2012
DOI: 10.1524/zkri.2012.1530
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Species-specific shells: Chitin synthases and cell mechanics in molluscs

Abstract: Abstract. The size, morphology and species-specific texture of mollusc shell biominerals is one of the unresolved questions in nature. In search of molecular control principles, chitin has been identified by Weiner and Traub (FEBS Lett. 1980, 111 : 311-316) as one of the organic compounds with a defined co-organization with mineral phases. Chitin fibers can be aligned with certain mineralogical axes of crystalline calcium carbonate in a speciesspecific manner. These original observations motivated the functi… Show more

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Cited by 26 publications
(15 citation statements)
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References 168 publications
(236 reference statements)
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“…Chitin is present in the cell walls of fungi, forming a thin structure covered by a dense mannose layer (22). Several invertebrates have chitin in their structures, such as the exoskeletons of arthropods (23) and mollusk shells (24). It was verified that mimivirus indeed has an attraction for both of these polymers, similar to its attraction for the monomers making up the polymers.…”
Section: Discussionmentioning
confidence: 98%
“…Chitin is present in the cell walls of fungi, forming a thin structure covered by a dense mannose layer (22). Several invertebrates have chitin in their structures, such as the exoskeletons of arthropods (23) and mollusk shells (24). It was verified that mimivirus indeed has an attraction for both of these polymers, similar to its attraction for the monomers making up the polymers.…”
Section: Discussionmentioning
confidence: 98%
“…Conclusively we can say that mechano-sensory response phenomena are shared by other biological systems, where similar or even more pronounced functional dependencies can be found, as the stress sensitivity to the extracellular matrix guides developmental processes of single cells and tissues [43,44,[128][129][130]]. An interesting example, which is still not well understood, is the biomineralization process of calcium carbonates, as found in many invertebrate biominerals such as alveolar plates of ciliates (single-cell eukaryotic micro-organism) [131] and mollusk shells.…”
Section: Passive Control Of Heart Tissue By Soft Materialsmentioning
confidence: 97%
“…The latter in particular is still not understood in terms of mechano-sensory response to the extremely hard shell (∼GPa). A soft tissue (∼kPa) controls the formation of a fine textured 3D structure (polysaccharide-containing ECM) into which mineral is deposited [130], mediated by local transmembrane proteins and myosin motor domains [129]. Mechanical sensing has been suggested to include a myosin chitin synthase with direct cytoskeletal interaction [132], similar as actin-myosin mechanosensing feedback found in vertebrate cardiac cells.…”
Section: Passive Control Of Heart Tissue By Soft Materialsmentioning
confidence: 99%
“…Molecular and phylogenetic investigations report that the differences between the assemblies of shell proteins from one species to another species can be tremendous [1416]. This observation suggests that multiple interactions between the proteins are fine-tuned in relationship to the forming mineral phases [1720]. …”
Section: Introductionmentioning
confidence: 99%
“…We also investigated the two cationic peptides ES9 (sequence, N→C: EEKKKKKES) and AS8 (sequence, N→C: AKKKKKAS) [46]. The ES9 peptide is derived from E22, one of four major extracellular loops of an enzyme involved in biomineralization [20,47]. Previous experiments suggest that self-assembly of E22 is fine-tuned in accordance with pH changes that may occur as a function of the mineral precipitation and dissolution [48].…”
Section: Introductionmentioning
confidence: 99%