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Single-Cell Transcriptome and Pigment Biochemistry Analysis Reveals the Potential for the High Nutritional and Medicinal Value of Purple Sea Cucumbers

Lili Xing, Lingyu Wang, Shilin Liu, Lina Sun, Gary M. Wessel, Hongsheng Yang

2023International Journal of Molecular Sciences12 citationsDOIOpen Access PDF

Abstract

has important nutritional and medicinal value. Unfortunately, we know little of the source of active chemicals in this animal, but the plentiful pigments of these animals are thought to function in intriguing ways for translation into clinical and food chemistry usage. Here, we found key cell groups with the gene activity predicted for the color morphology of sea cucumber body using single-cell RNA-seq. We refer to these cell populations as melanocytes and quinocytes, which are responsible for the synthesis of melanin and quinone pigments, respectively. We integrated analysis of pigment biochemistry with the transcript profiles to illuminate the molecular mechanisms regulating distinct pigment formation in echinoderms. In concert with the correlated pigment analysis from each color morph, this study expands our understanding of medically important pigment production, as well as the genetic mechanisms for color morphs, and provides deep datasets for exploring advancements in the fields of bioactives and nutraceuticals.

Topics & Concepts

Apostichopus japonicusSea cucumberNutraceuticalPigmentBiologyTranscriptomeMelaninBiochemistryEvolutionary biologyBotanyComputational biologyGeneGene expressionEcologyChemistryOrganic chemistryAquaculture disease management and microbiotaEchinoderm biology and ecologyCoral and Marine Ecosystems Studies
Single-Cell Transcriptome and Pigment Biochemistry Analysis Reveals the Potential for the High Nutritional and Medicinal Value of Purple Sea Cucumbers | Litcius