FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1495101054> ?p ?o ?g. }

• W1495101054 abstract "Novel, distinct adhesive systems have been described for a wide range of marine species (Kamino, 2008). These highly effective, natural materials provide a link between biological science and material science, and can serve as models on which new, bioinspired synthetic materials could be based. These various adhesive systems have developed independently, on many occasions, and provide a wide range of opportunities for the development of new, biologically-inspired adhesives. The natural adhesives include, for example, the marine mussel (Mytilus sp.) (Lin et al., 2007), barnacle (Nakano et al., 2007) and stickleback (Jones et al., 2001) adhesives, which are protein-based, as well as sponge, certain algal and marine bacterial adhesives (Mancuso-Nichols et al., 2009) that are polysaccharide-based. In the present paper, we examine the adhesive system found associated with the Cuvierian tubules of a holothurian species (sea cucumber), Holothuria dofleinii. This is an example of the particularly rapid marine adhesive that is found on the surface of Cuvierian tubules when they are expelled (DeMoor et al., 2003; Muller et al., 1972; VandenSpiegel & Jangoux, 1987). The unique nature of this natural adhesive system, especially its rapid action under water, has suggested that if the mechanism can be understood, then it may prove to be possible to mimic the adhesive through biotechnology and/or synthetic chemistry. An adhesive that functions readily in an aqueous environment would be particularly valuable, especially in medical applications, as the majority of existing adhesives bind to dry surfaces more strongly than the same surfaces when wet. Cuvierian tubules provide a host defence mechanism for certain species of holothurians (Lawrence, 2001; VandenSpiegel & Jangoux, 1987). It has long been known that, on expulsion, the Cuvierian tubules fill with liquid and lengthen, become sticky and rapidly" @default.
• W1495101054 created "2016-06-24" @default.
• W1495101054 creator A5014724390 @default.
• W1495101054 creator A5014920600 @default.
• W1495101054 creator A5030176289 @default.
• W1495101054 creator A5040310364 @default.
• W1495101054 creator A5045096902 @default.
• W1495101054 creator A5048017489 @default.
• W1495101054 creator A5073278491 @default.
• W1495101054 creator A5078932532 @default.
• W1495101054 creator A5082863871 @default.
• W1495101054 creator A5087955457 @default.
• W1495101054 date "2011-11-14" @default.
• W1495101054 modified "2023-10-02" @default.
• W1495101054 title "Biomimetic Materials as Potential Medical Adhesives – Composition and Adhesive Properties of the Material Coating the Cuvierian Tubules Expelled by Holothuria dofleinii" @default.
• W1495101054 cites W1963833223 @default.
• W1495101054 cites W1966465033 @default.
• W1495101054 cites W1971959671 @default.
• W1495101054 cites W1983572926 @default.
• W1495101054 cites W1984653773 @default.
• W1495101054 cites W2003141775 @default.
• W1495101054 cites W2010768770 @default.
• W1495101054 cites W2012935985 @default.
• W1495101054 cites W2020995586 @default.
• W1495101054 cites W2064121925 @default.
• W1495101054 cites W2079343624 @default.
• W1495101054 cites W2100837269 @default.
• W1495101054 cites W2120311522 @default.
• W1495101054 cites W2140827837 @default.
• W1495101054 cites W2285516243 @default.
• W1495101054 cites W2395534694 @default.
• W1495101054 doi "https://doi.org/10.5772/25147" @default.
• W1495101054 hasPublicationYear "2011" @default.
• W1495101054 type Work @default.
• W1495101054 sameAs 1495101054 @default.
• W1495101054 citedByCount "0" @default.
• W1495101054 crossrefType "book-chapter" @default.
• W1495101054 hasAuthorship W1495101054A5014724390 @default.
• W1495101054 hasAuthorship W1495101054A5014920600 @default.
• W1495101054 hasAuthorship W1495101054A5030176289 @default.
• W1495101054 hasAuthorship W1495101054A5040310364 @default.
• W1495101054 hasAuthorship W1495101054A5045096902 @default.
• W1495101054 hasAuthorship W1495101054A5048017489 @default.
• W1495101054 hasAuthorship W1495101054A5073278491 @default.
• W1495101054 hasAuthorship W1495101054A5078932532 @default.
• W1495101054 hasAuthorship W1495101054A5082863871 @default.
• W1495101054 hasAuthorship W1495101054A5087955457 @default.
• W1495101054 hasBestOaLocation W14951010541 @default.
• W1495101054 hasConcept C159985019 @default.
• W1495101054 hasConcept C171250308 @default.
• W1495101054 hasConcept C192562407 @default.
• W1495101054 hasConcept C2779227376 @default.
• W1495101054 hasConcept C2781448156 @default.
• W1495101054 hasConcept C68928338 @default.
• W1495101054 hasConceptScore W1495101054C159985019 @default.
• W1495101054 hasConceptScore W1495101054C171250308 @default.
• W1495101054 hasConceptScore W1495101054C192562407 @default.
• W1495101054 hasConceptScore W1495101054C2779227376 @default.
• W1495101054 hasConceptScore W1495101054C2781448156 @default.
• W1495101054 hasConceptScore W1495101054C68928338 @default.
• W1495101054 hasLocation W14951010541 @default.
• W1495101054 hasLocation W14951010542 @default.
• W1495101054 hasOpenAccess W1495101054 @default.
• W1495101054 hasPrimaryLocation W14951010541 @default.
• W1495101054 hasRelatedWork W1963684115 @default.
• W1495101054 hasRelatedWork W2062276134 @default.
• W1495101054 hasRelatedWork W2295180946 @default.
• W1495101054 hasRelatedWork W2297003625 @default.
• W1495101054 hasRelatedWork W2348276551 @default.
• W1495101054 hasRelatedWork W2366970374 @default.
• W1495101054 hasRelatedWork W2380293314 @default.
• W1495101054 hasRelatedWork W2793446430 @default.
• W1495101054 hasRelatedWork W2943188944 @default.
• W1495101054 hasRelatedWork W3082440218 @default.
• W1495101054 isParatext "false" @default.
• W1495101054 isRetracted "false" @default.
• W1495101054 magId "1495101054" @default.
• W1495101054 workType "book-chapter" @default.