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Communicative & Integrative Biology Volume 4, 2011 - Issue 2
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Evolution of glycosaminoglycans

Comparative biochemical study

Shuhei Yamada Laboratory of Proteoglycan Signaling and Therapeutics, Faculty of Advanced Life Science, Graduate School of Life Science, Hokkaido University; Sapporo, JapanCorrespondence[email protected]
,
Kazuyuki Sugahara Laboratory of Proteoglycan Signaling and Therapeutics, Faculty of Advanced Life Science, Graduate School of Life Science, Hokkaido University; Sapporo, Japan
&
Suat Özbek Institute of Zoology, Department of Molecular Evolution and Genomics, Heidelberg University; Heidelberg, Germany
Pages 150-158 | Received 20 Dec 2010, Accepted 20 Dec 2010, Published online: 01 Mar 2011
 
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Abstract

Glycosaminoglycans, a major component of the extracellular matrix molecules in animal tissues, play important roles in various physiological events. Glycosaminoglycans are found in not only vertebrates but also many invertebrates, implying a conserved function in the animal kingdom. Here, we discuss the analysis of glycosaminoglycans in 11 invertebrate phyla focusing on structure as well as physiological functions elucidated in model organisms. Various sulfated structures of heparan sulfate are widely distributed from very primitive organisms to humans, indicating an involvement in fundamental biological processes. By contrast, chondroitin/dermatan sulfate from lower organisms is limited in its structural complexity and often associated with a particular function. The presence of hyaluronic acid outside of vertebrates has been reported only in a mollusk.

Acknowledgements

This work was supported in part by Grants-in-aid for Scientific Research C-21590057 (to S.Y.), Scientific Research (B) 20390019 (to K.S.), and the Future Drug Discovery and Medical Care Innovation Program (to K.S.) from the Ministry of Education, Culture, Sports, Science and Technology of Japan (MEXT).

Figures and Tables

Figure 1 The backbone structure of GAGs. CS or DS is composed of alternating disaccharide units of GlcA or IdoA and GalNAc, respectively. R1, R2, R3, R4 = −H or −SO3H. Modification with β-D-glucose at the R2 position has been found in squid CS. The presence of the α-L-fucose branch at the R4 position has been reported in the CS preparations from sea cucumber and king crab. HS is composed of alternating disaccharide units of GlcA or IdoA and GlcN. R1 = −COCH3 or −SO3H; R2, R3, R4, R5 = −H or −SO3H. Recently, sulfation at the R5 position was discovered in a bivalve HS.Citation71 HA is a linear polymer composed of GlcA and GlcNAc.

Figure 1 The backbone structure of GAGs. CS or DS is composed of alternating disaccharide units of GlcA or IdoA and GalNAc, respectively. R1, R2, R3, R4 = −H or −SO3H. Modification with β-D-glucose at the R2 position has been found in squid CS. The presence of the α-L-fucose branch at the R4 position has been reported in the CS preparations from sea cucumber and king crab. HS is composed of alternating disaccharide units of GlcA or IdoA and GlcN. R1 = −COCH3 or −SO3H; R2, R3, R4, R5 = −H or −SO3H. Recently, sulfation at the R5 position was discovered in a bivalve HS.Citation71 HA is a linear polymer composed of GlcA and GlcNAc.

Figure 2 Distribution of GAGs in the animal kingdom.

Figure 2 Distribution of GAGs in the animal kingdom.

Table 1 Representative disaccharide composition of CD/DS from various species

Table 2 Representative disaccharide composition of HS from various species

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