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Selected nonapeptides in terahertz light

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Eight synthetic histidine analogues of oxytocin and vasopressin are subject of investigations. The spectra of the peptides have been investigated in the terahertz band. The results are obtained in the terahertz time-domain spectroscopy arrangement.
Słowa kluczowe
Czasopismo
Rocznik
Strony
159--171
Opis fizyczny
Bibliogr. 29 poz., wykr.
Twórcy
autor
  • Wrocław Medical University, Wrocław, 50-367, Poland
  • Wrocław University of Technology, Wrocław, 50-370, Poland
  • Wrocław University of Technology, Wrocław, 50-370, Poland
autor
  • Wrocław Medical University, Wrocław, 50-367, Poland
autor
  • University of Wrocław, Wrocław, 50-383, Poland
autor
  • Wrocław University of Technology, Wrocław, 50-370, Poland
autor
  • Wrocław University of Technology, Wrocław, 50-370, Poland
  • Military University of Technology, Warsaw, 00-908, Poland
autor
  • Jülich Research Centre, 52425 Jülich, Germany
autor
  • Military University of Technology, Warsaw, 00-908, Poland
  • Military University of Technology, Warsaw, 00-908, Poland
Bibliografia
  • [1] MITTLEMAN D. [Ed.], Sensing with Terahertz Radiation, Springer-Verlag, 2003.
  • [2] XI-CHENG ZHANG, JINGZHOU XU, Introduction to THz Wave Photonics, Springer, 2010.
  • [3] SAKAI K. [Ed.], Terahertz Optoelectronics, Springer-Verlag, 2005.
  • [4] JIANG F.L., IKEDA I., OGAWA Y., ENDO Y., Terahertz absorption spectra of fatty acids and their analogues, Journal of Oleo Science 60, 2011, pp. 339–343.
  • [5] LAMAN N., SREE HARSHA S., GRISCHKOWSKY D., Narrow-line waveguide terahertz time-domain spectroscopy of aspirin and aspirin precursors, Applied Spectroscopy 62(3), 2008, pp. 319–326.
  • [6] YAO-CHUN SHEN, Terahertz pulsed spectroscopy and imaging for pharmaceutical applications: a review, International Journal of Pharmaceutics 417(1–2), 2011, pp. 48–60.
  • [7] STRACHAN C.J., RADES T., NEWNHAM D.A., GORDON K.C., PEPPER M., TADAY P.F., Using terahertz pulsed spectroscopy to study crystallinity of pharmaceutical materials, Chemical Physics Letters 390(1–3), 2004, pp. 20–24.
  • [8] ZEITLER J.A., TADAY P.F., NEWNHAM D.A., PEPPER M., GORDON K.C., RADES T., Terahertz pulsed spectroscopy and imaging in the pharmaceutical settings – a review, Journal of Pharmacy and Pharmacology 59(2), 2007, pp. 209–223.
  • [9] KORTER T.M., BALU R., CAMPBELL M.B., BEARD M.C., GREGURICK S.K., HEILWEIL E.J., Terahertz spectroscopy of solid serine and cysteine, Chemical Physics Letters 418(1–3), 2006, pp. 65–70.
  • [10] NISHIZAWA J., SASAKI T., TANNO T., Coherent terahertz-wave generation from semiconductors and its applications in biological sciences, Journal of Physics and Chemistry of Solids 69(2–3), 2008, pp. 693–701.
  • [11] TRUE A.B., SCHROECK K., FRENCH T.A., SCHMUTTENMAER C.A., Terahertz spectroscopy of histidine enantiomers and polymorphs, Journal of Infrared, Millimeter and Terahertz Waves 32(5), 2011, pp. 691–698.
  • [12] KUTTERUF M.R., BROWN C.M., IWAKI L.K., CAMPBELL M.B., KORTER T.M., HEILWEIL E.J., Terahertz spectroscopy of short-chain polypeptides, Chemical Physics Letters 375(3–4), 2003, pp. 337–343.
  • [13] BORN B., WEINGÄRTNER H., BRÜNDERMANN E., HAVENITH M., Solvation dynamics of model peptides probed by terahertz spectroscopy. Observation of the onset of collective network motions, Journal of the American Chemical Society 131(10), 2009, pp. 3752–3755.
  • [14] TAO DING, RUOYU LI, ZEITLER J.A., HUBER T.L., GLADDEN L.F., MIDDELBERG A.P.J., FALCONER R.J., Terahertz and far infrared Spectroscopy of alanine-rich peptides having variable ellipticity, Optics Express 18(26), 2010, pp. 27431–27444.
  • [15] EBBINGHAUS S., SEUNG JOONG KIM, HEYDEN M., XIN YU, GRUEBELE M., LEITNER D.M., HAVENITH M., Protein sequence- and pH-dependent hydration probed by terahertz spectroscopy, Journal of the American Chemical Society 130(8), 2008, pp. 2374–2375.
  • [16] GLOBUS T., WOOLARD D., CROWE T.W., KHROMOVA T., GELMONT B., HESLER J., Terahertz Fourier transform characterization of biological materials in a liquid phase, Journal of Physics D: Applied Physics 39(15), 2006, pp. 3405–3413.
  • [17] BRANDT N.N., CHIKISHEV A.YU., KARGOVSKY A.V., NAZAROV M.M., PARASHCHUK O.D., SAPOZHNIKOV D.A., SMIRNOVA I.N., SHKURINOV A.P., SUMBATYAN N.V., Terahertz time-domain and Raman spectroscopy of the sulfur-containing peptide dimers: Low-frequency markers of disulfide bridges, Vibrational Spectroscopy 47(1), 2008, pp. 53–58.
  • [18] KAWAGUCHI S., KAMBARA O., PONSECA JR. C.S., SHIBATA M., KANDORI H., TOMINAGA K., Low-frequency dynamics of biological molecules studied by terahertz time-domain spectroscopy, Spectroscopy 24(1–2), 2010, pp. 153–158.
  • [19] SIEMION I.Z., CEBRAT M., WIECZOREK Z., Cyclolinopeptides and their analogs – a new family of peptide immunosuppressants affecting the calcineurin system, Archivum Immunologiae et Therapia Experimentalis 47, 1999, pp. 143–153.
  • [20] WITTELSBERGER A., PATINY L., SLANINOVA J., BARBERIS C., MUTTER M., Introduction of a cis-prolyl mimic in position 7 of the peptide hormone oxytocin does not result in antagonistic activity, Journal of Medicinal Chemistry 48(21), 2005, pp. 6553–6562.
  • [21] WISNIEWSKI K., SCHTEINGART C., LAPORTE R., GALYEAN R.F., RIVIERE P., Peptidics Vasopressin Receptor Agonists, USA Patent, No. US 2009/0054309 A1.
  • [22] DEXHEIMER S.L., Terahertz Spectroscopy: Principles and Applications, CRC Press, 2008.
  • [23] KITAGAWA J., OHKUBO T., ONUMA M., KADOYA Y., THz spectroscopic characterization of biomolecule/water systems by compact sensor chips, Applied Physics Letters 89(4), 2006, article 041114.
  • [24] ZEITLER J.A., KOGERMANN K., RANTANEN J., RADES T., TADAY P.F., PEPPER M., AALTONEN J., STRACHAN C.J., Drug hydrate systems and dehydration processes studied by terahertz pulsed spectroscopy, International Journal of Pharmaceutics 334(1–2), 2007, pp. 78–84.
  • [25] FLANDERS B.N., CHEVILLE R.A., GRISCHKOWSKY D., SCHERER N.F., Pulsed terahertz transmission spectroscopy of liquid CHCl3, CCl4, and their mixtures, Journal of Physical Chemistry 100(29), 1996, pp. 11824–11835.
  • [26] WALTHER M., FISHER B.M., UHD JEPSEN P., Noncovalent intermolecular forces in polycrystalline and amorphous saccharides in the far infrared, Chemical Physics 288(2–3), 2003, pp. 261–268.
  • [27] SHEN S.C., SANTO L., GENZEL L., THz spectra for some bio-molecules, Journal of Infrared, Millimeter, and Terahertz Waves 28(8), 2007, pp. 595–610.
  • [28] MATEI A., DRICHKO N., GOMPF B., DRESSEL M., Far-infrared spectra of amino acids, Chemical Physics 316(1–3), 2005, pp. 61–71.
  • [29] BUONTEMPO U., CARERI G., FASELLA P., FERRARO A., Far-infrared spectra of some globular proteins, Biopolymers 10(12), 1971, pp. 2377–2386.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-256fb5c1-b322-412a-b31e-fb77fbad92a8
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