Further characterization of carbohydrate-containing fractions from Trypanosoma mega

Epimastigotes of Trypanosoma mega were submitted to phenol extraction after lipid extraction, providing an extract whose carbohydrate portion (30%) contained fucose, ribose, xylose, mannose, galactose, and glucose. The purified fraction recovered in the void volume of Bio Gel P-150 gave on SDS-PAGE a band of Mr approximately equal to 55,000 positive for protein and carbohydrate and a diffuse band strongly positive for carbohydrate and lipids (Mr approximately equal to 22,000). The structural analysis of the carbohydrate moiety of this fraction by GLC-MS indicated the presence of nonreducing end groups of fucopyranose, mannopyranose, and galactopyranose, 3-O- and 4-O-substituted and 2,3- and 2,4-di-O-substituted galactopyranosyl units. Extraction of this fraction with chloroform/methanol/water provided a soluble fraction that on SDS-PAGE gave rise to a carbohydrate and lipid-positive band (Mr approximately equal to 22,000). This fraction contained fucose, mannose, and galactose (1:1:1). As main branch points, 2,3-di-O-substituted galactopyranosyl units were present according to methylation data. Similar proportions of fucopyranosyl, mannopyranosyl, galactopyranosyl end units were present. The presence of lipids in this fraction was confirmed by methanolysis following isolation and characterization of the corresponding fatty acid methyl esters. Palmitic acid (16:0) and an 18:1 fatty acid were the predominant fatty acids.     

New structural features of the polysaccharide from gum ghatti (Anogeissus latifola)

Methylation and 13C NMR analyses were carried out on the high-arabinose, acidic heteropolysaccharide of gum ghatti and the products obtained on three successive, controlled Smith degradations. The side chains contained mainly 2-O- and 3-O-substituted Araf units. Of these the second degradation eliminated remaining alpha-Araf units, and their beta anomers became evident. The proportion of Galp units gradually increased in the form of nonreducing end- and Galp units, although 3,6-di-O- and 3,4,6-tri-O-substituted Galp units diminished. After three degradations groups with consecutive 3-O-substituted beta-Galp units were formed. The proportion of periodate-resistant 3-O- and 2,3-di-O-substituted Manp units was maintained. As a guide to side-chain structures in the polysaccharide, seven of the 10 free reducing oligosaccharide fractions (PC) present in the gum were isolated and examined (NMR, ESIMS, and sometimes methylation analysis). Characterized are alpha-Araf-(1 --> 2)-Ara and three Ara-containing oligosaccharide fractions containing 2-O- and 3-O-substituted units. These gave respectively, ESIMS molecular ions arising from Ara(2), beta-Araf oligosaccharides with four units, beta-Araf oligosaccharides with seven units, and Hex(2)-Ara(4). Alpha-Rhap-(1 --> 4)-GlcA, alpha-Rhap-(1 --> 4)-beta-GlcpA-(1 --> 6)-Gal, and alpha-Rhap-(1 --> 4)-beta-GlcpA-(1 --> 6)-beta-Galp-(1 --> 6)-Gal represented other side chains.     

Structural Studies on Pectin from Marsh Cinquefoil <Emphasis Type="Italic">Comarum palustre</Emphasis> L.

Pectin with [alpha]D(20) +192 degrees (c 0.1; water), named comaruman, was isolated from marsh cinquefoil Comarum palustre L., which is widespread in the European North. The sugar chain of comaruman contains residues of D-galacturonic acid (64%), D-galactose (13%), L-rhamnose (12%), L-arabinose (6%), and trace amounts of xylose and glucose. Partial acid hydrolysis and digestion with pectinase demonstrated that comaruman composed of the backbone comprised regions of linear alpha-1,4-D-galactopyranosyl uronan interconnected by numerous residues of alpha-1,2-L-rhamnopyranose. In addition to the backbone (core of the macromolecule), ramified regions are involved in comaruman and comprise alpha-2,4-L-rhamno-alpha-4-D-galacturonan with side chains consisting mainly of beta-1,4-linked residues of D-galactopyranose. The ramified region contains additionally residues of 5-O-substituted arabinofuranose and 3- and 6-O-substituted galactopyranose. The present 3,4- and 4,6-di-O-substituted residues of galactopyranose appear to be branching points of the side chains. Some galactopyranose residues were found to occupy the terminal positions of the side chains or appeared to be single sugar residues attached to the side chains. Methylation analysis data indicated that comaruman contains residues of terminal, 3- and 3,4-di-O-substituted galactopyranosyl uronic acid, which appeared to be constituents of the side chains, and the latter represented additionally branching points of the backbone.     

Galactomannans with novel structures from the lichen Roccella decipiens Darb

Two homogeneous galactomannan fractions were isolated from the lichen, Roccella decipiens, one (FP) containing Man and Gal in an 81:19 molar ratio and the other (RFS), having Man, Gal, and Glc in a 43:56:1 molar ratio. FP consisted of a main chain with (1-->4)-linked alpha-D-Manp units, most of which were substituted at O-2 with side chains consisting of nonreducing end-, 2-O- and 6-O-substituted alpha-Manp units. The latter appeared to be substituted by single-unit beta-D-Galf nonreducing ends. RFS contained a similar alpha-D-Manp core structure, but with side chains containing nonreducing end, 5-O-, 6-O-, and 5,6-di-O-substituted beta-D-Galf units. Such polysaccharide structures have not been previously reported.     

Use of 13C-n.m.r. spectroscopy for the quantitative estimation of 3-O- and 3,6-di-O-substituted D-glucopyranosyl residues in alpha-D-glucans formed by the D-glucosyltransferases of Streptococcus sobrinus

The 13C-n.m.r. spectra of the three alpha-D-glucans from Streptococcus sobrinus and the dextran from Leuconostoc mesenteroides, which differ widely in the ratios of omega (terminal, nonreducing) D-glucopyranosyl groups: 3-:6-:3,6-linked D-glucopyranosyl (Glc) residues, were measured in 0.5M NaOH at 22 degrees. The C-1 signals of 3-O-substituted Glc in a linear sequence, 6-O-substituted Glc in a linear sequence, 3,6-di-O-substituted Glc in a (1----6)-linked sequence, and Glc attached to O-3 of 3,6-di-O-substituted Glc were distinguished from each other. The C-3 signal of 3,6-linked Glc appeared downfield by 0.6 to 1.0 p.p.m. compared to the C-3 signal of 3-linked Glc in a linear sequence. The C-6 signals of omega-terminal, 3-linked, 6-linked, and 3,6-linked Glc were also assigned. The C-2 signal of 3-linked Glc in a linear sequence appeared separately, at 73.76 p.p.m. Based on these assignments, the various D-glucopyranosyl residues of the S. sobrinus alpha-D-glucans were quantitatively estimated from the signal areas of the C-2 atom of 3-linked Glc, the C-3 atom of 3-linked and 3,6-linked Glc, the C-6 atom of 6-linked and 3,6-linked Glc, and the C-6 atom of the omega-Glc groups and 3-linked Glc residues. The figures thus derived for the linkage ratios were close to those obtained by methylation analysis.     

Structural study of bergenan, a pectin from Bergenia crassifolia

A pectin polysaccharide named bergenan was isolated from the freshly collected leaves of the leather bergenia Bergenia crassifolia by extraction with an aqueous solution of ammonium oxalate. The main component of its carbohydrate chain was shown to be the residues of D-galacturonic acid (about 80%). In addition, the polysaccharide contains residues of galactose, arabinose, and rhamnose; their total content is less than 15%. It was shown that the bergenan samples from bergenia leaves collected at different vegetation periods (from July to September) do not substantially differ either in monosaccharide composition or in the viscosity of aqueous solutions they form. The results of enzymatic hydrolysis by alpha-1,4-galacturonase (pectinase), partial acidic hydrolysis, NMR spectroscopy, and methylation with subsequent analysis of the results by GC-MS indicate that the bergenan macromolecule contains the regions of a linear alpha--1,4-D-galactopyranosyluronan and rhamnogalacturonan-I (RG-1). Galacturonan responds for a greater part of the macromolecule. A considerable amount of its constituent galacturonic acid residues are present as methyl esters. The side chains in RG-I are attached to the rhamnopyranose residues of the main carbohydrate chain by 1,4-link and are composed of the residues of terminal arabinofuranose and galactopyranose, 1,5-linked (-arabinofuranose, and 1,4-and 1,6-linked beta-galactopyranose. The branching points of the side chains of the RG-I molecule are 3,4- and 3,6-di-O-substituted galactose residues.     

Characterization of the structure,expression and function of <Emphasis Type="Italic">Pinus radiata</Emphasis> D. Don arabinogalactan-proteins

A synthetic phenylglycoside (beta-GlcY) that interacts specifically with arabinogalactan-proteins (AGPs), a class of plant cell surface proteoglycans, has been used to study the spatial distribution of AGPs in the xylem tissue of radiata pine. These studies demonstrated that AGPs were located in the compound middle lamella (CML) of the newly developed tracheid. Abundant, low salt extractable AGPs were purified from xylem tissue. Monosaccharide analysis showed that arabinose and galactose were the main sugars present. Linkage analysis showed that most of the arabinose was in the furanose form, at the terminal and 5-linked positions, and the majority of the galactose was in the pyranose form at the terminal 3-, 6- and 3,6-linked positions; a linkage composition typical of AGPs. The AGPs had an abundance of characteristic amino acid residues including alanine, hydroxyproline, proline, and serine. Separation of the AGPs using reversed-phase high performance liquid chromatography showed that one main fraction was eluted, which tested positive for AGPs by dot-blot analysis using anti-AGP monoclonal antibodies. Sedimentation equilibrium analysis showed that this main fraction contained a 226 kDa species. We have examined the function of AGPs in tracheid differentiation using an established radiata pine callus culture system grown on media containing beta-GlcY. The effect of beta-GlcY on the cultures was to reduce the overall tracheid differentiation rate in a concentration dependent manner, ultimately resulting in cell death. These studies provide further evidence that AGPs play an important role in tracheid differentiation, and thus may be an important biological target for improving wood quality.     

Characterization of an arabinogalactan-protein isolated from pressed juice of Echinacea purpurea by precipitation with the beta-glucosyl Yariv reagent

An arabinogalactan-protein (AGP) from pressed juice of Echinacea purpurea herb was isolated from a high molecular weight fraction by precipitation with the beta-glucosyl Yariv reagent, followed by gel-permeation chromatography. It revealed characteristic features of other AGPs: i.e., a high amount of polysaccharide (83%) with a ratio of galactose to arabinose of 1.8:1, some uronic acids (4-5%), and a low protein content (7%) with high levels of serine, alanine and hydroxyproline. The molecular weight was estimated to be 1.2 x 10(6) Da. Linkage and 13C NMR analyses showed that the AGP is composed of a highly branched core polysaccharide of 3-, 6-, and 3,6-linked Galp residues with terminal Araf, GlcAp and terminal units of Araf-(1-->5)-Araf-(1-->. Partial acid hydrolysis resulted in loss of Araf residues at the periphery of the molecule. Complete loss of reactivity toward the beta-glucosyl Yariv antigen was then noticed.     

Chemical structures of a galactose-rich glycoprotein of Leishmania tarentolae

1. Aqueous phenol treatment of water extracted disrupted cells of Leishmania tarentolae (LV-414) provided a glycoprotein mixture which was purified by gel filtration chromatography, and Concanavalin A-Sepharose column. 2. The bound fraction on Concanavalin A-Sepharose column (protein 74%, and carbohydrate, 26%) had [alpha]D + 9 degrees and contained mannose (18%), galactose (60%), and glucose (22%), and some of the galactose residues were resistant to periodate oxidation. 3. Treatment of the phenol extract with hot aqueous NaBH4 containing NaOH gave a preparation having mannose (12%), galactose (82%), and glucose (6%). 4. Methylation analysis showed the presence of a mainly linear structure with non-reducing end-units of mannopyranose (6%), 3-O-substituted galactopyranosyl (64%), 2-O- (11%), and 6-O- (5%) substituted mannopyranosyl, and 4-O- (9%), and 4,6-di-O- (3%) substituted glycopyranosyl units. 5. The specific rotation of the preparation, +20 degrees, indicated beta-linked galactopyranosyl units.     

Fractionation and Structural Characterization of Arabinogalactan-Proteins from the Cell Wall of Rose Cells

Arabinogalactan-proteins (AGPs) have been purified from Paul's Scarlet rose (Rosa sp.) cell walls. As estimated by gel permeation chromatography, the apparent molecular masses of the two major cell-wall AGP fractions were 130 and 242 kD. Since the 130-kD AGP had a ratio of arabinose/glucuronic acid that was 12 times higher than that of the 242-kD AGP, the fractions were named cell-wall AGP1 (CW-AGP1) and glucuronogalactan-protein (GGP), respectively. CW-AGP1 and GGP contained predominantly t-arabinofuranosyl residues; 3-linked, 6-linked, and 3,6-branched galactopyranosyl residues; and 4-linked and t-glucuronopyranosyl residues. The 1H-nuclear magnetic resonance spectra of CW-AGP1 and GGP showed that the arabinofuranosyl and galactopyranosyl residues were predominantly in [alpha]- and [beta]-anomeric configuration, respectively, and that GGP contained a few O-acetyl residues. The protein moieties of CW-AGP1 and GGP were both rich in hydroxyproline and alanine but differed in the percentage of various amino acids, including hydroxyproline, alanine, serine, and glycine. Cell-wall AGPs bound to ([beta]-D-glucosyl)3 Yariv phenylglycoside, but the stoichiometry of binding was about 6 times greater in GGP than in other Rosa AGPs. GGP seems to be peculiar to the cell wall, since no similar molecule was found in the culture medium.     

Structural characterisation of an anti-complementary arabinogalactan from the roots of Angelica acutiloba Kitagawa

An anti-complementary arabinogalactan (AGIIb-1), isolated from the roots of Angelica acutiloba Kitagawa, has been subjected to methylation analysis, digestion with alpha-L-arabinofuranosidase, controlled Smith-degradation, and partial acid hydrolysis. AGIIb-1 consisted of arabinose, galactose, rhamnose, galacturonic acid, and glucuronic acid in the molar ratios 1.8-2.2:1.0:0.2-0.3:0.2-0.4:0.1. AGIIb-1 contained mainly an arabino-3,6-galactan moiety, and most of the Ara was present as alpha-L-arabinofuranosyl residues in the non-reducing terminals and the highly polymerised and branched side-chains which were attached mainly to positions 3 and 6 of (1----6)- and (1----3)-linked Gal, respectively. Some Ara-containing chains were also attached to (1----4)-linked Gal residues. The 13C-n.m.r. data for AGIIb-1 showed that the Galp was beta. Mild acid hydrolysis of AGIIb-1 yielded several linear and highly branched arabino-oligosaccharides, a neutral arabinogalactan, and two acidic arabinogalactans. Some arabino-oligosaccharides contained a (1----4)-linked Arap at the reducing terminal. The neutral arabinogalactan contained (1----3)-, (1----4)-, and (1----6)-linked and 3,6-di-O-substituted Gal, whereas the acidic arabinogalactans contained, in addition, non-reducing terminal GlcA, (1----4)-linked GalA, and 2,4-di-O-substituted Rha. The anti-complementary activity was decreased when AGIIb-1 was partially hydrolysed with mild acid (10mM HCl, 100 degrees, 10 min), but treatment with exo-alpha-L-arabinofuranosidase markedly enhanced the activity.     

Characterization of an arabinogalactan-protein from suspension culture of <Emphasis Type="Italic">Echinacea purpurea</Emphasis>

Suspension cultures of Echinacea purpurea have been established in MS medium supplemented with 2,4-D and an arabinogalactan-protein (AGP) was purified from the secreted soluble polymers by precipitation with ethanol, followed by precipitation with β-glucosyl Yariv reagent. It revealed typical features of AGPs: a high amount of polysaccharide (90% w/w) with the dominating monosaccharides galactose and arabinose and some glucuronic acid, and a small protein moiety (10% w/w) with the main amino acids Ala, Hyp, Glx, Ser, Asx and Thr. Linkage- and NMR-analyses showed the polysaccharide part to be composed of a branched core-polysaccharide of 3-, 6- and 3,6-linked Galp residues with terminal Araf, Arap, Galp and GlcAp residues. Compared to an AGP from pressed juice of the aerial parts of Echinacea purpurea, differences particularly in terminal arabinose mono- and oligosaccharides in arabinogalactan (AG) side branches could be detected. Testing of different AGP-antibodies with both AGPs confirmed the results of the analytical investigations. Binding of AGPs from plant and cell cultures to LM2, a monoclonal AGP-antibody reacting with a GlcA containing epitope, was comparable. The reactivity of a monoclonal antibody raised against the AGP from the plant recognizing a galactan epitope was also nearly similar with both AGPs. In contrast, polyclonal antibodies raised against the AGP from the plant and directed against an Araf-containing epitope of the AG side branches showed nearly no cross reactivity with the AGP from cell culture.     

Arabinogalactan-proteins from the suspension culture medium and plasma membrane of rose cells

Arabinogalactan-proteins (AGPs) that bind to beta-glycosyl Yariv antigens have been purified from the culture medium and plasma membrane of "Paul's Scarlet" rose cells. Starting from culture medium or from plasma membrane vesicles prepared by aqueous two-phase partitioning, the purification procedure involved Yariv antigen-induced precipitation and subsequent chromatographic steps. Two fractions, AGP-(a) and AGP-(b), were obtained from the culture medium, and one AGP fraction was obtained from the plasma membrane. The glycosyl compositions of all three fractions were dominated by arabinosyl and galactosyl residues and included glucuronosyl and other minor residues. Methylation analysis showed that AGP-(a) and AGP-(b) were both highly branched 3,6-galactans with terminal arabinofuranosyl substituents. The amino acid compositions of all three AGPs were high in alanine, hydroxyproline, and serine and/or threonine. The amino-terminal sequence of AGP-(b) contained an alanine-hydroxyproline repeat. While sharing general structural similarity, the AGPs from the plasma membrane and the culture medium were distinguishable by composition and by size and charge, with the plasma membrane AGPs being larger and more negatively charged than the culture medium AGPs.     

Structural studies on the oligosaccharide moiety of the lipopeptidophosphoglycan from Trypanosoma cruzi

The structure of the carbohydrate moiety of the lipopeptidophosphoglycan from Trypanosoma cruzi was studied by 13C NMR spectroscopy and by methylation analysis of the original and of an acid-degraded sample. An oligosaccharide, consisting of 2-O-substituted and 6-O-substituted mannoses, which is linked to the ceramide, was separated by partial acid hydrolysis from an external chain that contained 3-O-substituted mannopyranosyl residues. beta-D-Galactofuranosyl terminal units are attached to position 3 of (1----2)-linked mannopyranose. Besides the previously reported monosaccharide components (mannose, galactose, glucose and glucosamine), ribose was identified in a partial acid hydrolysate of the lipopeptidophosphoglycan. The last three sugars are minor components and their organization into the overall structure of the lipopeptidophosphoglycan has not been determined.     

Full-length von Willebrand factor (vWF) cDNA encodes a highly repetitive protein considerably larger than the mature vWF subunit.

Full-length human von Willebrand factor (vWF) cDNA was assembled from partial, overlapping vWF cDNAs. This cDNA construct includes a coding sequence of 8439 nucleotides which encode a single-chain precursor of 2813 amino-acid residues, representing a putative signal peptide, a prosequence and mature vWF of 22, 741 and 2050 amino acids, respectively. This represents the longest coding sequence determined to date. In-vitro expression of full-length vWF cDNA revealed the synthesis of a polypeptide with a mol. wt corresponding with that of the unglycosylated precursor. The precursor is a highly repetitive protein which consists of two duplicated (B, C), a triplicated (A), a quadruplicated (D) and a partly duplicated domain (D'), in the following order: H-D1-D2-D'-D3-A1-A2-A3-D4-B1-B2-C1-C2-OH. Both the prosequence, composed of two D domains (D1, D2), and mature vWF harbor an arg-gly-asp ('R-G-D') sequence which has been implicated in cell-attachment functions. It is argued that the pro-sequence is equivalent to von Willebrand Antigen II (vW AgII).     

Structure of Silenan, a Pectic Polysaccharide from Campion Silene vulgaris (Moench) Garcke

A pectic polysaccharide named silenan, [alpha]D20 +148.6 degrees (c 0.1; H2O), was isolated earlier from the aerial part of campion, Silene vulgaris (Moench) Garcke. Silenan has been shown to contain homogalacturonan segments as "smooth regions" and rhamnogalacturonan fragments as "hairy regions". The present study reveals a generalization of structural features of silenan. Silenan was subjected to enzymic digestion with pectinase, to Smith degradation, and to lithium-degradation to determine the conforming poly- and oligosaccharide fragments of "hairy regions" of silenan. The NMR-spectral data and mass-spectrometry confirmed that the core of the ramified region of silenan consisted of residues of alpha-rhamnopyranose 2-O-glycosylated with the residues of alpha-1,4-D-galactopyranosyl uronic acid. The part of the alpha-rhamnopyranose residues of the backbone are branched at O-4. On the basis of the data, the hairy regions of silenan proved to contain mainly linear chains of beta-1,3-, beta-1,4-, and beta-1,6-galactopyranan and alpha-1,5-arabinofuranan. The side chains of the ramified region were shown to have branching points represented 2,3-, 3,6-, 4,6-di-O-substituted beta-galactopyranose residues.     

Alternative splicing produces transcripts encoding four variants of mouse G-protein-coupled receptor kinase 6.

A family of protein kinases, termed G-protein-coupled receptor kinases (GRK1-6), is known to phosphorylate agonist-occupied G-protein-coupled receptors. We have identified mRNAs encoding four distinct mouse GRK6 isoforms (mGRK6), designated mGRK6-A through mGRK6-D. Mouse GRK6-B and mGRK6-C diverge from the known human GRK6 (577 residues) at residue 560 and are 13 residues longer and 16 residues shorter, respectively, than human GRK6, while mGRK6-A very likely represents the mouse equivalent of human GRK6. Mouse GRK6-D is identical to the other mGRK6 variants in the amino-terminal region, but comprises only 59 of the 263 amino acids of the putative catalytical domain. As mGRK6-D retains the region involved in interacting with activated receptors, but most likely lacks catalytic activity, this variant might represent a naturally occurring inhibitor of other GRKs. Analysis of the genomic organization of mGRK6 gene revealed that the four mRNAs are generated by alternative RNA splicing from a single approximately 14. 5-kb gene, made up of at least 17 exons and located on mouse chromosome 13. Similar to human GRK6, mGRK6-A contains three cysteine residues within its carboxyl-terminal region known to serve as substrates for palmitoylation. Mouse GRK6-B lacks these palmitoylation sites, but carries a basic carboxyl-terminus containing consensus sequences for phosphorylation by protein kinases C and cAMP/cGMP-dependent protein kinases. Mouse GRK6-C displays none of these motifs. Thus, mGRK6-A, mGRK6-B, and mGRK6-C are predicted to differ in terms of their regulation by carboxyl-terminal posttranslational modification. Analysis of mRNA expression revealed that the four mGRK6 mRNAs are differentially expressed in mouse tissues, suggesting that the four mGRK6 isoforms are involved in regulating tissue- or cell type-specific functions in vivo.     

Immunochemistry of Ii-active glycosphingolipids of erythrocytes.

Fractions of complex glycosphingolipids were prepared from adult, cord, and i phenotype erythrocytes by the method elaborated for the isolation of poly(glycosyl)ceramides. In contrast to poly(glycosyl)ceramides which comprise on the average 30 glycosyl units and about 5 branching points, i.e. 3,6-di-O-substituted galactopyranosyl residues, per mole of glucose, complex glycosphingolipids from cord and i erythrocytes comprise 6 and 15 glycosyl units respectively and only 0.7 branching points. The latter substances exhibited also a high i activity which was not detected in poly(glycosyl)ceramides. Erythrocyte membranes were labeled with radioactive N-acetylgalactosamine (GalNAc) from UDP-GalNAc using a purified A-blood-group gene-specified transfered of GalNAc. It was found that electrophoretic mobilities in dodecylsulfate-gel electrophoresis of all glycoconjugates which accepted GalNAc were increased in i as compared to I membranes. We conclude that the absence of highly branched glycosphingolipids in cord and i erythrocytes as well as the reduction of apparent molecular weights of the glycoconjugates, which are substrates for A-gene-specified transferase of GalNAc, result from a single cause, that is an inadequacy of the biosynthetic process which is responsible for the formation of GlcNAc1 leads to 6Gal structures.     

Assembly and routing of von Willebrand factor variants: the requirements for disulfide-linked dimerization reside within the carboxy-terminal 151 amino acids

The precursor protein of von Willebrand factor (pro-vWF) consists of four different repeated domains, denoted D1-D2-D'-D3-A1-A2-A3-D4-B1-B2-B3-C1-C2, followed by a carboxy-terminal region of 151 amino acids without obvious internal homology. Previously, we have shown the requirement of the domains D1, D2, D', and D3 of pro-vWF in the assembly of pro-vWF dimers into multimers. Here, we define the domains of vWF involved in dimerization, using deletion mutants of full-length vWF cDNA transiently expressed in monkey kidney COS-1 cells. It is shown that only the carboxy-terminal 151 amino acid residues of vWF are required for dimerization. In addition, by analyzing a construct, encoding only the carboxy-terminal 151 amino acids of vWF, we find that the formation of dimers is an event independent of other domains present on pro-vWF, such as the domains C1 and C2 previously suggested to be involved in dimerization. Furthermore, it is shown that a deletion mutant of vWF, lacking the carboxy-terminal 151 amino acid residues and thus unable to dimerize, is proteolytically degraded in the ER. In contrast, a mutant protein, composed only of the carboxy-terminal 151 amino acids of vWF, and able to dimerize, is transported from the ER in a similar fashion as wild-type vWF. The role of the ER in the assembly of vWF is discussed with regard to the data presented in this paper on the intracellular fate of several vWF mutant proteins.