Carbohydrate Gluing, an Architectural Mechanism in the Supramolecular Structure of an Annelid Giant Hemoglobin

We report a carbohydrate-dependent supramolecular architecture in the extracellular giant hemoglobin (Hb) from the marine worm Perinereis aibuhitensis; we call this architectural mechanism carbohydrate gluing. This study is an extension of our accidental discovery of deterioration in the form of the...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 1995-08, Vol.92 (16), p.7367-7371
Main Authors: Ebina, Satoshi, Matsubara, Keiko, Nagayama, Kuniaki, Yamaki, Mariko, Gotoh, Toshio
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Architecture
Biochemistry
Carbohydrates
Carbohydrates - chemistry
Gels
Hemoglobins
Hemoglobins - chemistry
Hemoglobins - genetics
Hemoglobins - ultrastructure
Lectins
Marine
Microscopy, Electron
Molecular Sequence Data
Molecular Structure
Molecules
Monosaccharides
Perinereis aibuhitensis
Phosphates
Polychaeta - chemistry
Polychaeta - genetics
Protein Conformation
Sequence Homology, Amino Acid
Worms
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Summary:We report a carbohydrate-dependent supramolecular architecture in the extracellular giant hemoglobin (Hb) from the marine worm Perinereis aibuhitensis; we call this architectural mechanism carbohydrate gluing. This study is an extension of our accidental discovery of deterioration in the form of the Hb caused by a high concentration of glucose. The giant Hbs of annelids are natural supramolecules consisting of about 200 polypeptide chains that associate to form a double-layered hexagonal structure. This Hb has 0.5% (wt) carbohydrates, including mannose, xylose, fucose, galactose, glucose, N-acetylglucosamine (GlcNAc), and N-acetylgalactosamine (GalNAc). Using carbohydrate-staining assays, in conjunction with two-dimensional polyacrylamide gel electrophoresis, we found that two types of linker chains (L1 and L2; the nomenclature of the Hb subunits followed that for another marine worm, Tylorrhynchus heterochaetus) contained carbohydrates with both GlcNAc and GalNAc. Furthermore, two types of globins (a and A) have only GlcNAc-containing carbohydrates, whereas the other types of globins (b and B) had no carbohydrates. Monosaccharides including mannose, fucose, glucose, galactose, GlcNAc, and GalNAc reversibly dissociated the intact form of the Hb, but the removal of carbohydrate with N-glycanase resulted in irreversible dissociation. These results show that carbohydrate acts noncovalently to glue together the components to yield the complete quaternary supramolecular structure of the giant Hb. We suggest that this carbohydrate gluing may be mediated through lectin-like carbohydrate-binding by the associated structural chains ("linkers").
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.92.16.7367