Electrophoretic comparison of cellular and soluble galactosyltransferase (lactose synthetase A protein) using specific antibodies

Rabbit antisera against soluble human milk galactosyltransferase (GT) having anti-GT activity, as demonstrated by inhibition of enzyme activity were used for a comparative study of the molecular sizes of galactosyltransferase. For this purpose, affinity-purified antibodies were used for the identification of milk, serum and effusion galactosyltransferase from native or partially purified preparations resolved by sodium dodecyl sulfate polyacrylamide electrophoresis (SDS-PAGE) by the immune replica technique. Milk galactosyltransferase migrated as a 55-kilodalton (kD) protein, serum and effusion GT slightly faster. Cross-reactive enzyme forms of 110 kD and 20 kD were detected in milk only. In order to establish a relationship between intracellular and soluble galactosyltransferase, HeLa cells were metabolically labeled by [35S]-methionine, cells lysed, subjected to immunoprecipitation and the precipitate analyzed by SDS-PAGE/fluorography: a single band corresponding to the intracellular form of GT have similar mobility as the milk enzyme was detected. These results indicate a close structural similarity between soluble and cellular galactosyltransferase as judged by immunological cross-reactivity and electrophoretic mobility.     

Centrioles resist forces applied on centrosomes during G2/M transition

BACKGROUND INFORMATION: Centrosome movements at the onset of mitosis result from a balance between the pulling and pushing forces mediated by microtubules. The structural stability of the centrosome core structure, the centriole pair, is correlated with a heavy polyglutamylation of centriole tubulin. RESULTS: Using HeLa cells stably expressing centrin-green fluorescent protein as a centriole marker, we monitored the effect of microinjecting an anti-(polyglutamylated tubulin) monoclonal antibody, GT335, in G1/S or G2 cells. In contrast with the slow effect of the monoclonal antibody GT335 during interphase, a dramatic and rapid centrosome fragmentation occurred in cells microinjected in G2 that was both Eg5- and dynein-dependent. Inhibition of either one of these two motors significantly decreased the scattering of centrosome fragments, and inhibition of centrosome segregation by impairing microtubule dynamics abolished centrosome fragmentation. CONCLUSIONS: Our results demonstrate that the compact structure of the mitotic centrosome is capable of absorbing most of the pulling and pushing forces during G2/M transition and suggest that centrosomes could act as mechanosensors integrating tensions during cell division.     

A DNA-activated protein kinase from HeLa cell nuclei.

A DNA-activated protein kinase (DNA-PK) was purified from nuclei of HeLa cells. Activity was associated with a single high-molecular-mass (approximately-300,000 Da) polypeptide when analyzed by gel filtration, denaturing polyacrylamide gel electrophoresis, and Western immunoblotting using a monoclonal antibody that also inhibits enzyme activity. Nuclear localization was indicated by subcellular fractionation and confirmed by immunofluorescence on whole cells. Double-stranded DNA stimulated phosphorylation of the 300-kDa polypeptide in purified preparations as well as phosphorylation of the exogenous substrates alpha-casein, simian virus 40 large T antigen, and the human heat shock protein hsp90. Autophosphorylation led to inactivation of the enzyme. The phosphorylation of casein was stimulated over 30-fold by DNA and was specific for serine and threonine residues. Bovine serum albumin and histone H1 were poor substrates for DNA-PK, and no phosphorylation of immunoglobulin G or histones other than H1 was observed. Supercoiled or heat-denatured DNA and synthetic double-stranded RNA or RNA-DNA copolymers did not stimulate casein phosphorylation by DNA-PK. Interaction of the enzyme with DNA in the absence of exogenous substrates was demonstrated by thermal inactivation and gel mobility shifts. These characteristics identify DNA-PK as distinct from other protein kinases described in the literature and suggest that activation by DNA is an important feature of the enzyme's in vivo function.     

Isolation and functional effects of monoclonal antibodies binding to thymidylate synthase

Monoclonal antibodies against electrophoretically pure thymidylate synthase from HeLa cells have been produced. Antibodies (M-TS-4 and M-TS-9) from hybridoma clones were shown by enzyme-linked immunoassay to recognize thymidylate synthase from a variety of human cell lines, but they did not bind to thymidylate synthase from mouse cell lines. The strongest binding of antibodies was observed to enzyme from HeLa cells. These two monoclonal antibodies bind simultaneously to different antigenic sites on thymidylate synthase purified from HeLa cells, as reflected by a high additivity index and results of cross-linked radioimmunoassay. Both monoclonal antibodies inhibit the activity of thymidylate synthase from human cell lines. The strongest inhibition was observed with thymidylate synthase from HeLa cells. Monoclonal antibody M-TS-9 (IgM subclass) decreased the rate of binding of [3H]FdUMP to thymidylate synthase in the presence of 5,10-methylenetetrahydrofolate while M-TS-4 (IgG1) did not change the rate of ternary complex formation. These data indicate that the antibodies recognize different epitopes on the enzyme molecule.     

Novel monoclonal antibody mAb G3A5 recognizes 138-kDa glycoprotein localized on the Golgi membrane.

Partially purified Golgi membranes of HeLa cells were used as antigen to produce a novel monoclonal antibody (mAb G3A5). The mAb G3A5 specifically labeled Golgi apparatus of human and monkey cultured cells as ascertained by indirect immunofluorescence but did not stain those of bovine or mouse cells. Treatment with nocodazole and brefeldin A (BFA) induced fragmentation and redistribution of the staining. Western immunoblot analysis showed that mAb G3A5 was directed against a single polypeptide with an apparent molecular mass of 138-kDa (p138 antigen). The p138 antigen is an integral membrane protein of the Golgi apparatus, as assessed by several assays: protease protection, salt wash and flotation in sucrose density gradient centrifugation. The p138 antigen was purified using immunoaffinity chromatography. The apparent molecular mass of the p138 antigen decreased by 2 to 4 kDa after treatment with the peptide: N-glycosidase F, while digestion with ENDO F or Neuraminidase did not have this effect. Thus, p138 antigen is a glycoprotein containing asparagine-linked carbohydrates.     

Intracellular localization and metabolism of DNA polymerase α in human cells visualized with monoclonal antibody

Indirect immunofluorescence microscopy with monoclonal antibody against DNA polymerase α revealed the intranuclear localization of DNA polymerase α in G1, S, and G2 phases of transformed human cells, and dispersed cytoplasmic distribution during mitosis. In the quiescent, G0 phase of normal human skin fibroblasts or lymphocytes, the α-enzyme was barely detectable by either immunofluorescence or enzyme activity. By exposing cells to proliferation stimuli, however, DNA polymerase a appeared in the nuclei just prior to onset of DNA synthesis, increased rapidly during S phase, reached the maximum level at late S and G2 phases, and was then redistributed to the daughter cells through mitosis. It was also found that the increase in the amount of DNA polymerase a by proliferation stimuli was not affected by inhibition of DNA synthesis with aphidicolin or hydroxyurea.     

Production and characterization of monoclonal antibodies to rat liver arginase

Rat liver arginase was purified and five monoclonal antibodies were produced by fusion of spleen cells from a Balb/c mouse and the myeloma cell line P3-X36-Ag-U1. One, R2D19, of five antibodies belonged to the IgG2a subclass, the other four, R1D81, R1G11, R2E10, and R2G51, were of the IgG1 type. The R1D81 cross-reacted with human liver arginase. This antibody inhibited the arginase activity, competing with arginine. These results suggest that R1D81 binds to the catalytic site of arginase. The R2D19 also inhibited the enzyme activity but acted as a noncompetitive inhibitor. With the use of R1D81 and a polyclonal anti-human liver arginase antibody conjugated with alkaline phosphatase, a sandwich enzyme-linked immunosorbent assay (ELISA) was developed for the quantification of human arginase. Specificity of monoclonal antibodies for rat liver arginase was examined by means of the sandwich ELISA. Eight pairs of monoclonal antibodies could form a sandwich with the arginase. Only the R2E10 could be used for both the first and the second antibody in the sandwich system. In other cases, monoclonal antibodies could not be interchanged between solid and liquid phase.     

Synthesis of alpha-gal epitopes (Galalpha1-3Galbeta1-4GlcNAc-R) on human tumor cells by recombinant alpha1,3galactosyltransferase produced in Pichia pastoris.

This study describes the processing of human tumor cells or cell membranes to express alpha-gal epitopes (Galalpha1-3Gal-beta1-4GlcNAc-R) by the use of New World monkey (marmoset) recombinant alpha1,3galactosyltransferase (ralpha1,3GT), produced in the yeast Pichia pastoris. Such tumor cells and membranes may serve, in cancer patients, as autologous tumor vaccines that are targeted in vivo to antigen-presenting cells by the anti-Gal antibody. This ralpha1,3GT lacks transmembrane and cytoplasmic domains, ensuring its solubility without detergent. It is effectively produced in P. pastoris under constitutive expression of the P(GAP) promoter and is secreted into the culture medium in a soluble, truncated form fused to a (His)(6) tag. This tag enables the simple affinity purification of ralpha1,3GT on a nickel-Sepharose column and elution with imidazole. The purified enzyme appears in SDS-PAGE as two bands with the size of 40 and 41 kDa and displays the same acceptor specificity as the mammalian native enzyme. ralpha1,3GT is very effective in synthesizing alpha-gal epitopes on membrane-bound carbohydrate chains and displays a specific activity of 1.2 nM membrane bound alpha-gal epitopes/min/mg. Incubation of very large amounts of human acute myeloid leukemia cells (1 x 10(9 )cells) with neuraminidase, ralpha1,3GT, and UDP-Gal resulted in the synthesis of approximately 6 x 10(6 )alpha-gal epitopes per cell. Effective synthesis of alpha-gal epitopes could be achieved also with as much as 2 g cell membranes prepared from the tumor of a patient with ovarian carcinoma. These data imply that ralpha1,3GT produced in P. pastoris is suitable for the synthesis of alpha-gal epitopes on bulk amounts of tumor cells or cell membranes required for the preparation of autologous tumor vaccines.     

Epitope distribution and immunochemical characterization of nucleolar phosphoprotein C23 using ten monoclonal antibodies

Summary Extractable nucleolar proteins from HeLa cells were used as a source of antigen to immunize mice for monoclonal antibody (MAb) production. Ten of the resulting MAbs shown to identify nucleolar phosphoprotein (110 kD/pI 5.5) were purified and used in immunochemical studies to further characterize protein C23. All ten MAbs showed nucleolar localization by indirect immunofluorescence; one antibody (FR2) also showed some nucleoplasmic localization that was attributed to a shared epitope between protein C23 and a 72 kD nuclear/nucleolar antigen. Reciprocal antibody cross blocking studies indicated that the ten MAbs identified nine distinct epitopes on protein C23. Interestingly, seven of the nine epitopes were shown by immunofluorescence and competitive ELISA studies to be species related. Immunostained patterns of exponentially growing HeLa cells suggest that protein C23 exists in vivo solely as a 110 kD peptide. However, protein C23 was subject to rapid degradation into a number of proteolytic fragments upon extraction or storage of isolated nucleoli. The failure to find protein C23 related peptides with molecular sizes less than 110 kD in exponentially growing cells and the lack of cytoplasmic localization of any of the ten MAbs suggests that protein C23 is not a prepro-protein processed in vivo to form ribosomal proteins as previously suggested (1).     

MPM-12: a monoclonal antibody that predominantly stains mitotic cells and recognizes a protein kinase.

The monoclonal antibody MPM-12, raised by using partially purified extract of mitotic HeLa cells as the immunogen, preferentially stains the cytoplasm of mitotic cells by indirect immunofluorescence without exhibiting any species specificity. On immunoblots, MPM-12 recognizes three bands, of 155, 88, and 68 kDa, in mitotic HeLa cell extract but only the 68-kDa band in interphase cell extract. The 68-kDa band seems to be associated with chromatin while the other two are not. All three MPM-12 reactive peptides are phosphorylated, and the phosphorylation seems to be required for MPM-12 reactivity. The MPM-12 immunocomplexes exhibit autophosphorylating and histone H1 kinase activity.     

抗人线粒体核糖体小亚基蛋白17单克隆抗体的制备和鉴定

以纯化人线粒体核糖体小亚基蛋白17(MRPS17)免疫BALB/c小鼠,经细胞融合和ELISA法筛选成功获得1株抗MRPS17杂交瘤细胞。以所获特异性单抗作为一抗,使用Western印迹、免疫组化和免疫荧光等方法检测标本中MRPS17。结果显示:Western印迹检测人骨骼肌组织、黑素瘤组织和体外培养HeLa细胞提取蛋白质,在分子量约13kDa处有一特异性条带,与阳性对照纯化MRPS17相一致;免疫组化检测石蜡切片标本显示人骨骼肌细胞和恶性黑素瘤细胞胞浆中强阳性着色;细胞免疫荧光检测于培养的HeLa细胞,可见细胞核周围胞浆部位颗粒状绿色荧光,其分布与线粒体特异性荧光探针(MitoTrackerRedCM-H2XRos)的荧光分布一致。说明成功制备了具有高度特异性并可适用于多种检测方法的抗人MRPS17单抗,应用该单克隆抗体对人MRPS17进行了亚细胞水平定位,为线粒体生物学相关研究提供了新的研究工具。     

Monoclonal antibody that inhibits infection of HeLa and rhabdomyosarcoma cells by selected enteroviruses through receptor blockade.

BALB/c mice were immunized with HeLa cells, and their spleen cells were fused with myeloma cells to produce hybridomas. Initial screening of culture fluids from 800 fusion products in a cell protection assay against coxsackievirus B3 (CB3) and the CB3-RD virus variant yielded five presumptive monoclonal antibodies with three specificities: protection against CB3 on HeLa, protection against CB3-RD on rhabdomyosarcoma (RD) cells, and protection against both viruses on the respective cells. Only one of the monoclonal antibodies (with dual specificity) survived two subclonings and was studied in detail. The antibody was determined to have an immunoglobulin G2a isotype and protected cells by blockade of cellular receptors, since attachment of [35S]methionine-labeled CB3 was inhibited by greater than 90%. The monoclonal antibody protected HeLa cells against infection by CB1, CB3, CB5, echovirus 6, and coxsackievirus A21 and RD cells against CB1-RD, CB3-RD, and CB5-RD virus variants. The monoclonal antibody did not protect either cell type against 16 other immunotypes of picornaviruses. The monoclonal antibody produced only positive fluorescence on those cells which were protected against infection, and 125I-labeled antibody confirmed the specific binding to HeLa and RD cells. The results suggest that this monoclonal antibody possesses some of the receptor specificity of the group B coxsackieviruses.     

20-alpha-Hydroxysteroid dehydrogenase from pseudopregnant rat ovary: obtention and characterization of a monoclonal antibody against the enzyme activity.

The enzyme 20-alpha-hydroxysteroid dehydrogenase (20-alpha-HSD) was purified from pseudopregnant rat ovaries and used as antigen for the development of a monoclonal antibody by the hybridoma technique. Spleen cells of BALB/c mice immunized with purified 20-alpha-HSD were fused with SP2/0 mouse myeloma cells. Among the colonies of hybrid cells, one (designated mAb-HSD 11) was found to be secreting antibodies (IgM) able to inhibit 20-alpha-HSD activity. The antibody-secreting hybridome was amplified by ascitic fluid production and the monoclonal antibody purified by Bakerbond ABx procedure. Purified mAb-HSD 11 was able to inhibit 20-alpha-HSD activity in a dose-dependent manner. Studies of Michaelis constants of 20-alpha-HSD indicate that this monoclonal antibody increases the Km for 20-alpha-dihydroprogesterone and decreases the Vmax.     

The DEXH protein product of the DHX36 gene is the major source of tetramolecular quadruplex G4-DNA resolving activity in HeLa cell lysates

G4-DNA is a highly stable alternative DNA structure that can form spontaneously in guanine-rich regions of single-stranded DNA under physiological conditions. Since a number of biological processes create such single-stranded regions, G4-DNA occurrence must be regulated. To date, resolution of tetramolecular G4-DNA into single strands (G4-resolvase activity) has been observed only in recombinant RecQ DNA helicases. We previously reported that human cell lysates possess tetramolecular G4-DNA resolving activity (Harrington, C., Lan, Y., and Akman, S. (1997) J. Biol Chem. 272, 24631-24636). Here we report the first complete purification of a major non-RecQ, NTP-dependent G4-DNA resolving enzyme from human cell lysates. This enzyme is identified as the DEXH helicase product of gene DHX36 (also known as RHAU). G4-DNA resolving activity was captured from HeLa cell lysates on G4-DNA affinity beads and further purified by gel filtration chromatography. The DHX36 gene product was identified by mass spectrometric sequencing of a tryptic digest from the protein band on SDS-PAGE associated with activity. DHX36 was cloned within a His(6)-tagging vector, expressed, and purified from Escherichia coli. Inhibition and substrate resolution assays showed that recombinant DHX36 protein displayed robust, highly specific G4-DNA resolving activity. Immunodepletion of HeLa lysates by a monoclonal antibody to the DHX36 product removed ca. 77% of the enzyme from lysates and reduced G4-DNA resolving activity to 46.0 +/- 0.4% of control, demonstrating that DHX36 protein is responsible for the majority of tetramolecular G4-DNA resolvase activity.     

The 2G2 Antibody Recognizes an Acidic 110-kDa Human Mitochondrial Protein

Using fluorescence microscopy, the mouse monoclonal antibody 2G2 was found to label mitochondria in human cells, as assessed by double staining with either Rhodamine 123 or a polyclonal antibody to mitochondrial matrix HSP-60 proteins. No reactivity to the 2G2 antibody was detected in cells from mouse, rat and chicken. Immunoblotting analysis demonstrated that the 2G2 antigen corresponds to a human protein with a relative mobility of 110 kDa and an approximate isoelectric point of 6.5 that co-partitions with HSP-60 proteins during isolation of mitochondria from HeLa cells. Close examination of the 2G2 staining pattern in HeLa and Fanconi's anaemia cells revealed differences in the morphology and organization of mitochondria in these two cell types. In HeLa cells, mitochondria appear as individual tubular compartments of variable length and are closely associated with vimentin filaments, particularly at the periphery of the nucleus. In Fanconi's anaemia cells, mitochondria have a filamentous shape and form an interconnected cytoplasmic reticulum running in parallel with both vimentin filaments and microtubules. After stabilization with aldehyde- or alcohol-based fixation protocols that optimize the preservation of cytoskeletal components, the epitope targeted by the 2G2 antibody may serve as a valuable marker in the investigation of relationships between mitochondria and other cellular structures in human cells.     

Preparation and characterization of a human aurora-A kinase monoclonal antibody

We have developed monoclonal antibodies against the human aurora-A serine/threonine kinase. After immunization of a mouse, a fusion was performed to obtain hybridomas that were selected because they produced immunoglobulin positively reacting against the protein used for immunization. We isolated one particular monoclonal that we named 35C1 using a series of selective assays. The first criteria of the screen for monoclonals was an Elisa (Enzyme Linked Immunosorbant Assay) assay performed in 96-well plates against the purified recombinant histidine-tagged aurora-A. The second was a positive Western blot against the same recombinant protein. The third criteria was a positive western blot against an HeLa cell extract, the selected monoclonal should detect only one protein migrating at 46 kDa (kiloDalton) on SDS (Sodium Dodecyl Sulfate)-polyacrylamide gel electrophoresis. Finally, the monoclonal had to bind to duplicated centrosomes and spindle poles in human MCF7 cultured cells by indirect immunofluorescence. At this stage several monoclonals were still positive. We then increased the selectivity by searching for antibodies that were able to cross-react with the mouse aurora-A kinase both by western blot and indirect immunofluorescence. We selected and cloned the 35C1 hybridoma to produce the antibody. Further characterization of the 35C1 antibody revealed that it was able to immunoprecipitate the kinase, that it did not inhibit the aurora-A kinase activity and consequently could be used to measure the aurora-A kinase activity in vivo after immunoprecipitation.     

Immunocytochemical localization of galactosyltransferase in HeLa cells: codistribution with thiamine pyrophosphatase in trans-Golgi cisternae

An affinity-purified, monospecific rabbit antibody against soluble human milk galactosyltransferase was used to localize the enzyme in HeLa cells by immunofluorescence and by the protein A-gold technique at the electron microscope level. Specific immunofluorescence was observed in a juxtanuclear cytoplasmic region which was identified, on immunostained thin sections of low-temperature Lowicryl K4M-embedded HeLa cells, as Golgi apparatus. Label by gold particles was limited to two to three trans cisternae of the Golgi apparatus, indicating a compartmentalization of galactosyltransferase in the cisternal stack. Combination of preembedding thiamine pyrophosphatase cytochemistry, with postembedding immunostaining for galactosyltransferase proved codistribution of the two enzymes. However, the acid phosphatase-positive, trans-most cisterna was negative for galactosyltransferase. The close topological association of both galactosyltransferase and thiamine pyrophosphatase (or nucleoside diphosphatase) suggests a concerted action of both enzymes in glycosylation.     

Monoclonal antibody A2B5, which detects cell surface antigens, binds to ganglioside GT3 (II3 (NeuAc)3LacCer) and to its 9-O-acetylated derivative

The monoclonal antibody A2B5 recognizes antigens at the surface of neuronal and glial cells but also at the surface of thymus epithelia and pancreatic islet cells. Although these antigens have been characterized as polysialogangliosides, A2B5 also reacts with other unidentified gangliosides. In order to characterize further the epitope of A2B5, two new ganglioside antigens isolated from chicken brain are identified in this study. One is the ganglioside NeuAc alpha 2-8NeuAc alpha 2-8NeuAc alpha 2-3Gal beta 1-4Glc beta 1-1ceramide (GT3) and the other is a 9-O-acetylated derivative of GT3). This derivative was purified from 10-day embryonic chicken brain. Acetyl groups substituted on sialic acid were removed either by alkali treatment or by incubation with influenza virus C, which contains receptor-destroying enzyme (a neuraminidate 9-O-acetyl esterase). The product of alkali treatment or viral action was detected by the antibody 18B8 which is specific for GT3. The deacetylated product still reacts with A2B5. These data and the results of mild oxidation of the antigen with sodium periodate suggest that the epitope recognized by antibody A2B5 contains the trisialyl structure found in GT3 but does not include the polyalcohol chain of the terminal sialic acid which can be oxidized by periodate or acetylated without modifying the affinity for the antibody. The epitope recognized by A2B5 is different from the epitope recognized by the antibody 18B8 in that 18B8 requires the three sialic acids with an intact and unsubstituted polyalcohol chain. Antibody 18B8 does not bind to 9-O-acetylated GT3 or GT3 oxidized by sodium periodate.     

Monoclonal antibodies to human prolyl 4-hydroxylase

Monoclonal antibodies against human prolyl 4-hydroxylase (EC 1.14.11.2), an intracellular enzyme of collagen biosynthesis, were produced by fusing spleen cells from BALB/c mice hyperimmunized with human prolyl 4-hydroxylase and mouse myeloma cells (P3/NS 1/1-AG 4-1). Hybridomas from 14 different primary microtiter-plate well cultures produced antibodies to human prolyl 4-hydroxylase; six of them with the highest antibody titer were cloned and antibodies produced by one clone from each of the six lines were further characterized. All of the six cloned hybrids produced antibodies of the IgG class as detected by immunodiffusion. The enzyme antigen used in the present study was a tetramer composed of two pairs of different subunit proteins, alpha and beta. Only one clone which produced antibodies to the alpha subunit was obtained, the other five antibodies being directed against the beta subunit. All the antibodies reacted with the tetramer form of the enzyme. Species cross-reactivity of the antibodies was tested using cultured human, mouse and chick fibroblasts and purified prolyl 4-hydroxylase from chick and mouse sources. None of the antibodies cross-reacted with chick or mouse fibroblasts, as determined by immunofluorescence, whereas one antibody reacted with purified chick and mouse prolyl 4-hydroxylase when examined by the western blotting technique. This antibody caused a strong inhibition of human prolyl 4-hydroxylase activity, but the other five antibodies had negligible inhibitory effect on the activity of the enzyme.     

Immunoaffinity purification and properties of Drosophila melanogaster DNA polymerase alpha-primase complex

Two hybrid cell lines (DM88-5E12 and DM88-4C9) secreting monoclonal antibodies against DNA polymerase alpha-primase complex from Drosophila melanogaster Kc cells were established by immunizing mice with the complex partially purified by a conventional method. The IgG subclasses of both antibodies were IgG1. Both antibodies immunoprecipitated the DNA polymerase alpha-primase complex from D. melanogaster Kc cells. The DNA-polymerizing activity was neutralized by 4C9 antibody, but not by 5E12 antibody. The DNA priming activity was not neutralized by either antibody. These antibodies did not cross-react to HeLa DNA polymerase alpha-primase complex. A rapid, two-step purification of DNA polymerase alpha-primase complex from D. melanogaster Kc cell was carried out by 5E12 antibody column chromatography followed by single-stranded DNA cellulose column chromatography. The immunoaffinity-purified enzyme had both DNA-polymerizing and DNA-priming activities with the specific activities of 50,000 and 2,000 units/mg, respectively. The effects of aphidicolin, NEM, ddTTP, BuPdGTP, and DMSO on the enzyme activity showed that the purified enzyme was DNA polymerase alpha, but not DNA polymerase beta, gamma, or delta. The purified enzyme consisted of polypeptides with apparent molecular weights of 180 (and 145, 140, 130 kDa), 72, 63, 51, and 49 kDa. The 5E12 antibody was shown to bind to all the high-molecular-weight polypeptides, 180, 145, 140, and 130 kDa, by immuno-Western blotting analysis.