Lisa M. Hays scite author profile

The 'H and I3C NMR spectra of a 14-residue antifreeze glycopeptide from Antarctic cod (Tetramatornus horchgrevinki) containing two proline residues have been assigned. I3C NMR relaxation experiments indicate motional anisotropy of the peptide, with a tumbling time in water at 5°C of 3-4 ns. The relaxation data and lack of long-range NOEs are consistent with a linear peptide undergoing significant segmental motion. However, extreme values of some coupling constants and strong sequential NOEs indicate regions of local order, which are most evident at the two ATPA subsequences. Similar spectroscopic properties were observed in the 16-residue analogue containing an Arg-Ala dipeptide added to the C-terminus. Molecular modeling also showed no evidence of long-range order, but the two ATPA subsequences were relatively well determined by the experimental data. These motifs were quite distinct from helical structures or p turns commonly found in proteins, but rather resemble sections of an extended polyproline helix. Thus, the NMR data provide a description of the local order, which is of relevance to the mechanism of action of the antifreeze activity of the antifreeze glycopeptides as well as their ability to protect cells during hypothermic storage.

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Comparison of the Solution Conformation and Dynamics of Antifreeze Glycoproteins from Antarctic Fish

Lane¹,

Hays

Tsvetkova

et al. 2000

Biophysical Journal

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The (1)H- and (13)C-NMR spectra of antifreeze glycoprotein fractions 1-5 from Antarctic cod have been assigned, and the dynamics have been measured using (13)C relaxation at two temperatures. The chemical shifts and absence of non-sequential (1)H-(1)H NOEs are inconsistent with a folded, compact structure. (13)C relaxation measurements show that the protein has no significant long-range order, and that the local correlation times are adequately described by a random coil model. Hydroxyl protons of the sugar residues were observed at low temperature, and the presence of exchange-mediated ROEs to the sugar indicate extensive hydration. The conformational properties of AFGP1-5 are compared with those of the previously examined 14-mer analog AFGP8, which contains proline residues in place of some alanine residues (Lane, A. N., L. M. Hays, R. E. Feeney, L. M. Crowe, and J. H. Crowe. 1998. Protein Sci. 7:1555-1563). The infrared (IR) spectra of AFGP8 and AFGP1-5 in the amide I region are quite different. The presence of a wide distribution of backbone torsion angles in AFGP1-5 leads to a rich spectrum of frequencies in the IR spectrum, as interconversion among conformational states is slow on the IR frequency time scale. However, these transitions are fast on the NMR chemical shift time scales. The restricted motions for AFGP8 may imply a narrower distribution of possible o, psi angles, as is observed in the IR spectrum. This has significance for attempts to quantify secondary structures of proteins by IR in the presence of extensive loops.

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Factors Affecting Leakage of Trapped Solutes from Phospholipid Vesicles during Thermotropic Phase Transitions

et al. 2001

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Antifreeze glycoproteins inhibit leakage from liposomes during thermotropic phase transitions.

Hays

Feeney

Crowe

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

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Antifreeze glycoproteins (AFGPs), found in the blood of polar fish at concentrations as high as 35 g/liter, are known to prevent ice crystal growth and depress the freezing temperature of the blood. proteins that prevent leakage, but only under specialized conditions. For instance, antifreeze proteins, bovine serum albumin, and ovomucoid all either have no effect or actually induce leakage. Following precipitation with acetone, all three proteins inhibited leakage, although not to the extent seen with AFGPs. Alternatively, there are proteins such as ovotransferrin that have no effect on leakage, either before or after acetone precipitation.In polar regions of the oceans, fish live in waters with tem-

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Lisa M. Hays

Conformational and dynamic properties of a 14 residue antifreeze glycopeptide from antarctic cod

Comparison of the Solution Conformation and Dynamics of Antifreeze Glycoproteins from Antarctic Fish

Factors Affecting Leakage of Trapped Solutes from Phospholipid Vesicles during Thermotropic Phase Transitions

Antifreeze glycoproteins inhibit leakage from liposomes during thermotropic phase transitions.

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