Chapter 11 387 13. PA Fernandes and MJ Ramos, Theoretical insights into the mechanism for thiol/disulfide exchange, Chem Eur J, 10 257–266 (2004). 14. HF Gilbert, Thiol/Disulfide exchange equilibria and disulfide bond stability, Methods Enzymol 251 8–28 (1995). 15. WT Astbury and A Street, X-ray studies of the structure of hair, wool, and related fibers. I: General, Phil Trans Roy Soc A, 230, 75-101 (1931). 16. JB Speakman, The reactivity of the sulphur linkage in animal fibers, Part I: The chemical mechanism of permanent set, J Soc Dyers Colourists, 52, 335-341 (1936). 17. JPE Human and H Lindley, The reactivity of the disulfide bonds of stretched wool fibers, Text Res J 27(11) 917 (1957). 18. LJ Wolfram, Reactivity of disulphide bonds in strained keratin, Nature, 206, 304-305 (1965). 19. AP Wiita, SRK Ainavarapu, HH Huang and JM Fernandez, Force-dependent chemical kinetics of disulfide bond reduction observed with single-molecule techniques, PNAS, 103, 7222-7227 (2006). 20. C Popescu and H Hoecker, Hair: The most sophisticated biological composite material, Chem Soc Rev 36, 1282–1291 (2007). 21. R Paquin and P Colomban, Nanomechanics of single keratin fibers: A Raman study of the alpha-helix beta-sheet transition and the effect of water, J Raman Spectrosc, 38 504–514 (2007). 22. AH Nissan, A molecular approach to the problem of viscoelasticity, Nature 175 424 (1955). 23. AH Nissan, H-bond dissociation in hydrogen bond dominated solids, Macromolecules 9(5) 840-850 (1976). 24. www.who.int/uv/intersunprogramme (accessed Aug 26 2011) 25. P Koepke et al, Comparison of models used for UV index calculations, Photochem Photobiol 67(6) 657-662 (1998). 26. DE Godar, F Urbach, FP Gasparro, JC van der Leun, UV doses of young adults, Photochem Photobiol 77(4) 453-457 (2003). 27. V Signori, Review of the current understanding of the effect of ultraviolet and visible radiation on hair structure and options for photoprotection, J Cosmet Sci 55(1-2) 95-113 (2004). 28. K Roeper and E Finnimore, Chemical structure of chromophores formed during photoyellowing of wool, Int Wool Text Res Conf Tokyo, IV, 21-31 (1985). 29. SB Ruetsch, Y Kamath and HD Weigmann, Photodegradation of human hair: An SEM study, J Cosmet Sci, 51(3-4) 103-125 (2000). 30. E Hoting, M Zimmermann and S Hilterhaus-Bong, Photochemical alterations in human hair. I: Artificial irradiation and investigations of hair protein, J Soc Cosmet Chem, 46 (3- 4), 85-99 (1995). 31. C Pande and J Jachowicz, Hair photodamage: Measurement and prevention, J Cosmet Sci, 44, 109-122 (1993). 32. G Prota, Melanins, Melanogenesis and melanocytes: Looking at their functional significance from the chemist’s viewpoint, Pigment Cell Res, 13 (4) 283-293 (2000). 33. LJ Wolfram and L Albrecht, Chemical and photo-bleaching of brown and red hair, J Soc Cosmet Chem, 82, 179 (1987). 34. E Hoting, M Zimmermann and H Hoecker, Photochemical alterations in human hair. Part II: Analysis of melanin, J Soc Cosmet Chem, 46 (7-8), 181-190 (1995). 35. T Gao and A Bedell, Ultraviolet damage on natural gray hair and its photoprotection, J Cosmet Sci, 52 (3-4), 103-118 (2001). 36. E Hoting and M Zimmermann, Photochemical alterations in human hair. Part III: Investigations of internal lipids, J Soc Cosmet Chem, 47 (7-8) 201-211 (1996).
Help
