2013
DOI: 10.1098/rsif.2013.0386
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Optical parameters of the tunable Bragg reflectors in squid

Abstract: squid and cuttlefish) dynamically tune the colour and brightness of their skin for camouflage and communication using specialized skin cells called iridocytes. We use high-resolution microspectrophotometry to investigate individual tunable Bragg structures (consisting of alternating reflectin protein-containing, high-refractive index lamellae and low-refractive index inter-lamellar spaces) in live and chemically fixed iridocytes of the California market squid, Doryteuthis opalescens. This subcellular, single-s… Show more

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Cited by 40 publications
(53 citation statements)
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“…The especially bright iridocytes from the iridescent stripes yield a high reflectance signal, enabling our use of a specialized microspectrophotometer to obtain optical measurements of a single stack of high-index, reflectin-containing lamellae within a single cell. This has allowed us to directly calculate the parameters of the sub-cellular multilayer reflectors, including the number of lamellae and their thickness, spacing and refractive index (Ghoshal et al, 2013). The adaptive leucophores offer an interesting comparison to the adaptive iridocytes at an ultrastructural and protein level, providing further insights into the recently elucidated mechanism of reversible, ACh-dependent assembly of reflectins driving the changes in optical properties of the cells .…”
Section: Discussionmentioning
confidence: 99%
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“…The especially bright iridocytes from the iridescent stripes yield a high reflectance signal, enabling our use of a specialized microspectrophotometer to obtain optical measurements of a single stack of high-index, reflectin-containing lamellae within a single cell. This has allowed us to directly calculate the parameters of the sub-cellular multilayer reflectors, including the number of lamellae and their thickness, spacing and refractive index (Ghoshal et al, 2013). The adaptive leucophores offer an interesting comparison to the adaptive iridocytes at an ultrastructural and protein level, providing further insights into the recently elucidated mechanism of reversible, ACh-dependent assembly of reflectins driving the changes in optical properties of the cells .…”
Section: Discussionmentioning
confidence: 99%
“…We speculate that differences in gene expression and the resulting protein composition (potentially including the unidentified major protein bands and the unique relative ratios of the known reflectins we observe in electropherograms of the leucophore tissue) help direct the morphology of the high-index material controlling the optical properties of these otherwise similar cells. We suggest that it is this mesoscale assembly of the variety of reflectin protein subtypes (and their associated membrane structures) found throughout cephalopods that differentially creates distinct sub-cellular structures with specific optical properties ranging from specular to diffuse reflectance (Holt et al, 2011;Sutherland et al, 2008), from static to adaptive reflectance Kramer et al, 2007;Tao et al, 2010) and from narrowband to broadband reflectance (Mäthger et al, 2009;Mäthger et al, 2013), with colors tunable from red to blue and from transparent to highly reflective (Ghoshal et al, 2013;Kramer et al, 2007). This multitude of reflectin-based structures and their photonic properties is increasingly recognized as an interesting model of mesoscale assembly and its control for the design of functional materials.…”
Section: Discussionmentioning
confidence: 99%
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“…Recent optical analysis of individual iridocyte reflectors determined that the lamellae containing the condensed reflec-tins have refractive indices of ϳ1.405 (25). To achieve this refractive index, the reflectin proteins must be concentrated to several hundred mg/ml (15,26,27).…”
Section: Discussionmentioning
confidence: 99%
“…Normalized spectra, obtained as described above, were then fitted using a transfer matrix model [29] to obtain the following parameters of the Bragg stack, with the only assumption being that the low refractive index was that of cytoplasm (¼1.35 [31 -34]): N, the number of pairs of layers of alternating high and low refractive index; n H , the refractive index of the high-index layer; and t L and t H , the thicknesses of the low-and high-index layers, respectively. A total of 282 spectra were obtained, analysed and fitted from 11 specimens (seven T. derasa, one T. maxima and three T. crocea).…”
Section: Transfer Matrix Analysismentioning
confidence: 99%