Brightly Colored Pigmentation in Lower Vertebrates: Wonder Searching its Mechanisms and Significance in the Context of Phylogeny

Matsumoto, Jiro

doi:10.1034/j.1600-0749.2002.02016.x

Cited by 3 publications

(2 citation statements)

References 35 publications

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“…The information obtained by the solubility experiments and the spectroscopy analyses (UV–Vis and FT‐IR) suggests that the compounds extracted using acetic acid–ethanol solution from the jumbo squid skin are composed of an ommochrome‐type pigment. Our data are similar to data from previous isolation analysis focused on fish and amphibians species . To confirm ommochromes in the present extract, further research is necessary, which includes chromatographic separation and purification followed by identification using advanced analytical tools.…”

Section: Resultssupporting

confidence: 88%

Partial characterization of jumbo squid skin pigment extract and its antioxidant potential in a marine oil system

Aubourg

Torres‐Arreola²,

Trigo

et al. 2016

Euro J Lipid Sci & Tech

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Pigment compounds were extracted from jumbo squid (Dosidicus gigas) skin with an acid‐ethanol solvent (JSE). Freeze‐dried JSE was characterized with respect to solubility in different solvents, absorption UV–VIS, and FT‐IR spectra, and tested for its radical scavenging activity against ABTS and oxygen radical absorbance capacity (ORAC). The potential ability of JSE for inhibiting oxidation of cod liver oil (CLO) was also determined by monitoring dienes, trienes, peroxide value (PV), thiobarbutiric acid (TBA), and polyene index (PI) in samples stored at 15, 25, and 50°C for 12 days. Concentrations of 0, 0.1, 0.5, 1, and 2% JSE were added to CLO. The yield of JSE was 8.8 mg/g freeze‐dried skin. Solubility behavior, UV–Vis, and FT‐IR spectra of JSE suggests that this pigment extract might belong to the ommochrome family. Moreover, a characteristic xanthommatin peak (1740 cm−1) was observed. JSE exhibited scavenging activity on ABTS•+ radical and in the ORAC assay. After storage PV and TBA increased, whereas PI decreased mainly in the control treatment. The addition of JSE delayed lipid oxidation in CLO during the first 8 days of storage at 50°C. JSE was identified as promising source of antioxidants to retard fish lipid oxidation. Practical applications: This study demonstrates that acid‐ethanol pigment extract from jumbo squid skin, which is a by‐product generated by the squid processing industries, is a valuable antioxidant source. Consistent with the preservative effect observed for this pigment extract, squid skin may be successfully employed to obtain new products for food processing and the pharmaceutical industry, with environmental sustainability benefits and provide a more effective use for jumbo squid by‐products. Acid‐ethanol pigment extracts from freeze‐dried jumbo squid skin (JSE) were added to cod liver oil and stored at 50°C. Increasing levels of JSE (0 < 0.1 < 0.5 < 1 < 2%) led to less lipid oxidation. JSE likely belongs to the ommochromes family.

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Section: Resultssupporting

confidence: 88%

Partial characterization of jumbo squid skin pigment extract and its antioxidant potential in a marine oil system

Aubourg

Torres‐Arreola²,

Trigo

et al. 2016

Euro J Lipid Sci & Tech

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“…Melanocytes transfer melanin pigment to surrounding cells to color hair and skin (reviewed in[6]). Vertebrates without fur, such as amphibians and fish, melanophores, generate diverse pigment patterns along with other neural crest-derived pigment cell types, including yellow xanthophores and iridescent iridophores (reviewed in [7, 8]). Melanophores and other chromatophores can rapidly change pigment distribution resulting in color adaptation, warning signals, and mating signs important for camouflage, predator evasion and sexual selection (reviewed in [9]).…”

Section: Introductionmentioning

confidence: 99%

Mechanisms for reaching the differentiated state: Insights from neural crest-derived melanocytes

Cooper

Raible

2009

Seminars in Cell & Developmental Biology

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Black pigment cells, or melanocytes, are the major contributing cells to pigmentation in vertebrate organisms. Although the function of these cells is distinct depending on the organism, the events involved in their development are remarkably similar. Here, we review the mechanisms involved in the early development of melanocytes from neural crest, many of which are conserved in organisms as diverse as zebrafish, birds and humans. We also discuss recent studies that provide further insight into how melanocyte differentiation is achieved and maintained.

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The Colors of Mice

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Brightly Colored Pigmentation in Lower Vertebrates: Wonder Searching its Mechanisms and Significance in the Context of Phylogeny

Cited by 3 publications

References 35 publications

Partial characterization of jumbo squid skin pigment extract and its antioxidant potential in a marine oil system

Partial characterization of jumbo squid skin pigment extract and its antioxidant potential in a marine oil system

Mechanisms for reaching the differentiated state: Insights from neural crest-derived melanocytes

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