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1.
Proteomics ; 11(22): 4291-5, 2011 Nov.
Article in English | MEDLINE | ID: mdl-21954138

ABSTRACT

This Viewpoint article addresses comments made on our original article describing a symbolic system for the depiction of N- and O-linked carbohydrate structures and proposes a method for extending the symbol set to include monosaccharides commonly found in carbohydrates present in bacteria and plants. As before, basic monosaccharides are shown by shape with one or more additions such as solid fill or additions of lines, crosses or dots to represent functional groups. The use of colour to differentiate constituent monosaccharides is avoided, thus enabling the system to be used in a variety of formats. Linkage and anomericity are shown by the angle and type of line connecting the symbols. In this extended version, new symbols are proposed for additional hexoses and it is proposed that pyranose and furanose forms of the monosaccharides could be shown by solid or broken outlines to the symbols. Conventions for depicting the presence of multiple functional groups such as deoxy-(NH(2))(2) are also discussed. It is hoped that these proposals will stimulate discussion so that a consensus can be reached as to how the glycobiology community can best convey complex information in a simple manner.


Subject(s)
Carbohydrates/classification , Glycomics , Terminology as Topic , Bacteria/metabolism , Carbohydrate Conformation , Carbohydrate Sequence , Carbohydrates/chemistry , Glycoproteins/chemistry , Glycoproteins/classification , Lipopolysaccharides/chemistry , Plants/metabolism , Proteomics
2.
Proteomics ; 9(15): 3796-801, 2009 Aug.
Article in English | MEDLINE | ID: mdl-19670245

ABSTRACT

Symbolic diagrams are commonly used to depict N- and O-linked glycans but there is no general consensus as to how individual constituent monosaccharides or linkages are shown. This article proposes a system that avoids ambiguities inherent in most other systems and is appropriate for both hand drawing and computer applications. Constituent monosaccharides are depicted by shapes modified to show OAc, deoxy, etc. Linkage is indicated by the bond angle and anomericity by solid (beta) or dashed (alpha) lines.


Subject(s)
Carbohydrates/chemistry , Carbohydrate Sequence , Molecular Sequence Data , Molecular Structure
3.
FEBS J ; 273(13): 3024-37, 2006 Jul.
Article in English | MEDLINE | ID: mdl-16817853

ABSTRACT

Urinary glycoproteins are important inhibitors of calcium oxalate crystallization and adhesion of crystals to renal cells, both of which are key mechanisms in kidney stone formation. This has been attributed to glycosylation of the proteins. In South Africa, the black population rarely form stones (incidence < 1%) compared with the white population (incidence 12-15%). A previous study involving urinary prothrombin fragment 1 from both populations demonstrated superior inhibitory activity associated with the protein from the black group. In the present study, we compared N-linked and O-linked oligosaccharides released from urinary prothrombin fragment 1 isolated from the urine of healthy and stone-forming subjects in both populations to elucidate the relationship between glycosylation and calcium oxalate stone pathogenesis. The O-glycans of both control groups and the N-glycans of the black control samples were significantly more sialylated than those of the white stone-formers. This demonstrates a possible association between low-percentage sialylation and kidney stone disease and provides a potential diagnostic method for a predisposition to kidney stones that could lead to the implementation of a preventative regimen. These results indicate that sialylated glycoforms of urinary prothrombin fragment 1 afford protection against calcium oxalate stone formation, possibly by coating the surface of calcium oxalate crystals. This provides a rationale for the established roles of urinary prothrombin fragment 1, namely reducing the potential for crystal aggregation and inhibiting crystal-cell adhesion by masking the interaction of the calcium ions on the crystal surface with the renal cell surface along the nephron.


Subject(s)
Calcium Oxalate/metabolism , Kidney Calculi/etiology , Peptide Fragments/chemistry , Peptide Fragments/urine , Protein Precursors/chemistry , Protein Precursors/urine , Prothrombin/chemistry , Prothrombin/urine , Sialic Acids/chemistry , Adult , Aged , Black People , Disease Susceptibility , Glycosylation , Humans , Kidney Calculi/ethnology , Male , Middle Aged , Oligosaccharides/chemistry , Polysaccharides/chemistry , Risk , Risk Factors , White People
5.
J Biol Chem ; 278(29): 27119-28, 2003 Jul 18.
Article in English | MEDLINE | ID: mdl-12676960

ABSTRACT

Studies of mucins suggest that the structural effects of O-glycans are restricted to steric interactions between peptide-linked GalNAc residues and adjacent polypeptide residues. It has been proposed, however, that differential O-glycan sialylation alters the structure of the stalk-like region of the T cell co-receptor, CD8, and that this, in turn, modulates ligand binding (Daniels, M. A., Devine, L., Miller, J. D., Moser, J. M., Lukacher, A. E., Altman, J. D., Kavathas, P., Hogquist, K. A., and Jameson, S. C. (2001) Immunity 15, 1051-1061; Moody, A. M., Chui, D., Reche, P. A., Priatel, J. J., Marth, J. D., and Reinherz, E. L. (2001) Cell 107, 501-512). We characterize the glycosylation of soluble, chimeric forms of the alphaalpha- and alphabeta-isoforms of murine CD8 containing the O-glycosylated stalk of rat CD8alphaalpha, and we show that the stalk O-glycans are differentially sialylated in CHO K1 versus Lec3.2.8.1 cells (82 versus approximately 6%, respectively). Sedimentation analysis indicates that the Perrin functions, Pexp, which reflect overall molecular shape, are very similar (1.61 versus 1.54), whereas the sedimentation coefficients (s) of the CHO K1- and Lec3.2.8.1-derived proteins differ considerably (3.73 versus 3.13 S). The hydrodynamic properties of molecular models also strongly imply that the sialylated and non-sialylated forms of the chimera have parallel, equally highly extended stalks ( approximately 2.6 A/residue). Our analysis indicates that, as in the case of mucins, the overall structure of O-glycosylated stalk-like peptides is sialylation-independent and that the functional effects of differential CD8 O-glycan sialylation need careful interpretation.


Subject(s)
CD8 Antigens/chemistry , Amino Acid Sequence , Animals , CD8 Antigens/genetics , CHO Cells , Carbohydrate Conformation , Carbohydrate Sequence , Chromatography, High Pressure Liquid , Cricetinae , Glycosylation , In Vitro Techniques , Mice , Models, Molecular , Molecular Sequence Data , Molecular Structure , Polysaccharides/chemistry , Protein Conformation , Rats , Recombinant Fusion Proteins/chemistry , Recombinant Fusion Proteins/genetics , Sialic Acids/chemistry , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
6.
Curr Opin Struct Biol ; 12(5): 578-86, 2002 Oct.
Article in English | MEDLINE | ID: mdl-12464308

ABSTRACT

Recent advances have elucidated the detailed glycosylation of the prion protein and highlighted the size of the sugars, which shield large areas of the protein and confer some conformational stability on the normal cellular form. The reliability of SDS-PAGE banding patterns of different "glycoforms" as a diagnostics tool has been discussed. The possibility exists that the glycans may play a role in the location of the prion protein on the neuronal cell surface. Alternative topologies and tethering of the prion glycoprotein on the cell membrane affect glycan site occupancy and may play a role in disease pathogenesis.


Subject(s)
Prions/metabolism , Glycosylation , Models, Molecular , Prions/chemistry , Protein Folding , Protein Isoforms/chemistry , Protein Isoforms/metabolism , Protein Structure, Secondary
7.
Biochemistry ; 41(48): 14141-9, 2002 Dec 03.
Article in English | MEDLINE | ID: mdl-12450377

ABSTRACT

Calreticulin is a ubiquitous and highly conserved Ca(2+)-binding protein that is involved in intracellular Ca(2+) homeostasis and molecular chaperoning in the endoplasmic reticulum (ER). Plant calreticulin, in contrast to its animal counterpart, is often glycosylated: its N-glycans have been shown so far to be of the high-mannose type, typical of ER-resident glycoproteins. During the characterization of calreticulin from vegetative and reproductive tissues of Liriodendron tulipifera L., we gained some biochemical evidence that prompted us to investigate the monosaccharide composition and primary structure of the calreticulin N-glycans isolated from the ovary of this dicotyledon tree. The structures of the components of the N-glycan pool were elucidated by HPLC analysis and exoglycosidase sequencing, and further confirmed by matrix-assisted laser desorption/ionization mass spectrometry. The 16 identified oligosaccharide structures, which consisted of both the high-mannose and complex type, are indicative of calreticulin glycan processing through the ER-to-Golgi pathway up to the medial and trans Golgi stacks. Approximately 45% of calreticulin glycan chains are of the complex type, always containing beta(1,2)-xylose, and approximately a third of these also contain alpha(1,3)-fucose in the core. The most complex glycoform harbors the Lewis-a epitope Gal(beta)1-3[Fuc(alpha)1-4]GlcNAc. Immunolocalization of calreticulin with anti-calreticulin antibodies was consistent with protein transit through the Golgi. Thus, although it contains the tetrapeptide HDEL ER retention signal, the reticuloplasmin calreticulin possesses the competence to transit from the ER compartment to the distal Golgi stacks. The final fate of the protein after its complete maturation is still obscure.


Subject(s)
Calreticulin/metabolism , Endoplasmic Reticulum/metabolism , Golgi Apparatus/metabolism , Plant Proteins/metabolism , Calreticulin/analysis , Calreticulin/isolation & purification , Calreticulin/ultrastructure , Chromatography, High Pressure Liquid , Endoplasmic Reticulum/chemistry , Endoplasmic Reticulum/ultrastructure , Flowers/chemistry , Flowers/cytology , Flowers/ultrastructure , Glycosylation , Golgi Apparatus/chemistry , Golgi Apparatus/ultrastructure , Liriodendron/chemistry , Liriodendron/cytology , Liriodendron/metabolism , Liriodendron/ultrastructure , Microscopy, Immunoelectron , Plant Proteins/analysis , Plant Proteins/isolation & purification , Plant Proteins/ultrastructure , Polysaccharides/analysis , Protein Transport , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
8.
Anal Biochem ; 304(1): 91-9, 2002 May 01.
Article in English | MEDLINE | ID: mdl-11969192

ABSTRACT

The initial step in quantitative analysis of O-linked glycans of glycoproteins is to release them in high yield, nonselectively, unmodified, and with a free reducing terminus. In contrast to other techniques, hydrazinolysis can meet these criteria. However, when analyzing pools of O-linked glycans as described in the accompanying article by L. Royle et al. (2002, Anal. Biochem. 304), some peeling of the glycans was observed. Critical steps in the sample preparation and glycan recovery were therefore evaluated by analyzing and identifying both intact O-glycans and degraded products. Synthetic O-glycopeptides were characterized by mass spectrometry. Released glycans were identical to those on the glycopeptide. O-Linked glycans from a range of glycoproteins of increasing complexity, namely, bovine serum fetuin, glycophorin A, and previously uncharacterized glycopeptides isolated from human salivary mucin Muc5B, were also analyzed. Quantitative analysis of the glycan profile confirmed that there was <2% peeling of O-glycans released by hydrazinolysis conditions of 60 degrees C for 6 h, and recovered using the optimised procedure now described. This demonstrated that O-glycans can be prepared by hydrazinolysis without degradation and, as part of an analytical strategy, makes the analysis of O-glycans attached to low-microgram levels of naturally occurring glycoproteins feasible.


Subject(s)
Glycoproteins/chemistry , Polysaccharides/isolation & purification , Amino Acid Sequence , Animals , Carbohydrate Sequence , Cattle , Chromatography, High Pressure Liquid , Glycophorins/chemistry , Humans , Hydrazines , Molecular Sequence Data , Mucin-5B , Mucins/chemistry , Polysaccharides/chemistry , Sequence Analysis/methods , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , alpha-Fetoproteins/chemistry , ortho-Aminobenzoates
9.
Anal Biochem ; 304(1): 70-90, 2002 May 01.
Article in English | MEDLINE | ID: mdl-11969191

ABSTRACT

A sensitive, rapid, quantitative strategy has been developed for O-glycan analysis. A structural database has been constructed that currently contains analytical parameters for more than 50 glycans, enabling identification of O-glycans at the subpicomole level. The database contains the structure, molecular weight, and both normal and reversed-phase HPLC elution positions for each glycan. These observed parameters reflect the mass, three-dimensional shape, and hydrophobicity of the glycans and, therefore, provide information relating to linkage and arm specificity as well as monosaccharide composition. Initially the database was constructed by analyzing glycans released by mild hydrazinolysis from bovine serum fetuin, synthetic glycopeptides, human glycophorin A, and serum IgA1. The structures of the fluorescently labeled sugars were determined from a combination of HPLC data, mass spectrometric composition and mass fragmentation data, and exoglycosidase digestions. This approach was then applied to human neutrophil gelatinase B and secretory IgA, where 18 and 25 O-glycans were identified, respectively, and the parameters of these glycans were added to the database. This approach provides a basis for the analysis of subpicomole quantities of O-glycans from normal levels of natural glycoproteins.


Subject(s)
Glycoproteins/chemistry , Polysaccharides/chemistry , Sequence Analysis/methods , Animals , Carbohydrate Sequence , Cattle , Chromatography, High Pressure Liquid/methods , Chromatography, High Pressure Liquid/statistics & numerical data , Databases, Factual , Glycopeptides/chemistry , Glycophorins/chemistry , Humans , Immunoglobulin A/chemistry , Immunoglobulin A, Secretory/chemistry , Mass Spectrometry/methods , Matrix Metalloproteinase 9/chemistry , Microchemistry , Molecular Sequence Data , Reproducibility of Results , Sensitivity and Specificity , Sequence Analysis/statistics & numerical data , alpha-Fetoproteins/chemistry
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