process of lysozyme. Our experiments imply that the establishment of the backbone conformation ranging from residues 76-99 plays a key role in attaining the cooperativity between two domains required for the folding transition.

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NMR Characterization of Three-Disulfide Variants of Lysozyme, C64A/C80A, C76A/C94A, and C30A/C115AA Marginally Stable State in Folded Proteins

et al. 2004

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Our earlier NMR study showed that a two-disulfide variant of hen lysozyme containing intra-alpha-domain disulfide bridges, C6-C127 and C30-C115, is partially folded, with the alpha domain tightly folded to the nativelike conformation and the beta domain flexible or unfolded. With a view that the formation of a third disulfide bridge is a key for the accomplishment of the overall chain fold, three-dimensional structures of three-disulfide variants of hen lysozyme lacking one disulfide bridge (C64A/C80A, C76A/C94A, and C30A/C115A) were studied in detail using NMR spectroscopy. Amide hydrogen exchange rates were measured to estimate the degree of conformational fluctuation in a residue-specific manner. The structure of C76A/C94A was found to be quite similar to that of the wild type, except for the peptide segment of residues 74-78. The structure of C64A/C80A was considerably disordered in the entire region of the loop (residues 62-79). Further, it was found that a network of hydrogen bonds within the beta sheet and the 3(10) helix in the beta domain were disrupted and fluctuating. In C30A/C115A, the D helix was unstructured and the interface of the B helix with the D helix was significantly perturbed. However, the structural disorder generated in the hydrophobic core of the alpha domain was prevented by the C helix from propagating toward the beta domain. A marginally stable state in folded proteins is discussed based on the structures remaining in each three-disulfide variant.

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Yasuo Noda

Local structures in unfolded lysozyme and correlation with secondary structures in the native conformation: Helix‐forming or ‐breaking propensity of peptide segments

The transition state in the folding-unfolding reaction of four species of three-disulfide variant of hen lysozyme: the role of each disulfide bridge

Ultrasonographic diaphragm thickness correlates with compound muscle action potential amplitude and forced vital capacity

NMR Structural Study of Two-Disulfide Variant of Hen Lysozyme: 2SS[6−127, 30−115]A Disulfide Intermediate with a Partly Unfolded Structure

NMR Characterization of Three-Disulfide Variants of Lysozyme, C64A/C80A, C76A/C94A, and C30A/C115AA Marginally Stable State in Folded Proteins

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