Protein refractive index increment is determined by conformation as well as composition

Protein refractive index increment is determined by conformation as well as composition

The refractive index gradient of the eye lens is controlled by the concentration and distribution of its component crystallin proteins, which are highly enriched in polarizable amino acids. The current understanding of the refractive index increment () of proteins is described using an additive mode...

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Veröffentlicht in:Journal of physics. Condensed matter 2018-10, Vol.30 (43), p.435101-435101
Hauptverfasser: Khago, Domarin, Bierma, Jan C, Roskamp, Kyle W, Kozlyuk, Natalia, Martin, Rachel W
Format: Artikel
Sprache:eng
Schlagworte:
Animals
crystallins
Crystallins - chemistry
Crystallins - metabolism
eye lens proteins
Humans
protein
Protein Conformation
refractive index
refractive index increment
Refractometry
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Zusammenfassung:The refractive index gradient of the eye lens is controlled by the concentration and distribution of its component crystallin proteins, which are highly enriched in polarizable amino acids. The current understanding of the refractive index increment () of proteins is described using an additive model wherein the refractivity and specific volume of each amino acid type contributes according to abundance in the primary sequence. Here we present experimental measurements of for crystallins from the human lens and those of aquatic animals under uniform solvent conditions. In all cases, the measured values are much higher than those predicted from primary sequence alone, suggesting that structural factors also contribute to protein refractive index.
ISSN:0953-8984
1361-648X
DOI:10.1088/1361-648X/aae000