Identification and characterization of a mouse cell surface antigen with alternative molecular forms

We present the characterization of a new mouse cell surface protein, recognized by the 3138-specific monoclonal antibody. The expression of this antigen is predominantly restricted to the hematopoietic and lymphoid tissues: bone marrow, spleen, lymph node, and thymus. Immunoblot analyses show that the 3138 determinant is present on molecules with different apparent relative masses. The 3138 antigen migrates on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single band of M _r 115 000 for normal nonstimulated spleen cells and thymocytes and as two bands of M _r 115 000 and M _r 125 000 for bone marrow cells and mitogen-stimulated spleen cells. The multiple sizes of the 3138 antigens (isoforms) found on various cell lines are not due to allelic polymorphism, but instead may reflect the specific cell type or reflect the cell's state of activation or maturation. Results from lectin chromatography and N-glycanase and neuraminidase studies suggest that the 3138 antigen is a heavily sialylated O-linked glycoprotein. The unusual features of this antigen indicate that it may be the mouse homologue of the rat W3/13 antigen and the human leukosialin/sialophorin antigens.Abbreviations used in this paper Con A concanavalin A - Gal galactose - Ga1Nac N-acetyl galactosamine - Ig immunoglobulin - IL-2 interleukin 2 - 2-ME 2-mercapto-ethanol - M _r relative mass - PAGE polyacrylamide gel electrophoresis - PMSF phenylmethylsulfonyl fluoride - SDS sodium dodecyl sulfate - Th T helper - TX-100 Triton X-100 - TTS 0.3% TX-100, 0.01 M Tris, pH 7.4, 0.15 M NaCl     

Identification of the insulin receptor in undifferentiated and differentiated NB-15 mouse neuroblastoma cells by affinity labeling

Plasma membranes prepared from clonal NB-15 mouse neuroblastoma cells were sequentially incubated with ¹²⁵I-labeled insulin (10 nM) and the bifunctional cross-linking agent disuccinimidyl suberate. This treatment resulted in the cross-linking of ¹²⁵I-labeled insulin to a polypeptide that gave an apparent M_r of 135 000 on a sodium dodecyl sulfate-polyacrylamide gel electrophoresed in the presence of 10% β-mercaptoethanol. Affinity labeling of this polypeptide was inhibited by the presence of 5 μM unlabeled insulin, but not by 1 μM unlabeled nerve growth factor. Using the same affinity labeling technique, ¹²⁵I-labeled nerve growth factor (1 nM) did not label any polypeptide appreciably in the plasma membranes of NB-15 cells but labeled an M_r 145 000 and an M_r 115 000 species in PC-12 rat pheochromocytoma cells. The number of insulin binding sites per cell in the intact differentiated NB-15 mouse neuroblastoma cells was approx. 6-fold greater than that in the undifferentiated NB-15 mouse neuroblastoma cells as measured by specific binding assay, suggesting an increase of the number of insulin receptors in NB-15 mouse neuroblastoma cells during differentiation.     

Functional characterization of single-chain factor X from rat liver

¹⁴C-Labeled single-chain factor X prepared by vitamin K-dependent carboxylation in vitro was partially purified by adsorption to BaSO₄ and chromatography on DEAE-Sephacel. Known activators of factor X were analyzed for their effect on the single-chain molecule. ¹⁴C-Labeled factor X antigens were recovered immunochemically from incubation mixtures and characterized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Incubation with trypsin resulted in the generation of factor Xa clotting activity, and the ¹⁴C-labeled product migrated after reduction with an apparent molecular weight of 22,500 ± 1500 (mean ± 1 SD). The light chain produced by factor Xa was similar to that produced by trypsin (M_r 24,500 ± 1500; mean ± 1 SD). Incubation of single-chain factor X with factor VII and thromboplastin, factor IXa, or the factor X activating enzyme from Russell's viper venom gave a reducible product with a light chain of higher apparent molecular weight (M_r 37,000–38,000). Incubation with factor VII and thromboplastin also resulted in the generation of factor Xa clotting activity. Incubation of single-chain factor X with platelets resulted in the binding of about 20% of the ¹⁴C. The bound ¹⁴C-labeled factor X antigen released by freezing and thawing in the presence of EDTA was reduced to give a ¹⁴C-labeled polypeptide with M_r 31,000. Walker 256 tumor cells bound about 30% of the ¹⁴C. The bound material, after reduction, gave a ¹⁴C-labeled polypeptide with M_r 23,000.     

A human homolog of the mouse CD8 molecule,Lyt-3: genomic sequence and expression

The CD8 antigen is a marker for those cytotoxic T cells that recognize antigen in the context of class I major histocompatibility antigens (MHC) and has now been identified in many species. In rodents the CD8 antigen is a heterodimer of two distinct chains, Lyt-2 and Lyt-3 in the mouse and OX-8 M _r 32 000 and 37 000 chains in the rat. Human CD8 has consistently been described as a homodimer/homomultimer on mature T cells made up of one chain homologous to the Lyt-2 and OX-8 M _r 32 000 chains. This paper identifies a human equivalent of the second rodent CD8 chain (Lyt-3 and OX-8 M _r 37 000 chains) at the genomic level and shows that this gene is transcribed in human thymocytes and in some acute leukemic T-cell lines. The existence of a human Lyt-3 homolog raises the possibility that human CD8, like mouse CD8, may exist as a heterodimer.     

DIFFERENTIATION OF ULVA MUTABILIS (CHLOROPHYTA) GAMETANGIA AND GAMETE RELEASE ARE CONTROLLED BY EXTRACELLULAR INHIBITORS1

Blade cells of Ulva mutabilis Føyn (Chlorophyta) excrete regulatory factors into their cell walls and into the environment. These factors are essential for the maintenance of the vegetative state. “Sporulation inhibitor-1a” (SI-1a) is a glycoprotein that was isolated from the culture medium of axenic Ulva growing as an undifferentiated callus. This protein was unusually stable to denaturing treatments and showed an extremely high apparent molecular mass (M_r) of 1–4 × 10⁷ daltons estimated by size exclusion chromatography. The glycosylation was not essential for activity. SI-1a suppressed gametogenesis completely at concentrations lower than 10^?14 M. When Ulva developed normally in the presence of their symbiotic bacteria, smaller forms of SI-1 accumulated in the medium (10⁴–10⁶ daltons). Sporulation inhibitors of the same size spectrum and with similar properties were also extracted from crude cell walls of nonaxenic Ulva. A class of different nonprotein sporulation inhibitors (SI-2) of very low M_r and yet unknown structure was isolated from the inner space between the two blade cell layers. Excretion of all SI-1 forms decreased with maturation of the thallus, whereas the overall concentration of SI-2 in the thallus stayed constant throughout the life cycle. The SI-2 affected different Ulva species whereas SI-1 was species-specific. Gametogenesis was induced upon removal of both Sporulation inhibitors from small single-layered fragments of mature blades. After a “determination phase” of 23–46 h, dependent on the time of induction within the cell cycle, the cells became irreversibly committed to differentiation and were no longer susceptible to SI-1 or SI-2. Subsequently, during a 28-h “differentiation phase,” 16 progametes were formed by synchronous genome doublings and cell divisions and differentiated into mature gametes. These became motile and were released from the gametangia when the concentration of a “swarming inhibitor” of low M_r, excreted mainly during the “determination phase,” declined below a threshold concentration. The biochemical properties of these regulatory factors and their effects on gametogenesis and gamete release are described.     

Conservation of antigen 3G6: A crystalline cone constitutent in the compound eye of arthropods

A monoclonal antibody (MAb), 3G6, highly selective for neuropil glia in the CNS of the house cricket Acheta domesticus, also demonstrates remarkable selectivity for the nonneuronal crystalline cone cells of the compound eye. MAb 3G6 labels cone cells in eucone eyes throughout Insecta, from ancestral forms such as the bristle tail to the more recent honeybee; eucone structures are also recognized in Crustacea. Analogous nonneural structures found in pseudocone or acone eyes also express detectable 3G6 immunoreactivity. Immunoblot analysis demonstrates that MAb 3G6 binds to similar M_r 85 kDa glycoproteins in the cricket CNS and retina, corresponding to the glial and crystalline cone forms of the antigen. Further, polypeptides of similar relative mass are also recognized in the eucone eye of the butterfly Pieris and the pseudocone eye of the fly Calliphora. The properties and function of glycoprotein 3G6 in the CNS and retina are yet to be explored. However, the finding that a unique antigen is highly conserved within the crystalline cone or analogous regions of the retina throughout the Arthropoda lends support at the molecular level to the notion that the arthropod compound eye has a monophyletic origin.     

Calcium channels and GABA receptors in the early embryonic chick retina

The properties of calcium channels were studied at the period of neurogenesis in the early embryonic chick retina. The whole neural retina was isolated from embryonic day 3 (E3) chick and loaded with a Ca²⁺-sensitive fluorescent dye (Fura-2). The retinal cells were depolarized by puff application of high-K⁺ solutions. Increases in intracellular Ca²⁺ concentrations were evoked by the depolarization through calcium channels. The type of calcium channel was identified as l-type by the sensitivity to dihydropyridines. The Ca²⁺ response was completely blocked by 10 μM nifedipine, whereas it was remarkably enhanced by 5 μM Bay K 8644. Then we sought a factor to activate the calcium channel and found that GABA could activate it by membrane depolarization at the E3 chick retina. Puff application of 100 μM GABA raised intracellular Ca²⁺ concentrations, and this Ca²⁺ response to GABA was also sensitive to the two dihydropyridines. Intracellular potential recordings verified clear depolarization by bath-applied 100 μM GABA. The Ca²⁺ response to GABA was mediated by GABA_A receptors, since the GABA response was blocked by 10 μgM bicuculline or 50 μM picrotoxin, and mimicked by muscimol but not by baclofen. Neither glutamate, kainate, nor glycine evoked any Ca²⁺ response. We conclude that l-type calcium channels and GABA_A receptors are already are already expressed before differentiation of retinal cells and synapse formation in the chick retina. A possibility is proposed that GABA might act as a trophic factor by activating l-type calcium channels via GABA_A receptors during the early period of retinal neurogenesis. © 1993 John Wiley & Sons, Inc.     

Occurrence and biosynthesis of catalase at different stages of seed maturation

It was to be shown whether during the biogenesis of microbodies some of their components were already present in the cell prior to the organelle's assembly. To this end, the occurrence and properties of catalase in soluble and particular fractions of ripening cucumber seeds were examined. Homogenates of seeds from ripening fruits were fractionated by isopycnic density gradient centrifugation, and thus catalase was found in three different fractions: as a soluble enzyme in the gradient supernatant, as a membrane fraction at density d=1.18 kg l^-1, and in association with microbodies. In the early steps of seed formation, catalase was detected at density d=1.18 kg l^-1 and in the gradient supernatant. At a later stage of seed maturation, however, catalase was primarily associated with microbodies which exhibited an equilibrium density of d=1.23 kg l^-1. M _r as well as subunit M _r of catalase were determined, and their close immunological relationship to leaf peroxisomal catalase and glyoxysomal catalase was demonstrated. Biosynthesis of catalase at different stages of seed maturation was investigated by in vivo labeling with l-[³⁵S]methionine, l-[¹⁴C]leucine and -[³H]aminolaevulinic acid. Electrophoretic analysis of de novo synthesized catalase subunits revealed the occurrence of a heavy form (M _r 57,500) in the soluble fraction; this form was preferentially labeled. A light form, M _r 53,500, was detected in microbodies and also in the soluble fraction. The findings lend support to the hypothesis that the rate of catalase synthesis is highest in an early stage of seed formation, when globulins have already been formed, but before de novo synthesis of malate synthase has commenced. Prior to microbody assembling, a cytoplasmic pool of catalase was labeled.Abbreviations EDTA Na₂-ethylenediaminotetraacetate - Hepes 4-(2-Hydroxyethyl)-1-piperazineethanesulfonic acid - M _r molecular weight     

Chick embryonic erythrocyte antigen—Tissues sharing expression

There is an antigenic glycoprotein (M_r 48 kD) present on the surfaces of erythrocytes of embryonic and young chickens that cannot be detected on the circulating erythrocytes in adult birds. This antigen, generally defined by this differential expression, has been thought to be associated with the maturation of hematopoietic tissues. We now present evidence, based on the use of a monoclonal antibody, maEE1, and the characteristic pattern of this glycoprotein on two-dimensional (2D) gels, that this antigen, which we have named chickEE, is expressed in a number of other embryonic and adult tissues. Immunofluorescent labeling of cryosections and flow-cytometric analysis of cells labeled with maEE1 have revealed the presence of chickEE in the retina (present in all layers), in muscle tissues (present in the endomysium and within the vascular endothelium), in the liver (especially evident on the lateral surface of hepatocytes and within the sinusoids), on epithelia such as the gut and kidney tubule epithelium and within lymphoid organs (present on bursacytes, splenocytes, thymocytes and peripheral leukocytes, and again within the endothelium) of young and adult animals. The 2D gel patterns of chickEE derived from embryonic tissues (retina, hind limb, thymus and bursa) and the adult tissues (retina and spleen) are very similar to that of the embryonic erythrocyte. Thus, the extended reactivity of the monoclonal antibody to chickEE, maEE1, with additional tissues is, in at least the tissues examined, based on the presence of the chickEE glycoprotein and not on incidental cross-reactivity. The evidence presented in this paper for the widely-shared expression of chickEE antigen makes it necessary to reconsider the function of this component of the cell surface.     

Structure and expression of the mouse homologue of the XK gene

 The human Kx blood group antigen is carried by a 37 000 M _r apparent molecular mass membrane polypeptide which is deficient in rare individuals with the McLeod syndrome. The X-linked human XK gene is transcribed in many tissues including adult skeletal muscle and brain, sieges of disorders observed in McLeod syndrome. We report here the cloning of the orthologous mouse XK mRNA. Comparison of XK from human and mouse revealed 80% sequence similarity at the amino acid level. The mouse XK gene is organized in two exons and is expressed in many tissues, but its expression pattern is slightly different from that of the human gene. The presence in mouse erythrocyte membrane of a 43 000 M _r Kx-related protein was demonstrated by immunoblotting with a rabbit antiserum directed against the human protein. With non-reduced samples, a 140 000 M _r species was detected instead of the 43 000 M _r protein, suggesting that, as demonstrated in the Kx polypeptide might be complexed with another protein in mouse red cells, presumably the homologue of the human Kell protein of 93 000 M _r. Received: 22 February 1999 / Revised: 8 June 1999     

Evidence for Chloroplastic Localization of an Ammonium-Inducible Glutamate Dehydrogenase and Synthesis of Its Subunit from a Cytosolic Precursor-Protein in Chlorella sorokiniana

Chlorella sorokiniana cells, cultured for 12 hours in 30 millimolar ammonium medium, contained an ammonium inducible nicotinamide adenine dinucleotide phosphate-specific glutamate dehydrogenase (NADP-GDH) isoenzyme with subunits having a molecular weight of 53,000. In vitro translation of total cellular poly(A)⁺ RNA, isolated from fully induced cells, resulted in synthesis of an NADP-GDH antigen with a molecular weight of 58,500. The 58,500 dalton antigen was processed in vitro, with a 100,000g supernatant prepared from broken fully induced Chlorella cells, to a protein with a molecular weight of 53,000. These data support the inference that the NADP-GDH subunit (M_r = 53,000) is initially synthesized as a larger precursor protein (M_r = 58,500). By use of a cytochemical staining procedure, dependent upon NADP-GDH catalytic activity, the holoenzyme was shown to be chloroplast-localized. An immunoelectron microscopy procedure, employing anti-NADP-GDH immunoglobulin G and Protein A-gold complex, showed that NADP-GDH antigen was absent from the nucleus but present in both the chloroplast and cytosol. Since synthesis of the enzyme can be inhibited by cycloheximide, the detection of NADP-GDH antigen in the cytosol was probably due to binding of the NADP-GDH antibody to nascent polypeptide chains of the precursor-protein being synthesized on cytosolic 80S ribosomes.     

Characterization of membrane permeability alterations induced in vero cells by Clostridium perfringens enterotoxin

Alterations in plasma membrane permeability induced by Clostridium perfringens enterotoxin were studied using Vero (African green monkey kidney) cells which were radioactively labeled with four markers of different molecular size. The markers were α-amino[¹⁴C]isobutyric acid (M_r 103), ³H-labeled nucleotide (M_r approx. 300), ⁵¹Cr label (M_r approx. 3000) and [³H]RNA (M_r > 25 000). Over a 2 h period, enterotoxin caused significant release of aminoisobutyric acid, nucleotides and ⁵¹Cr label but not RNA. The effects of enterotoxin on label release were dose- and time-dependent. The rate of release of markers was dependent upon their size. Permeability alterations could be detected within 15 min with a high dose of enterotoxin. Gel chromatography of released material was used to determine that markers of M_r 3000 but not 25 000 leaked from permeabilized cells. It was concluded that enterotoxin is producing functional ‘holes’ of limited size in the membrane. Permeability changes due to enterotoxin treatment differed between confluent and non-confluent (growing) cells. We propose that the primary action of the enterotoxin is to interact with the plasma membrane and produce functional ‘holes’ of defined size. The resultant alterations in membrane permeability cause the loss of essential cellular substances which inhibits processes such as macromolecular synthesis and eventually leads to cell deterioration and death.     

Affinity labeling of high-affinity α-thrombin binding sites on the surface of hamster fibroblasts

The serine proteinase α-thrombin potently stimulates reinitiation of DNA synthesis in quiescent Chinese hamster fibroblasts (CCL39 line). ¹²⁵I-labeled α-thrombin binds rapidly and specifically to CCL39 cells with high affinity (K_d ≈ 4 nM). Binding at 37°C was found to remain stable for 6 h or more during which time no receptor down-regulation, ligand internalization and/or degradation could be detected. The structure of α-thrombin receptors on CCL39 cells was identified by covalently coupling ¹²⁵I-α-thrombin to intact cells using a homobifunctional cross-linking agent, ethylene glycol bis(succinimidyl succinate). By resolution in sodium dodecyl sulfate polyacrylamide gel electrophoresis we observed the specific labeling of a major α-thrombin-binding site of M_r ≈ 150 000 revealed as a ¹²⁵I-α-thrombin cross-linked complex of M_r ≈ 180 000. Independent of chemical cross-linking, ¹²⁵I-α-thrombin also formed a covalent complex with a minor, 35 000 M_r, membrane component identified as protease nexin. Two derivatives of α-thrombin modified at the active site are 1000-fold less than α-thrombin for mitogenicity. These two non-mitogenic derivatives bound to cells with similar affinity and maximal binding capacity as native α-thrombin, and affinity-labeled the receptor subunit of M_r 150 000. When present in large excess, during incubation of cells with α-thrombin, these binding antagonists were ineffective in blocking α-thrombin-induced DNA synthesis. These data suggest that the specific 150 000 M_r binding sites that display high affinity for α-thrombin do not mediate induction of the cellular mitogenic response.     

A Cryptosporidium parvum oocyst low molecular mass fraction evokes a CD4+ T-cell-dependent IFN-γ response in bovine peripheral blood mononuclear cell cultures

T-Cell antigens that induce the in-vitro interferon-gamma response during Cryptosporidium parvum infection of neonatal calves were identified. A total oocyst extract was separated into a high and a low M_r fraction by a microfiltration technique. Both the high and low M_r fractions evoked an in-vitro interferon-gamma response in naturally infected animals, although strong individual differences between the hosts were observed. Using a complement-mediated technique CD4⁺ T-cells or WC1⁺γδ T-cells were depleted, whereupon the remaining lymphocyte cultures were stimulated with the different antigen preparations. It was shown that the in-vitro interferon-gamma response of Cryptosporidium-infected calves is CD4⁺ T-cell-dependent.     

Differential Glycosylation of the 5A11/HT7 Antigen by Neural Retina and Epithelial Tissues in the Chicken

Abstract: The 5A11/HT7 antigen, a member of the immunoglobulin supergene family, has been implicated in heterotypic cell-cell interactions during retina development. Immunopurified 5A11 antigen isolated from Nonidet P-40-solubilized retina membranes had two components as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), a 45.5-kDa doublet and a 69-kDa polypeptide. Immunoreactive bands of 46-50 kDa were recognized following SDS-PAGE of detergent-solubilized membrane proteins from liver, kidney, and erythrocytes. Treatment with N-glycosidase F (EC 3.2.2.18) converted the 45.5–50-kDa immunoreactive polypeptides from all tissues to 32 kDa, indicating that the observed differences in molecular mass were due to differences in glycosylation. N-Glycosidase Ftreatment also converted the 69-kDa form from retina to 46 kDa, indicating a different polypeptide core than the 32-kDa species. Treatment with endo-β-N-acetylglucosaminidase H (EC 3.2.1.96) resulted in modest increases in electrophoretic mobility due to hydrolysis of high mannose or hybrid oligosaccharides and lack of hydrolysis of complex oligosaccharides resistant to endo-β-N-acetylglucosaminidase H digestion. Immunoreactivity was retained after deglycosylation. Much of the difference in molecular weight could be attributed to variations in sialylation. The higher molecular mass species of the 45.5-kDa doublet from retina and the polypeptides from other tissues were susceptible to neuraminidase (EC 3.2.1.18) and O-glycosidase (endo-α-N-acetylgalactosaminidase; EC 3.2.1.97) digestion. Labeling with elderberry bark lectin (specific for α2, 6-linked sialic acid) was confined to the higher molecular mass species of the 45.5-kDa doublet and was considerably greater in antigen derived from epithelia rather than neural retina. In paraffin sections of chick retina, elderberry bark lectin staining was confined to the retinal pigmented epithelium, photoreceptor cells, and bipolar cells with no staining of the Müller cells, which bear the bulk of the 5A11 antigen. These results indicate tissue-specific posttranslational modifications, particularly differences in sialylation of antigen-bearing polypeptides.     

Helix pomatia agglutinin binds specifically to the Golgi apparatus in cultured human fibroblasts and reveals two Golgi apparatus-specific glycoproteins

Summary Fluorochrome-coupled Helix pomatia agglutinin (HPA), but not other lectin-conjugates with the same nominal specificity, bound specifically to the Golgi apparatus in cultured human fibroblasts, revealing a cytoplasmic juxtanuclear reticular structure. Unlike other Golgi-binding lectins the HPA-conjugates did not bind to the cell surface membrane or pericellular matrix. Experiments with ³⁵S-methionine-labeled cells showed that HPA recognized two glycoproteins of M_r 170000 and 400000 among the secreted products of fibroblasts and two major cellular glycoproteins of M_r 40000 and M_r 180000 in Triton X-100 extracts of the cells. The two cellular HPA-binding polypeptides were also found in cells depleted of secretory products and in cells pulselabeled shortly with ³⁵S-methionine and then chased with methionine containing medium up to 12 h. These findings suggest that the two cellular glycoproteins recognized by HPA are retained in the Golgi apparatus and are therefore not precursors of secretory proteins. The results suggest that there are two endogenous, Golgi apparatus-specific glycoproteins in cultured human fibroblasts with terminal non-reducing O-glycosidic N-acetyl galactosaminyl residues.     

An acidic modification of the cytoplasmic domain contributes to the charge heterogeneity of the MHC class I antigens

 Polypeptide phosphorylation and sialylation of the glycan moieties contribute to the charge heterogeneity of the class I major histocompatibility complex glycoproteins. The present study demonstrates that a unique acidic modification unrelated to phosphorylation or glycosylation also affects the charge heterogeneity of the H2-K^k heavy chain of BW5147 lymphoma cells. In vitro cultivation of BW5147 cells results in changes in charge heterogeneity of the H2-K^k heavy chains due to the unique acidic modification. Sequential papain digestion of the 45 000 M _r H2-K^k glycoprotein yields a 42 500 M _r glycopolypeptide initially, followed by production of a 39 000 M _r glycopolypeptide. Results from experiments designed to localize and characterize the novel acidic modification suggest that the modification resides in the segment of the H2-K^k polypeptide located between the two papain cleavage sites. This portion of the polypeptide consists of the transmembrane region and part of the cytoplasmic domain of the H2-K^k heavy chain. At steady state, 25% of the total cell surface H2-K^k possesses this modification. In addition, the modification is mutually exclusive with the phosphorylation of the H2-K^k heavy chain at Ser-333. The possible biological significance of the novel modification of class I antigens is discussed. Received: 27 May 1997 / Revised: 10 September 1997     

Catfish Thrombocytes Express an Integrin-like CD41/CD61 Complex

A thrombocyte-specific antigen was identified in two closely related catfish,Ictalurus punctatusandIctalurus furcatus,by monoclonal antibodies 4-20 and 7-2. The antibodies immunoprecipitate two noncovalently associated glycoprotein chains ofM_r180,000 andM_r95,000. Under reducing conditions theM_r180,000 chain is resolved intoM_r150,000 and 32,000 subcomponents. Analysis of N-terminal amino acid sequences indicates homology of theM_r95,000 chain with the β₃integrin subunit and homology of theM_r150,000 chain with the α_IIbintegrin subunit. These antibodies induce catfish thrombocyte aggregation and alteration of cell shape. The data indicate conservation of the megakaryocyte/platelet-restricted CD41/CD61 complex in bony fish.     

Protein synthesis by Beggiatoa alba B18LD in the presence and absence of sulfide

The interaction of sulfide oxidation and protein synthesis by Beggiatoa alba B18LD was investigated using the incorporation of radiolabeled leucine to estimate protein synthesis. Leucine was assimilated into whole cells in the presence of 6.1 mM acetate at a rate of 0.6 nmol · min^-1 · mg protein^-1, 43% of which was incorporated into the protein fraction. Protein synthesis by B. alba was unaffected by 1 mM sulfide, whether or not the cells had been preincubated with sulfide. B. alba oxidized radioactive sulfide to sulfur within 30 s of addition of the label, whether or not the organism was preinduced by sulfide. Furthermore, chloramphenicol, which inhibited protein synthesis, did not significantly inhibit sulfide oxidation by sulfide-induced or uninduced B. alba. This indicates that sulfide oxidation is a constitutive process. Enrichments of sulfur inclusions from B. alba B18LD that were analyzed by polyacrylamide gel electrophoresis demonstrated two enriched peptides with M_r values of 13,000 and 15,000. The 13,000 and 15,000 M_r peptide bands were more evident in cells grown in a medium containing sulfide than in cells from a medium lacking sulfide. Although sulfide did not increase the rate of overall protein synthesis, the synthesis of a few peptides was increased by the addition of sulfide to the growth medium. Among those, the 15,000 M_r peptide was one of the most distinctive.Non-standard abbreviations SDS-PAGE Sodium dodecyl sulfate polyacrylamide gel electrophoresis - PPO 2,5-diphenyloxazole - POPOP 1,4-bis [5-phenyl-2-oxazolyl]-benzene - BSS basal salts solution - BH Beggiatoa heterotrophic (medium) - BSO Beggiatoa sulfide oxidation (medium) - CM chloramphenicol - TCA trichloroacetic acid - M_r molecular mass     

Calmodulin-binding proteins: Visualization by I-calmodulin overlay on blots quenched with tween 20 or bovine serum albumin and poly(ethylene oxide)

To streamline detection of calmodulin-binding proteins, blotting techniques for the electrophoretic transfer of proteins onto nitrocellulose filters, followed by overlay with ¹²⁵I-calmodulin, have been adapted. Autoradiography of the ¹²⁵I-calmodulin-labeled blots allows the identification and quantitation of proteins that possess affinity for calmodulin. Five protocols for suppressing nonspecific binding and for enhancing specific interactions of ¹²⁵I-calmodulin with electrophoretically separated proteins were investigated. Tween 20 and bovine serum albumin alone, as well as combinations of bovine serum albumin and poly(ethylene oxide) or hemoglobin and gelatin, were evaluated as quenching and enhancing agents. Tween 20 proved highly effective for quenching nonspecific binding and for enhancing specific ¹²⁵I-calmodulin binding of a 61,000-M_r rat brain protein, which was only faintly observed on blots quenched with proteins alone. However, Tween 20 dissociated 50% of 68,000-M_r proteins and 80% of 21,000-M_r ¹²⁵I-labeled protein standards from the nitrocellulose filter. An alternative, the combination of bovine serum albumin followed by incubation with 15,000- to 20,000-M_r poly(ethylene oxide), proved satisfactory for the recovery of 61,000-M_r calmodulin-binding activity and for the detection of calmodulin-binding peptides (50,000 to 14,000 M_r) produced by limited proteolysis of rat brain 51,000-M_r calmodulin-binding protein. These blotting procedures for detection of calmodulin-binding proteins are compatible with a variety of one-dimensional and two-dimensional electrophoresis systems, including a two-dimensional electrophoresis system utilizing urea and sodium dodecyl sulfate in the first dimension and nonurea sodium dodecyl sulfate electrophoresis in the second, a system which proved useful for resolving calmodulin-binding proteins displaying anomalous electrophoretic migration in the presence of urea.