Unassembled polypeptides of the plastidic ribosomes in heat-treated 70S-ribosome-deficient rye leaves

The polypeptides of the subunits of 70S ribosomes isolated from rye (Secale cereale L.) leaf chloroplasts were analyzed by two-dimensional polyacrylamide gel electrophoresis. The 50S subunit contained approx. 33 polypeptides in the range of relative molecular mass (M_r) 13000–36000, the 30S subunit contained approx. 25 polypeptides in the range of M_r 13000–40500. Antisera raised against the individual isolated ribosomal subunits detected approx. 17 polypeptides of the 50S and 10 polypeptides of the 30S subunit in the immunoblotting assay. By immunoblotting with these antisera the major antigenic ribosomal polypeptides (r-proteins) of the chloroplasts were clearly and specifically visualized also in separations of leaf extracts or soluble chloroplast supernatants. In extracts from rye leaves grown at 32° C, a temperature which is non-permissive for 70S-ribosome formation, or in supernatants from ribosome-deficient isolated plastids, six plastidic r-proteins were visualized by immunoblotting with the anti-50S-serum and two to four plastidic r-proteins were detected by immunoblotting with the anti-30S-serum, while other r-proteins that reacted with our antisera were missing. Those plastidic r-proteins that were present in 70S-ribosome-deficient leaves must represent individual unassembled ribosomal polypeptides that were synthesized on cytoplasmic 80S ribosomes. For the biogenesis of chloroplast ribosomes the mechanism of coordinate regulation appear to be less strict than those known for the biogenesis of bacterial ribosomes, thus allowing a marked accumulation of several unassembled ribosomal polypeptides of cytoplasmic origin.Abbreviations L polypeptide of large ribosomal subunit - M_r relative molecular mass - r-protein ribosomal polypeptide - S polypeptide of small ribosomal subunit - SDS sodium dodecyl sulfate     

The core protein of fibroblast proteoheparan sulphate consists of disulphide-bonded subunits.

Fibroblast proteoheparan sulphate has a disulphide-bonded subunit structure. The core protein appears to consist of two polypeptides each of Mr 80 000-100 000. As shown elsewhere [Carlstedt, Cöster, Malmström & Fransson (1983) J. Biol. Chem. in the press], both polypeptide molecules carry four to six heparan sulphate side chains (approx. Mr 20 000) and an unknown number of oligosaccharide units, giving the whole macromolecule an Mr in the range 300 000-400 000.     

Location on the Escherichia coli genome of a gene specifying O-acetylserine (thiol)-lyase

The plasmid pAB65, derived from a specialized transducing phage carrying DNA from about 52 min on the Escherichia coli genome, coded for two polypeptides of Mr approx. 34 000. The expression of one was regulated by cyst(e)ine and the cysB gene product and the other by the cysB gene product only. One of these polypeptides was a subunit of O-acetylserine (thiol)-lyase (EC 4.2.99.8); the other, associated with the E. coli membrane, was the N-terminus of the product of the lambda ben gene. The pattern of peptide synthesis directed by plasmids carrying smaller DNA fragments indicated that the gene for O-acetylserine (thiol)-lyase was transcribed clockwise. The spectrum, amino acid composition and subunit number of the enzyme were determined. The enzyme appears homologous with the Salmonella typhimurium cysK gene product. This provides further evidence for the inversion of this region of the genome.     

Purification and characterization of a new type lactose-binding Ulex europaeus lectin by affinity chromatography

A new type lactose-binding lectin was purified from extracts of Ulex europaeus seeds by affinity chromatography on a column of galactose-Sepharose 4B, followed by gel filtration on Sephacryl S-300. This lectin, designated as Ulex europaeus lectin III (UEA-III), was found to be inhibited by lactose. The dimeric lectin is a glycoprotein with a molecular mass of 70,000 Da; it consists of two apparently identical subunits of a molecular mass of 34,000 Da. Compositional analysis showed that this lectin contains 30% carbohydrate and a large amount of aspartic acid, serine and valine, but no sulfur-containing amino acids. The N-terminal amino-acid sequences of L-fucose-binding Ulex europaeus lectin I (UEA-I) and di-N-acetylchitobiose-binding Ulex europaeus lectin II (UEA-II), both of which we have already purified and characterized, and that of UEA-III were determined and compared.     

Endogenous lectin from cultured soybean cells. Chemical characterization of the lectin of SB-1 cells

A lectin has been identified in the cell line, SB-1, originally derived from the roots of Glycine max. This lectin, which we shall refer to as SB-1 lectin, was isolated on the basis of its carbohydrate-binding activity (affinity chromatography on Sepharose column derivatized with N-caproyl-galactosamine) and its immunological cross-reactivity (immunoblotting with rabbit antibodies directed against seed soybean agglutinin (SBA]. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotting analysis of SB-1 lectin revealed a major polypeptide (Mr approximately equal to 30,000) which co-migrated with seed SBA. This form of the lectin was observed in fractions purified from culture medium of SB-1 cells or supernatant fraction of SB-1 cell suspension after enzymatic removal of cell wall. Extracts of SB-1 cells under some other conditions yielded a major band (Mr approximately equal to 60,000) as revealed by SDS-PAGE and immunoblotting with rabbit anti-seed SBA; prolonged incubation of these samples in the presence of SDS resulted in the appearance of the 30-kDa polypeptide. It appears that the 60-kDa band represented a highly stable, even under SDS-PAGE conditions, dimeric form of the 30-kDa subunit. The SB-1 lectin derived from the culture medium was compared with seed SBA by gel filtration and by peptide mapping after limited proteolysis; no difference between the lectins from the two sources was found. Extracts of soybean roots fractionated on N-caproyl-galactosamine-Sepharose affinity columns yielded, upon elution with galactose, polypeptides of Mr 30,000 and 60,000. These results suggest that soybean roots contain a lectin whose polypeptide composition corresponds to that of seed SBA and SB-1 lectin.     

The magnetic properties of the nickel cofactor F430 in the enzyme methyl-coenzyme M reductase of Methanobacterium thermoautotrophicum.

Preparations of gamma-aminobutyrate (GABA)/benzodiazepine receptor from pig cerebral cortex are composed of three major bands of polypeptides (51, 55 and 57 kDa) which are purified in a ratio of approx. 2:1:1 respectively. Treatment of purified receptor preparations with cyclic AMP-dependent protein kinase resulted in major incorporation of 32P into the 55 kDa band only. The maximum incorporation achieved was 0.6 mol of 32P/mol of 55 kDa polypeptide. The phosphorylated receptor subunit (beta-subunit) displays the same apparent Mr as a band labelled irreversibly with the GABA receptor agonist [3H]muscimol. The two nonphosphorylated subunit polypeptides (51 and 57 kDa) are each labelled irreversibly with [3H]flunitrazepam and are recognized by anti-peptide antibodies specific for alpha-subunits.     

The positions of the disulfide bonds and the glycosylation site in a lectin of the acorn barnacle Megabalanus rosa

The positions of the interchain and intrachain disulfide bonds and the glycosylation site in a lectin of the acorn barnacle Megabalanus rosa were determined. The lectin (Mr 140,000) is composed of the same subunit (Mr 22,000) which is cross-linked by disulfide bonds to form a dimer. Intact lectin yielded two fragments, CB1 and CB2, by cleavage with cyanogen bromide. One intrachain and two interchain disulfide bonds were identified as Cys-53-Cys-61, Cys-14-Cys-50' and Cys-50-Cys-14', respectively, by enzymatic digestion and Edman degradation of CB1. Two intrachain disulfide bonds were determined as Cys-78-Cys-168 and Cys-144-Cys-160 by enzymatic digestion of CB2. The two intrachain disulfide bonds are well conserved through all invertebrate lectins and calcium-dependent animal lectins. S-Carboxamidomethylated lectin was digested with Staphylococcus aureus V8 proteinase and separated by reversed-phase HPLC. Glycopeptides were detected by the 4-N,N-dimethylamino-4'-azobenzene sulfonyl hyrazide method. Sequence analyses of the glycopeptides showed that a carbohydrate chain attached to Asn-39.     

Comparison between the monomeric and binary-complex forms of procarboxypeptidase A from whole pig pancreas.

Two different forms of procarboxypeptidase A (I and II) were obtained from pig pancreas extracts. The Mr values, the pattern found on polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulphate, and the sedimentation coefficients indicate that form I is a binary complex formed by two different subunits, whereas form II is a monomer. The carboxypeptidase A-precursor subunit of form I and the form II monomer are very similar with respect to Mr value, amino acid composition and fragmentation by CNBr and iodosobenzoic acid. The activation process of both forms is unspecific with respect to the activating enzyme, the peptide released during activation is unusually long (Mr approx.sor subunit of form I and the form II monomer are very similar with respect to Mr value, amino acid composition and fragmentation by CNBr and iodosobenzoic acid. The activation process of both forms is unspecific with respect to the activating enzyme, the peptide released during activation is unusually long (Mr approx.sor subunit of form I and the form II monomer are very similar with respect to Mr value, amino acid composition and fragmentation by CNBr and iodosobenzoic acid. The activation process of both forms is unspecific with respect to the activating enzyme, the peptide released during activation is unusually long (Mr approx. 12500) and, in the case of the binary complex, the activation with trypsin follows a rather complex pattern, suggesting that the accompanying subunit of form I might play a modulating role in the activation process. Although the appearance of enzymic activity is rather slow, a protein with an Mr equivalent to that of active carboxypeptidase A is found very early in the activation process. Both zymogens are glycoproteins (so far no carbohydrate has been reported in any procarboxypeptidase A) and both contain two strongly bound Zn2+ ions/molecule. Other chemical and physical properties were also determined.     

Changes in polypeptide synthesis and glycosylation in mouse embryonic fibroblast C3H/10T1/2 Cl 8 cells caused by the tumor promoter 12-O-tetradecanoylphorbol 13-acetate

The mechanism of tumor promotion is not well understood. We have used the transformable, tumor promotable, mouse embryo fibroblast C3H/10T1/2 Cl 8 cells to study tumor promoter specific changes in protein synthesis and protein glycosylation. Two-dimensional gel electrophoresis showed that 12-O-tetradecanoylphorbol 13-acetate caused a significant increase in the synthesis of five cellular and 34 extracellular polypeptides. One of these polypeptides has tentatively been identified as ornithine decarboxylase. One new polypeptide (p 62, Mr 58,000) was found in the medium of 12-O-tetradecanoylphorbol 13-acetate-treated cells. The amounts of several excreted proteins were enhanced 5-10 fold by 12-O-tetradecanoylphorbol 13-acetate. 12-O-tetradecanoylphorbol 13-acetate interfered with glycosylation both by affecting protein synthesis and also directly with glycosylation. At least 15 polypeptides in the medium and two cellular polypeptides decreased after 12-O-tetradecanoylphorbol 13-acetate treatment. Two of the major polypeptides found in the medium (p 8 and 10, Mr approx. 200,000-220,000) have properties similar to fibronectin, while p 9 and 11 both found in the cellular preparations and in the medium (Mr 180,000 and 150,000) were collagenase sensitive and their synthesis was inhibited by 12-O-tetradecanoylphorbol 13-acetate.     

Purification,characterization and molecular cloning of a monocot mannose-binding lectin from <Emphasis Type="Italic">Remusatia vivipara</Emphasis> with nematicidal activity

A mannose-binding lectin (RVL) was purified from the tubers of Remusatia vivipara, a monocot plant by single-step affinity chromatography on asialofetuin-Sepharose 4B. RVL agglutinated only rabbit erythrocytes and was inhibited by mucin, asialomucin, asialofetuin and thyroglobulin. Lectin activity was stable up to 80°C and under wide range of pH (2.0–9.3). SDS-PAGE and gel filtration results showed the lectin is a homotetramer of Mr 49.5 kDa, but MALDI analysis showed two distinct peaks corresponding to subunit mass of 12 kDa and 12.7 kDa. Also the N-terminal sequencing gave two different sequences indicating presence of two polypeptide chains. Cloning of RVL gene indicated posttranslational cleavage of RVL precursor into two mature polypeptides of 116 and 117 amino-acid residues. Dynamic light scattering (DLS) and gel filtration studies together confirmed the homogeneity of the purified lectin and supported RVL as a dimer with Mr 49.5 kDa derived from single polypeptide precursor of 233 amino acids. Purified RVL exerts potent nematicidal activity on Meloidogyne incognita, a root knot nematode. Fluorescent confocal microscopic studies demonstrated the binding of RVL to specific regions of the alimentary-tract and exhibited a potent toxic effect on M. incognita. RVL-mucin complex failed to interact with the gut confirming the receptor mediated lectin interaction. Very high mortality (88%) rate was observed at lectin concentration as low as 30 μg/ml, suggesting its potential application in the development of nematode resistant transgenic-crops.     

A D-mannose-specific lectin from Gerardia savaglia that inhibits nucleocytoplasmic transport of mRNA

A new lectin has been isolated from the coral Gerardia savaglia by affinity chromatography, using locust gum as an absorbent, and D-mannose as eluant. Final purification was achieved by Bio-Gel P300 gel filtration. The agglutinin is a protein composed of two polypeptide chains with a Mr of 14800; the two subunits are not linked by disulfide bond(s). The isoelectric point is 4.8, the amino acid composition is rich in the acidic amino acids aspartic acid and glutamic acid. The absorption maximum for the protein was at 276 nm; with a molar absorption coefficient of 1.27 X 10(5) M-1 cm-1. The lectin precipitated erythrocytes from humans (A, B and O), sheep, rabbit and carp with a titer between 2(5) and 10(10); the affinity constant for lectin binding to sheep red blood cells was 2.8 X 10(8) M-1 and the number of binding sites, 3.2 X 10(5)/cell. Ca2+ ions are required for full activity; the pH optimum lies in the range between 6 and 11. Inhibition experiments revealed that the lectin is specific for D-mannose. The lectin is mitogenic only for those spleen lymphocytes from mice which had been activated by lipopolysaccharide. An interesting feature of this lectin is its ability to bind to glycoproteins present in nuclei from CV-1 monkey kidney cells. The fluorescein-isothiocyanate-labelled lectin reacted with six polypeptides in the nuclear envelope from rat liver (Mr 190,000, 115,000, 80,000, 62,000, 56,000 and 42,000) and with two polypeptides in the nuclear matrix or pore complex lamina fraction (Mr 190,000 and 62,000). The lectin inhibited the nuclear envelope mRNA translocation system in vitro. It is suggested that this effect is due to an interaction of the lectin with the nuclear glycoproteins gp190 and/or gp62.     

Purification and Characterization of Lectin from Lathyrus sativus

Lectin has been isolated and purified from Lathyrus sativus using ammonium sulphate precipitation followed by affinity chromatography. The molecular weight as determined by HPLC was found to be 42kD. The lectin is a tetramer, consisting of two types of subunits of which the heavier subunit consists of 2 polypeptides of mol wt of about 21 kD and 16 kD while the smaller subunits consists of two polypeptides of about 5kD as revealed by SDS-PAGE. The most potent sugar inhibitor of the Lathyrus lectin was found to be α-methyl D-mannoside. The N-terminal amino acid sequence was similar to that of pea lectin sequence.     

Two-step processing of in vivo synthesized rice lectin

The synthesis and processing of rice lectin was followed in vivo in developing rice embryos. Using labelling and pulse-chase labelling experiments, the sequence of events in the synthesis and post-translational modifications of this protein could be determined. The primary lectin product observed in vivo is a high molecular weight precursor (28 K), which is post-translationally converted to a 23 K lectin protein, and in a further step cleaved into two smaller 12 K and 10 K polypeptides. The first step of the processing of the rice lectin is a rather slow process (the precursor has a half-life of about 3 h) and resembles the so-called vectorial processing of cytoplasmically made organellar proteins. The second modification consists of a (slow) proteolytic cleavage of the basic lectin subunit into two smaller polypeptides and resembles somewhat the cleavage of some legume (storage) proteins in their protein bodies.     

Use of immuno-blot techniques to discriminate between the glutathione S-transferase Yf, Yk, Ya, Yn/Yb and Yc subunits and to study their distribution in extrahepatic tissues. Evidence for three immunochemically distinct groups of transferase in the rat.

The glutathione S-transferases are dimeric enzymes whose subunits can be defined by their mobility during sodium dodecyl sulphate/polyacrylamide-gel electrophoresis as Yf (Mr 24,500), Yk (Mr 25,000), Ya (Mr 25,500), Yn (Mr 26,500), Yb1 (Mr 27,000), Yb2 (Mr 27,000) and Yc (Mr 28,500) [Hayes (1986) Biochem. J. 233, 789-798]. Antisera were raised against each of these subunits and their specificities assessed by immuno-blotting. The transferases in extrahepatic tissues were purified by using, sequentially, S-hexylglutathione and glutathione affinity chromatography. Immune-blotting was employed to identify individual transferase polypeptides in the enzyme pools from various organs. The immuno-blots showed marked tissue-specific expression of transferase subunits. In contrast with other subunits, the Yk subunit showed poor affinity for S-hexylglutathione-Sepharose 6B in all tissues examined, and subsequent use of glutathione and glutathione affinity chromatography. Immuno-blotting was employed to identify a new cytosolic polypeptide, or polypeptides, immunochemically related to the Yk subunit but with an electrophoretic mobility similar to that of the Yc subunit; high concentrations of the new polypeptide(s) are present in colon, an organ that lacks Yc.     

The bark of Robinia pseudoacacia contains a complex mixture of lectins.Characterization of the proteins and the cDNA clones.

Two lectins were isolated from the inner bark of Robinia pseudoacacia (black locust). The first (and major) lectin (called RPbAI) is composed of five isolectins that originate from the association of 31.5- and 29-kD polypeptides into tetramers. In contrast, the second (minor) lectin (called RPbAII) is a hometetramer composed of 26-kD subunits. The cDNA clones encoding the polypeptides of RPbAI and RPbAII were isolated and their sequences determined. Apparently all three polypeptides are translated from mRNAs of approximately 1.2 kb. Alignment of the deduced amino acid sequences of the different clones indicates that the 31.5- and 29-kD RPbAI polypeptides show approximately 80% sequence identity and are homologous to the previously reported legume seed lectins, whereas the 26-kD RPbAII polypeptide shows only 33% sequence identity to the previously described legume lectins. Modeling the 31.5-kD subunit of RPbAI predicts that its three-dimensional structure is strongly related to the three-dimensional models that have been determined thus far for a few legume lectins. Southern blot analysis of genomic DNA isolated from Robinia has revealed that the Robinia bark lectins are the result of the expression of a small family of lectin genes.     

The seed lectins of black locust (robinia pseudoacacia) are encoded by two genes which differ from the bark lectin genes

Two lectins were isolated from Robinia pseudoacacia (black locust) seeds using affinity chromatography on fetuin-agarose, and ion exchange chromatography on a Neobar CS column. The first lectin, R. pseudoacacia seed agglutinin I, referred to as RPsAI, is a homotetramer of four 34 kDa subunits whereas the second lectin, referred to as RPsAII, is composed of four 29 kDa polypeptides. cDNA clones encoding the polypeptides of RPsAI and RPsAII were isolated and their sequences were determined. Both polypeptides are translated from mRNAs of ca. 1.2 kb encoding a precursor carrying a signal peptide. Alignment of the deduced amino acid sequences of the different clones indicates that the 34 and 29 kDa seed lectin polypeptides show 95% sequence identity. In spite of this striking homology, the 29 kDa polypeptide has only one putative glycosylation site whereas the 34 kDa subunit has four of these sites. Carbohydrate analysis revealed that the 34 kDa possesses three carbohydrate chains whereas the 29 kDa polypeptide is only partially glycosylated at one site. A comparison of the deduced amino acid sequences of the two seed and three bark lectin polypeptides demonstrated unambiguously that they are encoded by different genes. This implies that five different genes are involved in the control of the expression of the lectins in black locust.Abbreviations LECRPAs cDNA clone encoding Robinia pseudoacacia seed lectin - LoLI Lathyrus ochrus isolectin I - PsA Pisum sativum agglutinin - RPbAI Robinia pseudoacacia bark agglutinin I - RPbAII Robinia pseudoacacia bark agglutinin II - RPsAI Robinia pseudoacacia seed agglutinin I - RPsAII Robinia pseudoacacia seed agglutinin II     

Post-translational modification of the protein-synthesis initiation factor eIF-4D by spermidine in rat hepatoma cells.

The structural characteristics and glycoprotein nature of the human growth hormone (hGH) receptor in cultured lymphocytes (IM-9 cell line) were studied with the use of a bifunctional reagent (disuccinimidyl suberate) to couple 125I-hGH covalently to intact cells. After cross-linking, the hormone-receptor complexes were analysed by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. A single band of Mr 140,000 was identified under reducing conditions. The labelling of this band was blocked by unlabelled hGH but not by insulin, ovine prolactin, bovine or ovine growth hormones. The Mr 140,000 band was immunoprecipitated by either anti-hGH antibody or by a monoclonal antibody against rat liver growth hormone receptor. In the absence of reductant two major bands of Mr 270,000 and 140,000 were found. On two-dimensional gel electrophoresis, with the first dimension in the absence of reductant and the second in its presence, the Mr 270,000 complex generated the Mr 140,000 band. The nature of the oligosaccharide chains of the receptor was studied by treatment with different glycosidases. The electrophoretic mobility of the Mr 140,000 receptor complex was markedly increased after digestion with endoglycosidase F but showed no or little change after digestion with endoglycosidase H. The Mr 140,000 band was also sensitive to neuraminidase treatment. In addition the 125I-hGH-receptor complex was adsorbed by immobilized wheat germ agglutinin and to a smaller extent by immobilized concanavalin A, lentil lectin, ricin I and ricin II. In conclusion, taking into account that hGH is a Mr 22,000 polypeptide, the binding subunit of the GH receptor in human IM-9 lymphocytes has an Mr of approx. 120,000. The native receptor may exist as a homodimer of the binding subunit formed by disulphide bonds. Furthermore, the GH receptor subunit contains asparagine N-linked type of oligosaccharide chains. Most, if not all, of these chains are of the complex type and appear to be sialylated whereas no high-mannose type chains are detectable in the mature form of the receptor.     

Properties of volkensin, a toxic lectin from Adenia volkensii

Volkensin, a highly toxic protein from the roots of Adenia volkensii (kilyambiti, kinoria), was purified by affinity chromatography on acid-treated Sepharose 6B. The toxin is a glycoprotein (Mr 62,000, neutral sugar content 5.74%) consisting of an A subunit (Mr 29,000) and of a B subunit (Mr 36,000) linked by disulfide and noncovalent bond(s). The amino acid, amino sugar, and neutral sugar composition of the protein were determined. Volkensin is a galactose-specific lectin and is a potent inhibitor of eukaryotic protein synthesis in whole cells as well as in a cell-free system (a rabbit reticulocyte lysate). The inhibitory and the lectin activities are functions of the A and B subunits, respectively. Volkensin can be included amongst the ricin-like toxins and resembles most closely modeccin, the toxin of Adenia digitata.     

Ricin and Ricinus communis agglutinin subunits are all derived from a single-size polypeptide precursor

Antibodies have been raised in rabbits against the individually purified A and B subunits of the toxic castor bean lectin, ricin, and against the A' and B' subunits of Ricinus communis agglutinin type I. Each of the antisera recognised a single polypeptide species of Mr 60 500 when maturing castor bean endosperm mRNA was translated in vitro in a rabbit-reticulocyte-derived system. When dog pancreatic microsomal vesicles were included in the translational system, each subunit antiserum precipitated a group of 66 000-68 000-Mr core-glycosylated polypeptides which had been translocated into the lumen of the vesicles. The 60 500-Mr polypeptide appeared to be a common precursor to all four individual lectin subunits since (a) its glycosylated (66 000-68 000-Mr) forms were readily detected in the endoplasmic reticulum fraction isolated from maturing castor bean endosperm and (b) pulse-chase studies showed that the glycosylated precursors disappeared from the endoplasmic reticulum fraction with the concomittant appearance of authentic lectin subunits in a soluble protein fraction which included protein body matrix components. Antiserum prepared against whole R. communis agglutinin, type I, also precipitated the 65 000-Mr precursor in vitro and in vivo, but in addition precipitated a non-glycosylated 34 000-Mr polypeptide. This smaller protein is not a lectin subunit precursor, contradicting an earlier suggestion. It is most probably a precursor to the 2-S albumin storage proteins found in castor bean endosperm protein bodies.     

The size of human factor VIII heterodimers and the effects produced by thrombin

The heterodimeric structure of factor VIII was demonstrated by two approaches. First, the native molecular weights of several partially purified fractions of factor VIII were determined by measurement of Stokes radii and sedimentation coefficients to be approx. 237 500, 201 000 and 141 000. These measured molecular weights correlated with those derived from polypeptide chain composition, in which each molecule would consist of a doublet polypeptide of Mr 83 000/81 000 plus one predominant high-Mr polypeptide of either 146 000, 120 000 or 93 000. In addition, immunoadsorption using a monoclonal antibody specific for the light-chain doublet removed all of the heavy chains. Separation of the heavy chains from the light chain by EDTA further illustrated the non-covalent nature of the heterodimers. All forms had coagulant activity which was potentiated 13-15-fold by an equimolar amount of human alpha-thrombin. Thrombin converted the Mr 83 000/81 000 doublet to one of Mr 73 000/71 000, and cleaved the largest polypeptides to a transient intermediate form of Mr 93 000 which was further cleaved to polypeptides of Mr 51 000 and 43 000. Potentiation of coagulant activity was correlated with proteolytic cleavage of either or both the doublet and the Mr 93 000 polypeptides. These data indicate that human factor VIII purified from plasma consists of a group of heterodimers, composed of a light chain of Mr 83 000 (81 000) and a heavy chain which varies in size between Mr 170 000 and 93 000, each form of which is similarly potentiated and cleaved by thrombin.