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Fluorescence,aggregation properties and FT-IR microspectroscopy of elastin and collagen fibers
Affiliation:1. Department of Brain Physiology, State Key Laboratory of Molecular and Cellular Biology, Bogomoletz Institute of Physiology, National Academy of Sciences, Bogomoletz Str. 4, Kiev 01024, Ukraine;2. Laboratory of Experimental Neurophysiology, Pirogov National Medical University, Ministry of Public Health of Ukraine, Pirogov Str. 56, Vinnitsa 21018, Ukraine;3. Department of Movement Physiology, Bogomoletz Institute of Physiology, National Academy of Sciences, Bogomoletz Str. 4, Kiev 01024, Ukraine;1. The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University, Chengdu 610065, PR China;2. College of Ecological Environment and Urban Construction, Fujian University of Technology, Fuzhou 350108, PR China;3. College of Materials Engineering, Fujian Agriculture and Forestry University, Fuzhou 350002, PR China;4. National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, PR China
Abstract:Histological and histochemical observations support the hypothesis that collagen fibers can link to elastic fibers. However, the resulting organization of elastin and collagen type complexes and differences between these materials in terms of macromolecular orientation and frequencies of their chemical vibrational groups have not yet been solved. This study aimed to investigate the macromolecular organization of pure elastin, collagen type I and elastin–collagen complexes using polarized light DIC-microscopy. Additionally, differences and similarities between pure elastin and collagen bundles (CB) were investigated by Fourier transform-infrared (FT-IR) microspectroscopy. Although elastin exhibited a faint birefringence, the elastin–collagen complex aggregates formed in solution exhibited a deep birefringence and formation of an ordered-supramolecular complex typical of collagen chiral structure. The FT-IR study revealed elastin and CB peptide Nsingle bondH groups involved in different types of H-bonding. More energy is absorbed in the vibrational transitions corresponding to single bondCH, single bondCH2 and CH3 groups (probably associated with the hydrophobicity demonstrated by 8-anilino-1-naphtalene sulfonic acid sodium salt [ANS] fluorescence), and to νCN, δNH and ωCH2 groups of elastin compared to CB. It is assumed that the α-helix contribution to the pure elastin amide I profile is 46.8%, whereas that of the B-sheet is 20% and that unordered structures contribute to the remaining percentage. An FT-IR profile library reveals that the elastin signature within the 1360–1189 cm−1 spectral range resembles that of Conex–Toray aramid fibers.
Keywords:Elastin  Collagen type I  Collagen bundles  Hydrophobicity  Birefringence  FT-IR
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