A monoclonal antibody to swine erythrocytes recognizes the B blood group on the major glycophorin

Recently monoclonal antibodies (mAbs) to swine red blood cells have been described. One of them (1AC11) was specific for the major swine glycoprotein with a molecular weight of 45 kDa and another mAb, 2G2, recognized the B ^a allele in the B system of swine blood groups. Immunoblotting experiments to characterize the mAb 2G2 indicated that it reacts with an antigen of 45 kDa, present on the aqueous phase, glycophorin fraction, of swine red blood cells with the B ^a allele and does not react with B ^bB^b homozygous cells. The antigen recognized by 2G2 has the same characteristics as the major glycophorin recognized by 1AC11, so we can conclude that the B system of the swine blood group is on the major glycophorin of swine erythrocyte membranes.     

Monoclonal antibodies as markers of the endocytic and secretory pathways

A galactosyltransferase-rich subcellular fraction and wheat germ agglutinin(WGA)-binding microsomal proteins from rat myeloma cells have been used to immunize BALB/c mice. Fusion of the corresponding spleen cells with the Sp2/0 mouse myeloma has lead to the production of hybridomas secreting monoclonal antibodies directed against four proteins of the Golgi complex (GC) and other smooth membranes (SM). Subcellular fractionation of myeloma cells and rat liver, Triton X-114 partitioning, protease treatment and lectin binding studies have permitted us to identify--by immunoblotting--the molecular weight of the proteins involved, their topology and their mode of association with membranes. Morphological analysis has been performed by immunocytochemistry at the light and electron microscopic level. Judging by these criteria, the GCII antigen is a protein of 44 kDa which is loosely associated with the endodomain of Golgi cisternae. GCIII is a detergent-binding glycoprotein of 130 kDa whose epitope is on the endodomain of Golgi cisternae. SMI is a detergent-binding glycoprotein of 58 to 90 kDa found at several stations along the endocytic path: in coated pits, coated vesicles, endocytic vesicles, but not in lysosomes. The epitope recognized by the corresponding antibody faces the ectodomain. When this antibody is added to living cells in culture, it is rapidly internalized. SMII is a detergent-binding glycoprotein of 140 kDa. The epitope recognized is restricted to membranes of Golgi complex cisternae and multivesicular bodies. These reagents should be useful for dissection and perturbation of vesicular traffic.     

Modification of CD43 and other lymphocyte O-glycoproteins by core 2 N-acetylglucosaminyltransferase

CD43, the major leukocyte sialoglycoprotein, is expressed onT lymphocytes in two predominant glycoforms. CD43 115 kDa isa pan T cell marker and is specifically recognized by the monoclonalantibody S7. CD43 130 kDa is associated with T cell activationand is specifically recognized by the monoclonal antibody 1B11.The thymoma EL-4 has been identified to express mainly CD43115 kDa and little or no CD43 130 kDa. Transfection of EL-4cells with core 2 ß16N-acetylgIucosaminyltransferase(C2GnT), an enzyme in the O-glycan biosynthesis pathway, resultedin an enhanced expression of the 1B11 epitope, CD43 130 kDa,and a loss of expression of the S7 epitope, CD43 115 kDa. Analysisof CD43 by SDS-PAGE revealed that CD43 in C2GnT transfectedEL-4 cells has a molecular weight of 125 kDa compared to 115kDa in nontransfected or control transfected EL-4 cells. SDS-PAGEanalysis of three other lymphocyte O-glycoproteins, CD44, CD45,and RPTPa., revealed that C2GnT expression resulted in a molecularweight increase of approximately 3–5 kDa for each of thesethree cell surface glycoproteins. Our data indicate that, whileCD43 may be a predominant substrate for C2GnT, other lymphocyteO-glycoproteins are also modified by this glycosyltransferase.Increased reactivity of cells with the monoclonal antibody 1B11,which specifically detects the expression of murine CD43 130kDa, may thus be a marker of increases in branching of O-linkedglycans generally. CD43 core 2 N-acetylglucosaminyltransferase lymphocyte glycoproteins     

Comparative biochemical and tissue distribution study of four distinct CD45 antigen specificities

Studies on the antigenic structure of the human CD45 glycoproteins using mAb have revealed the existence of four reactivity patterns defined specifically by distinct biochemical, cellular, and histochemical distributions. In addition to the two well characterized Ag specificities, CD45 and CD45R, present on the four glycoproteins (220, 205, 190, and 180 kDa) and on the 220-kDa member, respectively, we have identified two novel specificities. These have been defined by two different mAb, UCHL1 and PD7/26/16, that recognize an epitope exclusively expressed on the 180-kDa lowest molecular sized polypeptide and an epitope shared by the three higher molecular sized polypeptides (220, 205, 190 kDa) of the complex, respectively. It has been demonstrated that they are also part of the CD45 complex by immunoprecipitation, immunoblotting, and binding assays with purified CD45 molecules. Comparative analysis by flow cytometry and immunoperoxidase techniques also showed a distinct pattern of cell distribution for each specificity. The 180-kDa specificity is present on a subset of T cells but absent on B lymphocytes, whereas the 220-kDa specificity is mainly expressed by B cells and a subpopulation of T lymphocytes. On the other hand, the cell distribution of the epitope common to the three higher members is slightly different to the conventional pan-leukocyte CD45 specificity. Thus, certain CD45+ cell types such as cutaneous Langerhans' cells, sinusoidal lymph node macrophages, and a small subset of T cells in both lymph node and tonsil did not express the 220/205/190-kDa specificity. These results further support that CD45 glycoproteins constitute a very heterogeneous molecular complex with epitopes that are selectively expressed by different cell types and by T cells at different stages of maturation.     

Cloning, expression and chromosomal localization of a human testis 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase gene

6-Phosphofructo-2-kinase/fructose 2,6-bisphosphatase (PFK-2/FBPase-2) is a bifunctional enzyme responsible for the synthesis and breakdown of Fru-2,6-P2, a key metabolite in the regulation of glycolysis. Several genes encode distinct PFK-2/FBPase-2 isozymes that differ in their tissue distribution and enzyme regulation. In this paper, we present the isolation of a cDNA from a human testis cDNA library that encodes a PFK-2/FBPase-2 isozyme. Sequencing data show an open reading frame of 1407 nucleotides that codifies for a protein of 469 amino acids. This has a calculated molecular weight of 54kDa and 97% similarity with rat testis PFK-2/FBPase-2, with complete conservation of the amino acid residues involved in the catalytic mechanism. Fluorescence in-situ hybridization (FISH) localized testis PFK-2/FBPase-2 gene (PFKFB4) in human chromosome 3 at bands p21-p22. A Northern blot analysis of different rat tissues showed the presence of a 2.4-kb mRNA expressed specifically in testis. In mammalian COS-1 cells, the human testis cDNA drives expression of an isozyme with a molecular weight of 55kDa. This isozyme shows clear PFK-2 activity. Taken together, these results provide evidence for a new PFK-2/FBPase-2 gene coding for a human testis isozyme.     

Evidence for a MARCKS-PKCalpha complex in skeletal muscle

MARCKS (Myristoylated Alanine Rich C Kinase Substrate) is a protein known to cross-link actin filament and consequently, is very important in the stabilization of the cytoskeletal structure. In addition, it has been recently demonstrated that the phosphorylation rate of this protein changes during myogenesis and that this protein is implicated in fusion events. For a better understanding of the biological function of MARCKS during myogenesis, we have undertaken to identify and purify this protein from rabbit skeletal muscle. Three chromatographic steps including an affinity calmodulin-agarose column were performed. The existence of a complex between the two proteins was confirmed by non-denaturing gel electrophoresis and immunoprecipitation. Two complexes were isolated which present an apparent molecular weight of about 600 kDa. Such interactions suggest that MARCKS is either a very good PKCalpha substrate and/or a regulator of PKC activity. These results are supported by previous studies showing preferential interactions and co-localization of PKC isozyme and MARCKS at focal adhesion sites. This is the first time that MARCKS has been purified from skeletal muscle and our data are consistent with a major role of this actin- and calmodulin-binding protein in cytoskeletal rearrangement or other functions mediated by PKalpha. Our results provide evidence for a tight and specific association of MARCKS and PKCalpha (a major conventional PKC isozyme in skeletal muscle) as indicated by the co-purification of the two proteins.     

幽门螺杆菌Ure B串联融合表位的表面呈现表达

目的:应用表达载体pHIE3N表面呈现表达幽门螺杆菌Ure B串联融合表位。方法:通过引入多克隆位点的方法改造表达呈现表达载体pHIE11,并用改造后的质粒表达幽门螺杆菌Ure B串联融合表位,用SDS-PAGE、Western blot和全菌ELISA检测所得到的重组菌。结果:改造的质粒插入序列正确,能够特异性呈现表达Ure B串联融合表位,表达产物的分子量约为60kDa,与预期大小一致。全菌ELISA结果表明Ure B串联融合表位表达于菌体表面。结论:pHIE3N载体能够表面展示呈现Ure B串联融合表位,构建的重组菌为幽门螺杆菌候选疫苗的研发奠定了基础。     

Changes in patterns of protein synthesis during haustorial development of Striga hermonthica (Del.) Benth. seedlings

This study focuses upon the developmental transition of theparasitic plant Striga hermonthica from its freeliving state(germinated seedling) to its parasitic state after developmentof an infection organ: the haustorium. A new method has beendeveloped that allows the production of gram quantities of germinatedand haustorially-induced Striga seedlings, thereby facilitatingbiochemical and molecular analysis of haustorial induction.Water-soluble proteins have been extracted from germinated seeds(stage A) and seedlings treated with 2,6-dimethoxy-p-benzoquinone(2,6-DMBQ) to induce haustorium (stage B). Samples were analysedby two-dimensional polyacrylamide gel electrophoresis and quantitativeas well as qualitative differences could be observed. In particulara group of four highly abundant acidic proteins (molecular weight39 kDa, pl 5.1, 5.3, 5.3, 5.6) and three other proteins (molecularweight 12 kDa, pl 6.9; 17 kDa, pl 4.4; 17 kDa, pl 4.45) wereseen in stage A while at least four proteins (molecular weight21.5 kDa, pl 6.4; 21.5 kDa, pl 6.3; 31 kDa, pl 5.1; 34 kDa,pl 6.2) were present in greater abundance in stage B. In orderto compare watersoluble protein with newly synthesized proteinpatterns, mRNAs from the two stages of development were isolatedand cell-free translation products analysed by 2-D PAGE. Two-Dgels of cell-free translation products showed the appearanceof six proteins in stage B (molecular weight ranging from 10to 35 kDa) and the presence of three acidic proteins in stageA with one protein (molecular weight 40 kDa) very similar insize to the triplet of proteins in the water-soluble protein2-D gels. Key words: Striga hermonthica (Del.) Benth., haustorium, 2-D PAGE, 2,6-DMBQ, translation in vitro     

Crystallization and characterization of two crystal forms of the B800-850 light-harvesting complex from Rhodopseudomonas acidophila strain 10050

Two different crystal forms of the B800-850-antenna complex from Rhodopseudomonas acidophila strain 10050 have been grown. This complex is an integral membrane protein and is isolated as an oligomeric assembly with a molecular weight of approximately 84 kDa. This assembly contains six alpha/beta apoprotein pairs, 18 molecules of bacteriochlorophyll a and nine molecules of carotenoid. The first crystal form has dimensions unit cell a = b = 75.8 A, c = 97.5 A with the space group P4 and diffracts to a resolution of 12.0 A. The second crystal form is rhombohedral with dimensions unit cell a = 121.1 A, alpha = 60 degrees, space group R32 and diffracts to a resolution of 3.5 A. Native data have been processes in both cases, to an Rmerge value of 9.0 to 11.0%. The X-ray data suggest that the asymmetric unit, in both crystal forms, contains one 84 kDa antenna complex.     

Glyceraldehyde-3-phosphate dehydrogenase from the newt Pleurodeles waltl. Protein purification and characterization of a GapC gene

The NAD(+)-dependent cytosolic glyceraldehyde-3-phosphate dehydrogenase (GAPDH, EC 1.2.1.12) has been purified to homogeneity from skeletal muscle of the newt Pleurodeles waltl (Amphibia, Urodela). The purification procedure including ammonium sulfate fractionation followed by Blue Sepharose CL-6B chromatography resulted in a 24-fold increase in specific activity and a final yield of approximately 46%. The native protein exhibited an apparent molecular weight of approximately 146 kDa with absolute specificity for NAD(+). Only one GAPDH isoform (pI 7.57) was obtained by chromatofocusing. The enzyme is an homotetrameric protein composed of identical subunits with an apparent molecular weight of approximately 37 kDa. Monospecific polyclonal antibodies raised in rabbits against the purified newt GAPDH immunostained a single 37-kDa GAPDH band in extracts from different tissues blotted onto nitrocellulose. A 510-bp cDNA fragment that corresponds to an internal region of a GapC gene was obtained by RT-PCR amplification using degenerate primers. The deduced amino acid sequence has been used to establish the phylogenetic relationships of the Pleurodeles enzyme--the first GAPDH from an amphibian of the Caudata group studied so far--with other GAPDHs of major vertebrate phyla.     

Expression of glutamate decarboxylase isoform, GAD65, in human mononuclear leucocytes: a possible implication of C-terminal end deletion by Western blot and RT-PCR study

Human peripheral blood leucocyte was examined for the expression of glutamate decarboxylase (GAD). Peripheral blood from healthy individuals was fractionated into polynuclear leucocytes and mononuclear leucocytes. Cell lysate from the mononuclear leucocytes was analysed by SDS-PAGE and Western blot. With antibody raised against unique C-terminal sequence for GAD65, two protein bands at 30 and 80 kDa were detected. However, with anti-GAD65/67 antibody recognizing very end of C-terminal, about 40 residues toward C-terminal, no protein bands were observed. Expression of mRNA coding for the epitope of these two antibodies was examined by using PCR technique. Results showed an evidence that mononuclear leucocytes express GAD65 with its C-terminal segment truncated. Our results have suggested an expression of GAD with the novel molecular weight may be caused by possible mononuclear leucocyte specific splicing errors.     

Characterization of the adenovirus E3 protein that down-regulates the epidermal growth factor receptor. Evidence for intermolecular disulfide bonding and plasma membrane localization.

We have characterized the biosynthesis and processing of a 91 amino acid hydrophobic integral membrane protein encoded by human group C adenoviruses which down-regulates the EGF receptor (Carlin, C. R., Tollefson, A. E., Brady, H. A., Hoffman, B. L., and Wold, W. S. M. (1989) Cell 57, 135-144). Previous studies have shown that two immunologically related proteins are produced in vivo, a 13.7-kDa protein encoded by E3 message f and a 11.3-kDa protein derived from 13.7 kDa by proteolysis (Hoffman, B. L., Ullrich, A., Wold, W. S. M., and Carlin, C. R. (1990) Mol. Cell. Biol. 10, 5521-5524; Tollefson, A. E., Krajcsi, P., Yei, S., Carlin, C. R., and Wold, W. S. M. (1990) J. Virol. 64, 794-801). We report here that the 13.7- and 11.3-kDa proteins form intermolecular disulfide bonds cotranslationally at Cys-31 and tend to migrate as high molecular weight aggregates under nonreducing conditions. Both proteins are also present at the cell surface, as evidenced by specific immunoprecipitation from intact monolayers enzymatically labeled with 125I. Moreover, an antiserum specific for a putative extracellular epitope recognizes the same viral proteins as antibodies directed against a C-terminal synthetic 15-mer. The 13.7- and 11.3-kDa proteins are detected at early time points during pulse-chase radiolabeling of infected cells, do not undergo any further changes in molecular weight, and focus at their predicted isoelectric points (7.4 and 7.2, respectively). Identical results are obtained in stable transfectants constitutively expressing only 13.7 and 11.3 kDa, suggesting that biosynthesis and processing is not dependent on other viral proteins. These results have been incorporated into a computer-based model to predict the orientation of 13.7 and 11.3 kDa in the lipid bilayer. This model provides a basis for testing predictions regarding the topology of the viral proteins, as well as putative interactions with heterologous proteins in the microenvironment of the plasma membrane that cause down-regulation of the epidermal growth factor receptor.     

High molecular weight kininogen as substrate for cathepsin B

We investigated the influence of pH and divalent cations (Zn2+, Mg2+ and Ca2+) on high molecular weight kininogen processing by cathepsin B. At pH 6.3, high molecular weight kininogen is hydrolyzed by cathepsin B at three sites generating fragments of 80, 60 and 40 kDa. Cathepsin B has kininogenase activity at this pH which is improved in the absence of divalent cations. At pH 7.35, high molecular weight kininogen is slightly cleaved by cathepsin B into fragments of 60 kDa, and cathepsin B kininogenase activity is impaired. Our results suggest that high molecular weight kininogen is a substrate for cathepsin B under pathophysiological conditions.     

Activity of the plant peptide aglycin in mammalian systems

A 37 residue peptide, aglycin, has been purified from porcine intestine. The sequence is identical to that of residues 27-63 of plant albumin 1 B precursor (PA1B, chain b) from pea seeds. Aglycin resists in vitro proteolysis by pepsin, trypsin and Glu-C protease, compatible with its intestinal occurrence and an exogenous origin from plant food. When subcutaneously injected into mice (at 10 microg.g(-1) body weight), aglycin has a hyperglycemic effect resulting in a doubling of the blood glucose level within 60 min. Using surface plasmon resonance biosensor technology, an aglycin binding protein with an apparent molecular mass of 34 kDa was detected in membrane protein extracts from porcine and mice pancreas. The polypeptide was purified by affinity chromatography and identified through peptide mass fingerprinting as the voltage-dependent anion-selective channel protein 1. The results indicate that aglycin has the potential to interfere with mammalian physiology.     

Further studies on bovine serum amylase. 3. Affinity chromatography

The major bovine serum isoamylases controlled by the AmI locus have been examined by gel filtration. On Sephadex G-200 the isoamylases can be resolved into two classes. The AmI A and AmI B have apparent molecular weights of 307,000 daltons whilst the AmI C isozyme has an apparent molecular weight of 44,400 daltons. The separation of the isozymes into two classes according to their elution behaviour on Sephadex G-200 has been shown to be an affinity separation. All three AmI isozymes are eluted from a non-dextran media (BioGel A1.5m) with apparent molecular weights of 417,000 daltons. The affinity separation on Sephadex G-200 has been shown to be inhibited by the addition of 1% (w/v) maltose to the elution buffer. In the presence of 1% (w/v) maltose all three AmI isozymes are coeluted from Sephadex G-200 with apparent molecular weights of 321,000 daltons. The maltase and amylase activities of the AmI isozymes were eluted coincidentally under all the conditions studied.     

Further studies on bovine serum amylase. 3. Affinity chromatography

The major bovine serum isoamylases controlled by the AmI locus have been examined by gel filtration. On Sephadex G-200 the isoamylases can be resolved into two classes. The AmI A and AmI B have apparent molecular weights of 307 000 daltons whilst the AmI C isozyme has an apparent molecular weight of 44 400 daltons. The separation of the isozymes into two classes according to their elution behaviour on Sephadex G-200 has been shown to be an affinity separation. All three AmI isozymes are eluted from a non-dextran media (BioGel A1.5m) with apparent molecular weights of 417 000 daltons. The affinity separation on Sephadex G-200 has been shown to be inhibited by the addition of 1% (w/v) maltose to the elution buffer. In the presence of 1 % (w/v) maltose all three AmI isozymes are coeluted from Sephadex G-200 with apparent molecular weights of 321000 daltons. The maltase and amylase activities of the AmI isozymes were eluted coincidentally under all the conditions studied.     

The effect of phenobarbital and amidopyrine on the rate of decomposition of isoforms of cytochrome P-450 in mouse liver microsomes

Separation of microsomal proteins in gradient polyacrylamide gel gives 60 protein bands. The molecular mass range of 48-58 kDa corresponding to cytochrome isozymes contains 7 bands for intact mice and 8 bands for phenobarbital-induced mice. Phenobarbital treatment causes both the appearance of a new cytochrome P-450 isozyme with a molecular mass of 56 kDa and the increase in the content of three isozymes with molecular masses of 54, 52.5 and 50 kDa. The half-life time of cytochrome P-450 isozymes in the livers of intact and phenobarbital-induced mice differs from 15 to 42 hours. Phenobarbital induction results in the breakdown acceleration of the isozyme with a molecular mass of 52.5 kDa and the breakdown retardation of the isozyme with a molecular mass of 54 kDa. Aminopyrine injections to phenobarbital-pretreated mice result in the breakdown acceleration of the cytochrome P-450 isozyme with a molecular mass of 56 kDa.     

Testis-specific calmodulin-dependent phosphodiesterase. A distinct high affinity cAMP isoenzyme immunologically related to brain calmodulin-dependent cGMP phosphodiesterase

A cell-specific isozyme of calmodulin (CaM)-dependent phosphodiesterase that exhibits micromolar affinity for cAMP has been purified 900-fold from mouse testis by DEAE chromatography, gel filtration, affinity chromatography with CaM-Sepharose 4B, and isoelectric focusing. The highly purified enzyme is stimulated 5-6-fold by CaM in the presence of Ca2+ and hydrolyzes both cAMP and cGMP with anomalous substrate dependence, i.e. high and low affinity components (Km 2 and 20 microM) are observed either in the presence or absence of CaM. Each of the substrates acts as a noncompetitive inhibitor of the other, suggesting the presence of two distinct catalytic sites on the enzyme. Hydrodynamic studies suggest that the testis phosphodiesterase is an asymmetric monomer of 68-70 kDa that forms a dimer after interaction with Ca2+ and CaM; the tetrameric complex exhibits an apparent molecular size of 180 kDa. These enzymatic and biophysical properties differ in many respects from those of the brain isozyme, suggesting that they are different proteins. Nevertheless, common epitopes do exist, since the testis enzyme interacted with rabbit antibodies raised against bovine brain CaM-dependent phosphodiesterase. The major peptide of 68 kDa was strongly reactive on immunoblots, and was distinguished unambiguously from the 60-kDa species from mouse brain. A comparison of the immunoreactive fragments produced by limited proteolysis with staphylococcal V-8 protease indicated several similarities in the domains of these polypeptides. Thus, although differing in several important physical and biochemical parameters, the testis enzyme appears immunologically related to CaM-dependent phosphodiesterase from brain. On the basis of these data, we conclude that common elements of the structural genes for these isozymes have been conserved, whereas certain biological properties, including substrate specificity, have diverged substantially.     

Purification and characterization of a recombinant alpha-N-acetylgalactosaminidase from Clostridium perfringens

Clostridium perfringens alpha-N-acetylgalactosaminidase (alphaNAG) hydrolyzed the terminal N-acetyl-alpha-d-galactosamine from the blood type A(2) antigen producing H antigen, blood type O. Blood type O is universally compatible in the ABO system. Purification of the native enzyme is difficult with very low yields. To obtain the enzyme in satisfactory yield, the gene encoding the clostridial enzyme was cloned in an Escherichia coli T7 expression system. A highly purified preparation of recombinant alphaNAG was obtained from cell lysates by ion-exchange chromatography and high-pressure liquid chromatography. The final preparation was homogeneous by SDS-PAGE with a molecular mass of 71.96kDa and the native molecular weight of 72.42kDa. The enzyme was highly selective for terminal N-acetylgalactosamine residues. No other significant exoglycosidase activities, particularly neuraminidase, were detected. The pH optimum of the enzyme was between 6.5 and 7.0 and activity was relatively unaffected by ionic strength. ELISA experiments demonstrated activity against blood type A(2) epitope. These characteristics were similar to those of native alphaNAG from C. perfringens. With adequate expression in E. coli, sufficient recombinant alphaNAG enzyme mass can be obtained for potential use in enzymatic conversion of human blood type A(2) red blood cells to universally transfusable type O red blood cells.     

Purification of lectin from fruiting bodies of Lactarius rufus (Scop.: Fr.)Fr. and its carbohydrate specificity

A lectin from fruiting bodies of Lactarius rufus (Scop.: Fr.)Fr. has been purified by affinity chromatography on copolymer of polyvinyl alcohol with a blood group B specific substance. The lectin gives a single band at disk-electrophoresis in acidic (pH 4.3) and alkaline (pH 8.6) buffer systems. Under electrophoresis in 10-20% SDS-PAGE, the lectin consists of identical subunits with molecular weight 17 +/- 1 kDa. Molecular weight of the lectin is 98 kDa according to gel-chromatography on Tojopearl HW-55. It is supposed that the lectin contains six subunits. The lectin is quite enough stable in pH 4.0-10.0, its activity does not depend upon bivalent metal ions. When heating the lectin solution to 65 degrees C it lost more than 85% of its activity. The lectin agglutinates human etrythrocytes without any marked group specificity, it agglutinates 2-4 times worse rabbit erythrocytes, very weakly crucian erythrocytes and does not agglutinate sheep erythrocytes. Mono- and disaccharides are not inhibitors of the lectin activity, while alpha-phenyl-N-acethyl-D-glucosaminopyranosid (0.08 mM) and 4-nitrophenyl-beta-D-glucosamin are the best inhibitors of its activity. Among glycoproteins the best inhibitors of the lectin activity are: group-specific substances from human blood erythrocytes, asialosubmaxillary bovine mucin, human and bovine thyroglobulin and more weak inhibitors are fetuin, transferrin and human Ig G.