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- ItemElectrochemical approach for isolation of chitin from the skeleton of the black coral cirrhipathes sp. (Antipatharia)(Basel : MDPI, 2020) Nowacki, Krzysztof; Stępniak, Izabela; Langer, Enrico; Tsurkan, Mikhail; Wysokowski, Marcin; Petrenko, Iaroslav; Khrunyk, Yuliya; Fursov, Andriy; Bo, Marzia; Bavestrello, Giorgio; Joseph, Yvonne; Ehrlich, HermannThe development of novel and effective methods for the isolation of chitin, which remains one of the fundamental aminopolysaccharides within skeletal structures of diverse marine invertebrates, is still relevant. In contrast to numerous studies on chitin extraction from crustaceans, mollusks and sponges, there are only a few reports concerning its isolation from corals, and especially black corals (Antipatharia). In this work, we report the stepwise isolation and identification of chitin from Cirrhipathes sp. (Antipatharia, Antipathidae) for the first time. The proposed method, aiming at the extraction of the chitinous scaffold from the skeleton of black coral species, combined a well-known chemical treatment with in situ electrolysis, using a concentrated Na2SO4 aqueous solution as the electrolyte. This novel method allows the isolation of a-chitin in the form of a microporous membrane-like material. Moreover, the extracted chitinous scaffold, with a well-preserved, unique pore distribution, has been extracted in an astoundingly short time (12 h) compared to the earlier reported attempts at chitin isolation from Antipatharia corals. © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
- ItemSpider chitin: An Ultrafast Microwave-Assisted Method for Chitin Isolation from Caribena versicolor Spider Molt Cuticle(Basel : MDPI, 2019) Machałowski, Tomasz; Wysokowski, Marcin; Tsurkan, Mikhail V.; Galli, Roberta; Schimpf, Christian; Rafaja, David; Brendler, Erica; Viehweger, Christine; Zółtowska-Aksamitowska, Sonia; Petrenko, Iaroslav; Czaczyk, Katarzyna; Kraft, Michael; Bertau, Martin; Bechmann, Nicole; Guan, Kaomei; Bornstein, Stefan R.; Voronkina, Alona; Fursov, Andriy; Bejger, Magdalena; Biniek-Antosiak, Katarzyna; Rypniewski, Wojciech; Figlerowicz, Marek; Pokrovsky, Oleg; Jesionowski, Teofil; Ehrlich, HermannChitin, as a fundamental polysaccharide in invertebrate skeletons, continues to be actively investigated, especially with respect to new sources and the development of effective methods for its extraction. Recent attention has been focused on marine crustaceans and sponges; however, the potential of spiders (order Araneae) as an alternative source of tubular chitin has been overlooked. In this work, we focused our attention on chitin from up to 12 cm-large Theraphosidae spiders, popularly known as tarantulas or bird-eating spiders. These organisms “lose” large quantities of cuticles during their molting cycle. Here, we present for the first time a highly effective method for the isolation of chitin from Caribena versicolor spider molt cuticle, as well as its identification and characterization using modern analytical methods. We suggest that the tube-like molt cuticle of this spider can serve as a naturally prefabricated and renewable source of tubular chitin with high potential for application in technology and biomedicine. © 2019 by the authors.
- ItemNaturally prefabricated marine biomaterials: Isolation and applications of flat chitinous 3D scaffolds from Ianthella labyrinthus (demospongiae: Verongiida)(Basel : Molecular Diversity Preservation International, 2019) Schubert, Mario; Binnewerg, Björn; Voronkina, Alona; Muzychka, Lyubov; Wysokowski, Marcin; Petrenko, Iaroslav; Kovalchuk, Valentine; Tsurkan, Mikhail; Martinovic, Rajko; Bechmann, Nicole; Ivanenko, Viatcheslav N.; Fursov, Andriy; Smolii, Oleg B.; Fromont, Jane; Joseph, Yvonne; Bornstein, Stefan R.; Giovine, Marco; Erpenbeck, Dirk; Guan, Kaomei; Ehrlich, HermannMarine sponges remain representative of a unique source of renewable biological materials. The demosponges of the family Ianthellidae possess chitin-based skeletons with high biomimetic potential. These three-dimensional (3D) constructs can potentially be used in tissue engineering and regenerative medicine. In this study, we focus our attention, for the first time, on the marine sponge Ianthella labyrinthus Bergquist & Kelly-Borges, 1995 (Demospongiae: Verongida: Ianthellidae) as a novel potential source of naturally prestructured bandage-like 3D scaffolds which can be isolated simultaneously with biologically active bromotyrosines. Specifically, translucent and elastic flat chitinous scaffolds have been obtained after bromotyrosine extraction and chemical treatments of the sponge skeleton with alternate alkaline and acidic solutions. For the first time, cardiomyocytes differentiated from human induced pluripotent stem cells (iPSC-CMs) have been used to test the suitability of I. labyrinthus chitinous skeleton as ready-to-use scaffold for their cell culture. Results reveal a comparable attachment and growth on isolated chitin-skeleton, compared to scaffolds coated with extracellular matrix mimetic Geltrex®. Thus, the natural, unmodified I. labyrinthus cleaned sponge skeleton can be used to culture iPSC-CMs and 3D tissue engineering. In addition, I. labyrinthus chitin-based scaffolds demonstrate strong and efficient capability to absorb blood deep into the microtubes due to their excellent capillary effect. These findings are suggestive of the future development of new sponge chitin-based absorbable hemostats as alternatives to already well recognized cellulose-based fabrics. © 2019 by the authors. Licensee MDPI, Basel, Switzerland.