dorsal/arxiv
View SchemaElectronic Properties of Random Polymers: Modelling Optical Spectra of Melanins
| Authors | Kinga Bochenek, Ewa Gudowska-Nowak |
|---|---|
| Categories | |
| ArXiv ID | physics/0301041 |
| URL | https://arxiv.org/abs/physics/0301041 |
Abstract
Melanins are a group of complex pigments of biological origin, widely spread in all species from fungi to man. Among diverse types of melanins, the human melanins, eumelanins,are brown or black nitrogen-containing pigments, mostly known for their photoprotective properties in human skin. We have undertaken theoretical studies aimed to understand absorption spectra of eumelanins and their chemical precursors. The structure of the biopigment is poorly defined, although it is believed to be composed of cross-linked heteropolymers based on indolequinones. As a basic model of the eumelanin structure, we have chosen pentamers containing hydroquinones (HQ) and/or 5,6-indolequinones (IQ) and/or semiquinones (SQ) often listed as structural melanin monomers. The eumelanin oligomers have been constructed as random compositions of basic monomers and opitimized for the energy of bonding. Absorption spectra of model assemblies have been calculated within the semiempirical intermediate neglect of differential overlap (INDO) approximation. Model spectrum of eumelanin has been further obtained by sum of independent spectra of singular polymers. By comparison with experimental data it is shown that the INDO/CI method manages to reproduce well characteristic properties of experimental spectrum of synthetic eumelanins.
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"abstract": "Melanins are a group of complex pigments of biological origin, widely spread\nin all species from fungi to man. Among diverse types of melanins, the human\nmelanins, eumelanins,are brown or black nitrogen-containing pigments, mostly\nknown for their photoprotective properties in human skin. We have undertaken\ntheoretical studies aimed to understand absorption spectra of eumelanins and\ntheir chemical precursors. The structure of the biopigment is poorly defined,\nalthough it is believed to be composed of cross-linked heteropolymers based on\nindolequinones. As a basic model of the eumelanin structure, we have chosen\npentamers containing hydroquinones (HQ) and/or 5,6-indolequinones (IQ) and/or\nsemiquinones (SQ) often listed as structural melanin monomers. The eumelanin\noligomers have been constructed as random compositions of basic monomers and\nopitimized for the energy of bonding. Absorption spectra of model assemblies\nhave been calculated within the semiempirical intermediate neglect of\ndifferential overlap (INDO) approximation. Model spectrum of eumelanin has been\nfurther obtained by sum of independent spectra of singular polymers. By\ncomparison with experimental data it is shown that the INDO/CI method manages\nto reproduce well characteristic properties of experimental spectrum of\nsynthetic eumelanins.",
"arxiv_id": "physics/0301041",
"authors": [
"Kinga Bochenek",
"Ewa Gudowska-Nowak"
],
"categories": [
"physics.bio-ph",
"physics.chem-ph"
],
"title": "Electronic Properties of Random Polymers: Modelling Optical Spectra of Melanins",
"url": "https://arxiv.org/abs/physics/0301041"
},
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