Domain structure of proteoheparan sulphate from confluent cultures of human embryonic skin fibroblasts.

Radiolabelled proteoheparan sulphates were isolated from confluent monolayers of fibroblasts and from their spent media. The cell-surface-associated proteoglycan (Mr 350 000) has a core protein of Mr 180 000 that is cleaved by reduction of disulphide bonds into polypeptides of Mr 90 000, both of which can bind transferrin [Fransson, Carlstedt, Cöster & Malmström (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 5657-5661]. Thrombin digestion of the proteoglycan yielded two major fragments. The larger one contained the heparan sulphate chains and glycoprotein-type oligosaccharides, whereas the smaller one contained interchain disulphide bond(s) and had affinity for transferrin as well as for octyl-Sepharose. The larger thrombic fragment was cleaved by trypsin into fragments containing the heparan sulphate chains and the oligosaccharides respectively. The smaller proteoheparan sulphate derived from the culture medium (Mr 150 000) had a core protein of Mr 30 000, which contained heparan sulphate-attachment and oligosaccharide-attachment regions, but no domains for binding of transferrin or for hydrophobic interactions.     

Basement-membrane heparan sulphate with high affinity for antithrombin synthesized by normal and transformed mouse mammary epithelial cells.

Basement-membrane proteoglycans, biosynthetically labelled with [35S]sulphate, were isolated from normal and transformed mouse mammary epithelial cells. Proteoglycans synthesized by normal cells contained mainly heparan sulphate and, in addition, small amounts of chondroitin sulphate chains, whereas transformed cells synthesized a relatively higher proportion of chondroitin sulphate. Polysaccharide chains from transformed cells were of lower average Mr and of lower anionic charge density compared with chains isolated from the untransformed counterparts, confirming results reported previously [David & Van den Berghe (1983) J. Biol. Chem. 258, 7338-7344]. A large proportion of the chains isolated from normal cells bound with high affinity to immobilized antithrombin, and the presence of 3-O-sulphated glucosamine residues, previously identified as unique markers for the antithrombin-binding region of heparin [Lindahl, Bäckström, Thunberg & Leder (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 6551-6555], could be demonstrated. A significantly lower proportion of the chains derived from transformed cells bound with high affinity to antithrombin, and a corresponding decrease in the amount of incorporated 3-O-sulphate was observed.     

Cathepsin D from pig myometrium. Characterization of the proteinase.

The purification of cathepsin D from pig uterus by two-step affinity chromatography on concanavalin A- and pepstatin-Sepharose was described previously [Afting & Becker (1981) Biochem. J. 197, 519-522]. In this paper, chemical and physical properties of the proteinase are presented. The purified enzyme showed three bands on SDS (sodium dodecyl sulphate)/polyacrylamide-gel electrophoresis, one main band corresponding to an Mr of 31 000 and two minor bands with Mr values of 43 000 and 15 000 respectively. Gel filtration on Bio-gel P-150 and sedimentation-diffusion equilibrium studies give an Mr for the main band of about 35 000. The pI of the enzyme was determined to be 7.2. Haemoglobin was the best substrate, with a Km value of 6.4 X 10(-6)M. It was hydrolysed with a pH optimum between 3.0 and 3.3 for a substrate concentration of 100 microM. The proteinase was stable over the pH range of 3.5-6.5. At pH 6 the enzyme showed stability up to a temperature of 50 degrees C; at pH 3 the activity was already decreased below 40 degrees C. Carbohydrate studies resulted in the staining of all three bands on an SDS/polyacrylamide gel by thymol/H2SO4. After treatment with endo-beta-N-acetylglucosaminidase H, all three bands were shifted to a region of lower Mr. Of various inhibitors tested, only pepstatin was strongly inhibiting, with a Ki of 2.1 X 10(-9)M.     

Covalent labelling of the lutropin binding site. Evidence for a single Mr 90000 sialoglycopolypeptide.

Membrane-associated sialoglycopolypeptides of rat ovaries were oxidized with NaIO4, reduced with NaB3H4 and solubilized with Triton X-100. The solubilized proteins carrying the 3H label were subjected to affinity chromatography on human choriogonadotropin coupled to agarose. Polyacrylamide-gel electrophoresis in sodium dodecyl sulphate followed by fluorography revealed a single component of apparent Mr 90000. This component was abolished when ovaries saturated with choriogonadotropin were used as starting material. The above result is identical to that obtained previously by conventional detection methods [ Metsikk ö & Rajaniemi (1982) Biochem. J. 208, 309-316] and indicates that the 3H-labelled lutropin/choriogonadotropin sialoglycopolypeptide was observed. The affinity-purified 3H-labelled protein co-eluted with the choriogonadotropin-binding activity solubilized with Triton X-100 from rat ovarian particles, showed a Stokes' radius of 6.2 nm and sedimented as a single band with a sedimentation coefficient of 5.1 S. The sedimentation coefficient of this 3H-labelled protein was not significantly altered when boiled in 1% sodium dodecyl sulphate, indicating that non-covalently associated subunits were not present. The 3H-labelled protein cosedimented with the choriogonadotropin-binding activity solubilized with Triton X-100 from rat ovary. When 125I-choriogonadotropin-receptor complex was covalently crosslinked with glutaraldehyde, an Mr 130000 component was produced as detected by sodium dodecyl sulphate gel electrophoresis. This component was extracted from the polyacrylamide gel and subjected to sucrose-density-gradient centrifugation in 0.1% Triton X-100. A single band sedimenting at the position of the 125I-choriogonadotropin-receptor complex solubilized from a prelabelled ovary was observed, exhibiting a sedimentation coefficient of 6.5S. These data suggest that the lutropin-binding site is a single sialoglycopolypeptide of Mr 90000, which binds one molecule of hormone resulting in an apparent Mr 130000 complex. The large Stokes' radius (6.2 nm) of the binding site is accounted for by bound detergent.     

Synthesis and degradation in vivo of a phosphoprotein from rat dental enamel. Identification of a phosphorylated precursor protein in the extracellular organic matrix.

The cellular enamel organ and the cell-free organic matrix of developing enamel of female rats injected intravascularly with [3H]serine and [3H]proline were extracted in a number of solvents and examined by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and h.p.l.c. in 6M-guanidinium chloride at intervals varying from 5 min to 1 week after injection. Three major species soluble in NH4HCO3 with Mr values of approx. 100 000, 25 000 and 11 000 were identified in the cellular enamel organ. The Mr 100 000 and 11 000 components were not secreted but remained intracellular for periods of up to 1 week after injection of the radioactively labelled amino acids. In contrast, the Mr 25 000 species was secreted from the cells and was first detected in the extracellular organic matrix approx. 15-30 min after injection. With time, labelled components, first of Mr approx. 11 000 and subsequently approx. 6500, were detected in the organic matrix concomitant with a relative decrease in the Mr 25 000 component, demonstrating that the lower Mr species were derived from degradation of the putative extracellular precursor protein (Mr 25 000). All of the extracellular components were found to contain O-phosphoserine. No radioactively labelled component with an Mr greater than approx. 25 000, either an amelogenin or an enamelin, was observed in the extracellular organic matrix or in an intracellular component which subsequently was lost from the intracellular pool. The Mr of the highest Mr protein or class of proteins is calculated to be approx. 22 000-26 000 when standard proteins are used as markers, but only 15 000-18 000 when using the CNBr peptides of alpha 1 chains of rat tail tendon collagen as markers.     

Affinity purification and subunit structures of beta-N-acetylhexosaminidases A and B from boar epididymis.

beta-N-Acetylhexosaminidase from boar epididymis was separated into two forms, A and B, on DEAE-cellulose. Both these forms were excluded from Sepharose S-200 and had apparent Mr values of 510 000 on gradient gel electrophoresis under non-denaturing conditions. Affinity chromatography on 2-acetamido-N-(6-aminohexanoyl)-2-deoxy-beta-D-glucopyranosylam ine coupled to CNBr-activated Sepharose 4B was used to separate and purify beta-N-acetylhexosaminidases A and B that had specific activities of 115 and 380 mumol/min per mg of protein respectively. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of denatured beta-N-acetylhexosaminidase A gave a single major component of Mr 67 000. beta-N-Acetylhexosaminidase B also had this component, and in addition had polypeptides of Mr 29 000 and 26 000. All these polypeptides were glycosylated. Antiserum to the B form precipitated form A from solution and reacted with the 67 000-Mr component or form A after electrophoretic transfer from sodium dodecyl sulphate/polyacrylamide gels to nitrocellulose sheets. The 67 000-Mr components of forms A and B yielded identical peptide maps when digested with Staphylococcus aureus V8 proteinase, and the 29 000-Mr and 26 000-Mr components in form B may be related to the 67 000-Mr polypeptide.     

Sulphated proteins secreted by rat mammary epithelial cells

The main sulphated proteins secreted by rat mammary gland tissue have Mr of approximately 32 000, 27 000 and 25 000 Da. In addition, there are high Mr components which have a diffuse electrophoretic mobility (Mr > 200 000) and most likely corresponded to proteoglycans. The sulphate groups in the proteins with discrete Mr are most likely all linked to carbohydrates. These sulphated molecules were partially purified and identified to isoforms of rat alpha-lactalbumin for the 25-27 kDa bands and to kappa-casein for the 32 kDa band. This pattern of protein sulphation is, as far as we know, quite specific to rat mammary epithelial cells.     

A rapid four column purification of 2-deoxy-D-glucoside-2-sulphamate sulphohydrolase from human liver

2-Deoxy-D-glucoside-2-sulphamate sulphohydrolase was extracted from human liver and purified 40 000-fold by a simple four column procedure. The purification was followed using a specific substrate isolated from an acid hydrolysate of heparin, O-(alpha-2-sulphamino-2-deoxy-D-glucopyranosyl)-(1 leads to 3)-L-[6,3H]idonic acid. Only one form of the enzyme was seen on either ion exchange chromatography or isoelectric focussing, with a pI of 6.8. The apparent Mr of the holoenzyme as determined by gel filtration was 190 000 +/- 20 000. Two other larger Mr protein peaks observed on gel filtration appear to be an inactive dimer of the 190 000 dalton peak and a larger aggregate near the exclusion limit of the column. On polyacrylamide disc gel electrophoresis in sodium dodecyl sulphate, with or without prior reduction, each protein peak from the gel filtration column electrophoresed as a single major band with an apparent Mr corresponding to 55 000 +/- 6000.     

Purification and characterization of a multicatalytic high-molecular-mass proteinase from rat skeletal muscle.

A proteolytic enzyme was purified from the post-myofibrillar fraction of rat skeletal muscle. The purification procedure consisted of fractionation of the muscle extract by (NH4)2SO4, chromatography on DEAE-Sephacel, fast protein liquid chromatography on Mono Q and gel filtration on Sepharose 6B. The enzyme preparation appeared to be homogeneous as judged by disc electrophoresis in polyacrylamide gels and by immunoelectrophoresis. The isoelectric point of the proteinase is at 5.1-5.2. The enzyme has an Mr of about 650 000 and dissociates into eight subunits of Mr 25 000-32 000 when subjected to electrophoresis in sodium dodecyl sulphate/polyacrylamide gels. The proteinase contains hydrolytic activity against N-blocked tripeptide 4-methyl-7-coumarylamide substrates with an arginine or phenylalanine residue adjacent to the leaving group. Maximum activity with the first group of substrates was at pH 10.5, and this activity was inhibited by leupeptin, chymostatin and Ca2+. Maximum activity with the latter group of substrates was at pH 7.5, and was also inhibited by the two microbial inhibitors, but was activated by Ca2+ ions. By using [14C]methylcasein as a substrate, maximum activity was observed at pH9.0, and this proteolytic activity was not affected by leupeptin, was enhanced by chymostatin and inhibited by Ca2+. Similar effects were observed when benzyloxycarbonyl-Leu-Leu-Glu 2-naphthylamide was used as a substrate. These enzymic activities were abolished by p-hydroxymercuribenzenesulphonic acid or mersalyl acid, whereas a small activation was observed with cysteine or dithiothreitol.     

Nature of sulphated macromolecules in mouse Reichert''s membrane. Evidence for tyrosine O-sulphate in basement-membrane proteins.

Seven different sulphated macromolecules were detected in 6 M-guanidinium chloride extracts of metabolically [35S]sulphate-labelled mouse Reichert's membrane and were partially separated. Polypeptide bands of apparent Mr 50 000, 150 000 (tentatively identified as entactin) and 170 000 contained essentially tyrosine O-sulphate as the labelled component. Most of the radioactive sulphate was incorporated into three different proteoglycans, which could be separated by chromatography and density-gradient centrifugation before and after enzymic degradation. Enzymic analysis of glycosaminoglycans and of protein cores by immunoassays identified these components as low-density and high-density forms of heparan sulphate proteoglycan and a high-density form of chondroitin sulphate or dermatan sulphate proteoglycan.     

The identification and characterization of two separate carboxylesterases in guinea-pig serum.

The esterase activity of guinea-pig serum was investigated. A 3-fold purification was achieved by removing the serum albumin by Blue Sepharose CL-6B affinity chromatography. The partially purified enzyme preparation had carboxylesterase and cholinesterase activities of 1.0 and 0.22 mumol of substrate/min per mg of protein respectively. The esterases were labelled with [3H]di-isopropyl phosphorofluoridate (DiPF) and separated electrophoretically on sodium dodecyl sulphate/polyacrylamide gels. Two main labelled bands were detected: band I had Mr 80 000 and bound 18-19 pmol of [3H]DiPF/mg of protein, and band II had Mr 58 000 and bound 7 pmol of [3H]DiPF/mg of protein. Bis-p-nitrophenyl phosphate (a selective inhibitor of carboxylesterase) inhibited most of the labelling of bands I and II. The residual labelling (8%) of band I but not band II (4%) was removed by preincubation of partially purified enzyme preparation with neostigmine (a selective inhibitor of cholinesterase). Paraoxon totally prevented the [3H]DiPF labelling of the partially purified enzyme preparation. Isoelectrofocusing of [3H]DiPF-labelled and uninhibited partially purified enzyme preparation revealed that there were at least two separate carboxylesterases, which had pI3.9 and pI6.2, a cholinesterase enzyme (pI4.3) and an unidentified protein that reacts with [3H]DiPF and has a pI5.0. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of these enzymes showed that the carboxylesterase enzymes at pI3.9 and pI6.2 corresponded to the 80 000-Mr subunit (band I) and 58 000-Mr subunit (band II). The cholinesterase enzyme was also composed of 80 000-Mr subunits (i.e. the residual labelling in band I after bis-p-nitrophenyl phosphate treatment). The unidentified protein at pI5.0 corresponded to the residual labelling in band II (Mr 58 000), which was insensitive to neostigmine and bis-p-nitrophenyl phosphate. These studies show that the carboxylesterase activity of guinea-pig serum is the result of at least two separate and distinct enzymes.     

Blood protein-inactivating atropine

A xenobiotics-inactivating hemoprotein related to the class of pharmacologically active compounds (cholinolytics) was detected in rat blood. Ammonium sulphate fractionation, DEAE cellulose chromatography and gel filtration on Sephadex G-75 resulted in 750-fold purification of the protein; its Mr = 73 000-80 000. Multiple injections of the protein to experimental animals led to a 2-3-fold increase of the protein content in the blood.     

Degradation of heparin proteoglycan in cultured mouse mastocytoma cells.

Pulse-labelling of mouse mastocytoma cell cultures, established from ascites fluid, with inorganic [35S]sulphate for 1 h yielded labelled heparin proteoglycan containing polysaccharide chains of Mr 60,000-100,000. After chase incubation for 24 h most of the 35S appeared in intracellular polysaccharide fragments similar in size to commercially available heparin, Mr 5000-25,000, as indicated by gel chromatography. Products isolated from cultures after 6 h of chase incubation consisted of partially degraded free polysaccharide chains and, in addition, residual proteoglycans that were of smaller size than the proteoglycans initially pulse-labelled. The polysaccharide chains released by alkali treatment from the residual chase-incubated proteoglycans were of the same size as the chains derived from proteoglycans after 1 h of pulse labelling. These results suggest that the intracellular degradation of heparin proteoglycan to polysaccharide fragments is initiated by release of intact polysaccharide chains, probably by action of a peptidase, and is pursued through cleavage of these chains by an endoglycosidase. An endoglucuronidase with stringent substrate specificity [Thunberg, Bäckström, Wasteson, Ogren & Lindahl (1982) J. Biol. Chem. 257, 10278-10282] has previously been implicated in the latter step. Cultures of more purified mastocytoma cells (essentially devoid of macrophages) did not metabolize [35S]heparin proteoglycan to polysaccharide fragments, but instead accumulated free intact polysaccharide chains, i.e. the postulated intermediate of the complete degradation pathway. When such purified cells were co-cultured with adherent mouse peritoneal cells, presumably macrophages, formation of polysaccharide fragments was observed. It is tentatively proposed that the expression of endoglucuronidase activity by the mast cells depends on collaboration between these cells and macrophages.     

Minactivin: a human monocyte product which specifically inactivates urokinase-type plasminogen activators

Culture supernatants from monolayers of human peripheral monocytes strongly inhibited colorimetric assays of urokinase in which plasmin was measured by esterolysis. This inhibitory activity of monocyte culture supernatant was enhanced after culture with muramyl dipeptide. Inhibition was specific for plasminogen activators of Mr 52 000 and 36 000, as shown by three methods: (1) inhibition of plasminogen-dependent fibrinolysis; (2) inhibition at the level of plasminogen activation in a colorimetric assay; (3) the irreversible loss of plasminogen-activating activity, as evidenced by electrophoresis, after preincubation with culture media. The factor responsible for this inactivation (which we propose to call minactivin) had an apparent Mr of 66 000 on Sephacryl S300 gel chromatography and interacted with enzyme in a biphasic manner: a rapid partial inhibition (reversible by sodium dodecyl sulphate) was followed by slow inactivation (irreversible by sodium dodecyl sulphate). It is proposed that secretion of minactivin by monocytes may contribute to regulation of extracellular proteolysis at sites of tissue injury.     

Inventory of human skin fibroblast proteoglycans. Identification of multiple heparan and chondroitin/dermatan sulphate proteoglycans.

Heparan sulphate and chondroitin/dermatan sulphate proteoglycans of human skin fibroblasts were isolated and separated after metabolic labelling for 48 h with 35SO4(2-) and/or [3H]leucine. The proteoglycans were obtained from the culture medium, from a detergent extract of the cells and from the remaining ''matrix'', and purified by using density-gradient centrifugation, gel and ion-exchange chromatography. The core proteins of the various proteoglycans were identified by electrophoresis in SDS after enzymic removal of the glycosaminoglycan side chains. Skin fibroblasts produce a number of heparan sulphate proteoglycans, with core proteins of apparent molecular masses 350, 250, 130, 90, 70, 45 and possibly 35 kDa. The major proteoglycan is that with the largest core, and it is principally located in the matrix. A novel proteoglycan with a 250 kDa core is almost entirely secreted or shed into the culture medium. Two exclusively cell-associated proteoglycans with 90 kDa core proteins, one with heparan sulphate and another novel one with chondroitin/dermatan sulphate, were also identified. The heparan sulphate proteoglycan with the 70 kDa core was found both in the cell layer and in the medium. In a previous study [Fransson, Carlstedt, Cöster & Malmström (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 5657-5661] it was suggested that skin fibroblasts produce a proteoglycan form of the transferrin receptor. However, the core protein of the major heparan sulphate proteoglycan now purified does not resemble this receptor, nor does it bind transferrin. The principal secreted proteoglycans are the previously described large chondroitin sulphate proteoglycan (PG-L) and the small dermatan sulphate proteoglycans (PG-S1 and PG-S2).     

The gamma-aminobutyrate/benzodiazepine receptor from pig brain. Purification and characterization of the receptor complex from cerebral cortex and cerebellum.

The gamma-aminobutyrate/benzodiazepine-receptor complex has been purified from a Triton X-100 extract of crude synaptic membranes from pig cerebral cortex and cerebellum by a combination of affinity and ion-exchange chromatography. [3H]Flunitrazepam binding activity was purified 2200-fold from cortex with an overall yield of 2%. The dissociation constants for the binding of [3H]muscimol and [3H]flunitrazepam to the receptor complex were 14 +/- 3 nM and 14 +/- 2 nM respectively. The ratio of [3H]muscimol to [3H]flunitrazepam binding sites was in the range 2.2-2.8. There appeared to be no selective inactivation of either binding site during the purification procedure. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis revealed two major polypeptides of Mr 49 000 and 55 000 from both cortex and cerebellum. When the receptor from cortex was photoaffinity labelled with [3H]flunitrazepam, radioactivity was incorporated predominantly into the Mr-49 000 polypeptide, although some radioactivity was detectable in the Mr-55 000 band. The cerebellar receptor was photoaffinity labelled on the 49 000-Mr polypeptide but not on the polypeptide of Mr 55 000. In addition, some radioactivity was detected in a minor polypeptide of Mr 43 000. When purified in the presence of 3-[(3-cholamidopropyl)dimethylammonio]propanesulphonate the same major polypeptide components (Mr 49 000 and 55 000) were isolated, but the receptor now retained its ability to be modulated by secobarbital and by the anaesthetic propanidid.     

Purification and some properties of the D-lactate-2-sulphatase of Pseudomonas syringae GG.

A soil bacterium grown on propan-2-yl sulphate as sole source of carbon and sulphur yielded extracts containing an enzyme capable of liberating sulphate from racemic lactate-2-sulphate. The enzyme was purified to homogeneity by a combination of streptomycin sulphate precipitation of nucleic acids, batch treatment with DEAE-cellulose, and chromatography on columns of DEAE-cellulose, Sephacryl S-300 and butyl-agarose. The protein was monomeric with an Mr of 55 000-60 000. The enzyme activity was specific for D-lactate-2-sulphate (Km 6.6 nM; maximal specific activity 14.3 mumol/min per mg of protein) and showed no activity towards the L-isomer. The products of the enzyme's action were inorganic sulphate and D-lactate which were released in equimolar amounts and stoicheiometrically with the amount of ester hydrolysed. No L-lactate was formed. Retention of configuration implied cleavage of the O-S bond of the C-O-S ester link and this was confirmed by 18O-incorporation experiments in which 18O from 18O-enriched water in the incubation medium was incorporated exclusively and quantitatively into inorganic sulphate. Only two other esters (serine-O-sulphate and p-nitrophenyl sulphate) of a total of 29 compounds tested were substrates for the enzyme. D-Lactate, L-lactate-2-sulphate and the substrate analogues glycollate-2-sulphate and butyrate-2-sulphate were significantly inhibitory.     

Arterial basement-membrane-like material isolated and characterized from rabbit aortic myomedial cells in culture.

Arterial basement-membrane-like material was isolated from rabbit aortic myomedial cell cultures by sonication and differential centrifugation. Isolated basement-membrane-like material was shown to be free of both cellular and matrix contaminants, on the basis of determinations of DNA, RNA, cholesterol, phosphorus and (Na+ + K+)-activated ATPase, combined with electron microscopy. Amino acid analyses showed that arterial basement-membrane-like material was composed of predominantly non-collagenous amino acids. Evaluated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, reduced basement-membrane-like material comprised six major and about 30 minor components in the Mr range 10 000-600 000. One of the major peptides (Mr 225 000) was disulphide-linked. Periodic acid-Schiff staining of gels indicated that most high-molecular-weight components were glycoproteins. Two-dimensional gel electrophoresis resolved reduced basement-membrane-like material into more than 100 components, with pI from 5 to 7. The disulphide-linked Mr-225 000 peptide appeared heterogeneous, with pI of 5.6-6.0, and was considered to represent fibronectin. All major peptides were of non-collagenous nature, on the basis of their susceptibility to pepsin and resistance to collagenase. Purified myomedial basement-membrane-like material contained collagenous peptides, as indicated by the presence of hydroxyproline and hydroxylysine. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of pepsin-treated and reduced basement-membrane-like material revealed five high-molecular-weight collagenous components appearing in the Mr range 105 000-375 000 relative to type I collagen standards.     

Identification of the AraE transport protein of Escherichia coli.

1. Two arabinose-inducible proteins are detected in membrane preparations from strains of Escherichia coli containing arabinose-H+ (or fucose-H+) transport activity; one protein has an apparent subunit relative molecular mass (Mr) of 36 000-37 000 and the other has Mr 27 000. 2. An araE deletion mutant was isolated and characterized; it has lost arabinose-H+ symport activity and the arabinose-inducible protein of Mr 36 000, but not the protein of Mr 27 000. 3. An araE+ specialized transducing phage was characterized and used to re-introduce the araE+ gene into the deletion strain, a procedure that restores both arabinose-H+ symport activity and the protein of Mr 36,000. 4. N-Ethylmaleimide inhibits arabinose transport and partially inhibits arabinose-H+ symport activity. 5. N-Ethylmaleimide modifies an arabinose-inducible protein of Mr 36 000-38 000, and arabinose protects the protein against the reagent. 6. These observations identify an arabinose-transport protein of Escherichia coli as the product of the araE+ gene. 7. The protein was recognized as a single spot staining with Coomassie Blue after two-dimensional gel electrophoresis.     

Precursors of storage proteins in Lupinus angustifolius.

The proteins that are synthesized during differentiation and development in the cotyledons of Lupinus angustifolius L. were characterized both in situ and after purification. The proteins present in situ were separated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and subjected to 'Western'-blot analysis to identify immunologically related polypeptides. The major storage proteins of the lupin, conglutins alpha and beta, were both present in juvenile tissue only as higher Mr precursors. For conglutin beta, a family of at least three polypeptides of Mr 66 000-72 000 accumulated during the earliest phases of protein synthesis in the developing cotyledon (20-28 days after flowering). Later in development each of these polypeptides disappeared and there was the concurrent appearance in the cotyledon of the lower-Mr fragments characteristic of mature conglutin beta. For conglutin alpha, an equivalent family of precursor polypeptides of Mr 60 000-83 000 was detected. Multiple internal sites for proteolytic cleavage of all these precursors appeared to be present. However, processing of the precursors was sufficiently slow to allow them to accumulate to over 50% of total soluble protein in juvenile tissue. The precursors were purified by column chromatography under non-dissociating conditions and shown by ultracentrifugation to be multimeric proteins with Mr values in the range 150 000-200 000.