Intracellular pH regulation in ventral horn neurones cultured from embryonic rat spinal cord

Summary

We have isolated and characterized a cDNA from the marine sponge Geodia cydonlum coding for a new member of the tyrosine protein kinase (TK) family. The cDNA encodes a protein of M_r = 68 710, termed GCTK, which is homologous to class II receptor tyrosine kinases (RTKs). GCTK contains conserved amino acids (aa) characteristic of all protein kinases, and the sequences DLATRN and PIRWMATE which are highly specific for TKs. Furthermore, the sequence N-L-Y-x(3)-Y-Y-R Is highly homologous to the sequence D-[LIV]-Y-x(3)-Y-Y-R found only in class II RTKs. The sponge TK, when compared with mammalian class II RTKs, shows maximum 31% homology in the TK domain indicating that this the oldest member of class II RTK started to diverge from the common ancestral protein kinase 650 million years ago. Using GCTK as a probe we identified three mRNA signals ranging from 2μ6 to 0μ6 kb. Kinase activity was localized only in the cell membranes from G. cydonium (M_r = 65 000), and was not detected in the cytosol of this organism. Antibodies raised against a synthetic peptide, corresponding to the aa residues within the catalytic domain of the sponge TK, recognized strongly two proteins of M_r = 65 000; these proteins, present in membrane fractions, also bound to the anti-phosphotyrosine antibody. These data suggest that the TK cloned from the sponge is a membrane-associated 65 kDa protein. Moreover these results demonstrate that RTKs are present from the lowest group of multicellular eukaryotes, sponges, to mammals, and may suggest that RTKs are involved in a signal transduction pathway.     

Molecular cloning and primary structure of a Rhesus (Rh)-like protein from the marine sponge Geodia cydonium

 In humans, the 30 000 M _r Rhesus (Rh) polypeptide D (RhD) is a dominant antigen (Ag) of the Rh blood group system. To date, an Rh-like protein has been found in chimpanzees, gorillas, gibbons, and rhesus monkeys. Related to the 30 000 M _r Rh Ag protein are two polypeptides of 50 000 M _r , the human 50 000 M _r Rh Ag and the RhD-like protein from Caenorhabditis elegans. The function of all these proteins is not sufficiently known. Here we characterize a cDNA clone (GCRH) encoding a putative 57 000 M _r polypeptide from the marine sponge Geodia cydonium, which shares sequence similarity both to the RhD Ag and the Rh50 glycoprotein. The sponge Rh-like protein comprises 523 aa residues; hydropathy analysis hints at the presence of ten transmembrane domains. An N-terminal hydrophobic cleavage signal sequence is missing, suggesting that the first membrane-spanning domain of the sponge Rh-like protein acts as a signal-anchor sequence. The sponge Rh-like protein, like the human Rh50, lacks the CLP motif which is characteristic of the 30 000 M _r RhD. In addition, the hydropathy profile of the sponge Rh-like protein is of a similar size and shape as that of human Rh50. This data indicates that the RhD and its structurally related Rh50 glycoprotein, which are highly immunogenic in humans, share a common ancestral molecule with the G. cydonium Rh-like protein. Received: 9 April 1997 / Revised: 29 May 1997     

Identification and further characterization of the specific cell binding fragment from sponge aggregation factor

Monoclonal antibodies (McAbs) were raised against the aggregation factor (AF) from the marine sponge Geodia cydonium. Two clones were identified that secrete McAbs against the cell binding protein of the AF complex. Fab fragments of McAbs: 5D2-D11 completely abolished the activity of the AF to form secondary aggregates from single cells. The McAbs were determined to react with the AF in vitro; this interaction was prevented by addition of the aggregation receptor, isolated and purified from the same species. After dissociation of the AF by sodium dodecyl sulfate and 2-mercaptoethanol, followed by electrophoretical fractionation, a 47-kD protein was identified by immunoblotting which interacted with the McAbs: 5D2-D11. During this dissociation procedure, the sunburst structure of the AF was destroyed. In a second approach, the 47-kD protein was isolated by immunoprecipitation; 12 molecules of this protein species were calculated to be associated with the intact AF particle. The 47-kD AF fragment bound to dissociated Geodia cells with a high affinity (Ka of 7 X 10(8) M-1) even in the absence of Ca++ ions; the number of binding sites was approximately 4 X 10(6)/cell. This interaction was prevented by addition of the aggregation receptor to the 47-kD protein in the homologous cell system. Moreover, it was established that this binding occurs species-specifically. The 47-kD fragment of the AF was localized only extracellularly by indirect immunofluorescence staining in cryostat slices. These data suggest that the 47-kD protein is the cell binding molecule of the AF from Geodia.     

Aggregation of sponge cells: 22. Species-specific reactivity of a lectin from the sponge Geodia cydonium

Single cells of the marine sponge Geodia cydonium aggregate species-specifically in the presence of a soluble aggregation factor to form large cell clumps. A lectin isolated from the same sponge species does not cause agglutination of Geodia cells but agglutinates only cells from heterologous species (e.g. Tethya lyncurium, Hemimycale columella, Pellina semitubulosa, Cacospongia scalaris, Verongia aerophoba). The process of agglutination is independent of divalent cations (they do not affect the agglutination process at concentrations up to 50 mM), occurs at 2°C, causes a reduction in the viability of the cells and results in an inhibition of programmed syntheses. The observed differences between the properties of cell agglutination (effect of a lectin in a heterologous system) and cell aggregation (effect of an aggregation factor in the homologous system) is discussed. Cell aggregation is dependent upon the presence of an aggregation factor, the presence of cations and an incubation temperature 2̃0°C; cell aggregation results in a stimulation of programmed syntheses. Cell agglutination requires a heterologous macromolecule (e.g. lectin), it is independent of divalent cations and causes inhibition of programmed syntheses in the cells.     

Sponge cell aggregation

Summary Dissociated sponge cell system has proved to be a useful model to study the process of cell aggregation both on cellular and subcellular level. The purpose of this review is to discuss recent results obtained from experiments with the marine sponge Geodia cydonium.Dissociated cells form functional aggregates during a process which can be sub-divided into three phases: first, formation of small primary aggregates in the presence of Ca²⁺; second, formation of secondary aggregates in the presence of an aggregation factor and third, reconstitution of a functional system of watercontaining channels by rearrangement in the secondary aggregates.On subcellular level a series of macromolecules are known which are involved in the control of aggregation and separation of sponge cells: Aggregation factor, aggregation receptor, anti-aggregation receptor, glucuronidase, ß-glucuronosyltransferase, ß- ß-galactosidase and a lectin. These components might be linked in the following sequence: (a) Activation of the aggregation receptor by its enzymic glucuronylation; (b) Adhesive recognition of the cells, mediated by the aggregation factor and the glucuronylated aggregation receptor; (c) Inactivation of the aggregation receptor by its deglucuronylation with the membrane-associated ß-glucuronidase; (d) Cell separation due to either the loss of the recognition site (glucuronic acid) of the aggregation receptor for the aggregation factor or to an inactivation of the aggregation factor by the anti-aggregation receptor. The activity of the anti-aggregation receptor is most likely controlled by the Geodia lectin.The events leading to cell-cell recognition cause a change in the following metabolic events: Increase of oxygen uptake, decrease of cyclic AMP level, increase of cyclic GMP level and stimulation of programmed syntheses.Abbreviations AF aggregation factor - CPP circular proteid particle - AR aggregation receptor - aAR anti-aggregation receptor - CMF calcium- and magnesium-free artificial sea water - ASW calcium- and magnesium-containing artificial sea water This paper is dedicated to PROF. DR. R. K. ZAHN on the occasion of his 60^th birthday.     

Regulated expression and phosphorylation of the 23-26-kDa ras protein in the sponge Geodia cydonium

We have cloned, sequenced and examined the sponge Geodia cydonium cDNA encoding a protein homologous to ras proteins. The sponge ras protein has a more conserved N-terminal region and a less conserved C-terminal region, especially in comparison to Dictyostelium discoideum; the similarity to human c-Ha-ras-1 and to Saccharomyces cerevisiae is less pronounced. The sponge ras cDNA comprises five TAG triplets; at the translational level these UAG termination codons are suppressed by a Gln-tRNA. The sponge ras protein was isolated and partially purified (23-26 kDa) and found to undergo phosphorylation at a threonine moiety, when dissociated cells were incubated in the presence of a homologous aggregation factor and insulin. Insulin-mediated phosphorylation of the ras protein resulted in a decrease in its Kd with GTP from 2 microM to 80 nM. The activated ras protein displayed high GTPase activity if the partially purified protein was incubated with homologous lectin and lectin receptor molecules. These results suggest that in the sponge, ras is activated by the insulin/insulin(insulin-like)-receptor system. This transition enables the ras protein to interact with the lectin-receptor/lectin complex, a process which may ultimately lead to an initiation of an intracellular signal-transduction chain.     

Purification of GP57, and auxin-regulated extracellular glycoprotein of carrots,and its immunocytochemical localization in dermal tissues

A glycoprotein (GP57) was purified by ion-exchange and hydroxylapatite column chromatography from the 70%-ethanol precipitate of culture medium of non-embryogenic carrot cells (Daucus carota L.) grown with 2,4-dichlorophen-oxyacetic acid (2,4-D). Its apparent molecular mass (M _r) was estimated to be 57000 by sodium dodecylsulfate-polyacrylamide gel electrophoresis and 50000 by gel filtration. GP57 contained 14% (w/w) carbohydrate; the M _r of the peptide portion was estimated to be 55000 after deglycosylation by trifluoromethanesulfonic acid. GP57 is composed of two polypeptides with the same M_r and with very similar amino-acid composition but different pI values, 8.8 and 9.5. Both are rich in aspartic acid, serine and threonine, and may possess N-linked oligosaccharide chains, including fucose and xylose. A monoclonal antibody (MAb) against the purified GP57 reacted with both the pI 8.8 and the 9.5 components, as well as the deglycosylated GP57. Immunoblotting with the MAb indicated that GP57 is synthesized in and released from cultured cells which have been supplied with auxin. In immunocytochemical studies, GP57 was found in the space between the embryo and the endosperm of dry seeds, and its content decreased during germination. GP57 was also found in the endodermis and epidermis of young roots, the periderm of mature taproots, and the epidermis of petioles and young leaves.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - GP57 M _r-57000 glycoprotein - GP65 M _r-65000 glycoprotein - MAb monoclonal antibody - M _r apparent molecular mass - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis - TFMS trifluoromethanesulfonic acid     

Comparison of acetyl-CoA carboxylases from parsley cell cultures and wheat germ

The activity of acetyl-CoA carboxylase of suspension-cultured cells of parsley (Petroselinum hortense Hoffm.) is greatly stimulated by light soon after transferring cells to new culture medium. Parsley acetyl-CoA carboxylase has been purified from frozen cells by treatment of the crude protein extract with Dowex 1 × 2 and polyethyleneimine, precipitation with (NH₄)₂SO₄, chromatography on DEAE-cellulose and blue Sepharose CL-6B, and gel filtration on Sepharose 6B. A recovery of about 8% has been achieved with a 300-fold increase in specific activity. Wheat germ acetyl-CoA carboxylase has been purified 2180-fold by a similar procedure. The two carboxylases have the following characteristics: Molecular weights of 840,000 for the parsley carboxylase and 700,000 for the wheat germ carboxylase have been estimated from the elution volumes of a calibrated Sepharose 6B column. Analysis by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate showed that the carboxylases from parsley and wheat each are composed of one large subunit (M_r = 210,000 and 240,000, respectively) and possibly one smaller polypeptide component (M_r = 105,000 and 98,000, respectively). Avidin-binding experiments demonstrated that the 240,000 — M_r component of wheat germ carboxylase is the biotin-containing subunit of this enzyme. No isoenzymes of the parsley carboxylase could be demonstrated.     

Aggregation of sponge cells: a novel mechanism of controlled intercerllular adhesion

From the marine sponge Geodia cydonium a series of macromolecules have been isolated and characterized which are involved in the control of aggregation and separation of sponge cells; these include aggregation factor, aggregation receptor, anti-aggregation receptor, β-glucuronidase, β-glucuronosyltransferase, β-galactosyltransferase, β-galactosidase and a lectin. These components might be linked in the following sequence: (a) activation of the aggregation receptor by its enzymic glucuronylaion; (b) adhesive recognition of the cells, mediated by the aggregation factor and the glucuronylated aggregation receptor; (c) inactivation of the aggregation receptor by its deglucuronylation with the membrane-associated β-glucuronidase; (d) cell separation due either to the loss of the recognition site (glucuronic acid) of the aggregation receptor for the aggregation factor or to an inactivation of the aggregation factor by the anti-aggregation receptor. The activity of the anti-aggregation receptor is probably controlled by the Geodia lectin.     

The purification and partial amino acid sequence of a polypeptide from the glutelin fraction of rice grains; homology to pea legumin

The glutelin fraction was extracted from grain meals of rice (Oryzea sativa) with 50 mM Tris-HCl buffer (pH 8.8) containing 6 M urea and 10 mM 2-mercaptoethanol. Polypeptides of glutelin were separated and purified by ion-exchange chromatography under denaturing conditions. Analysis by two-dimensional gel electrophoresis showed that 2 major polypeptides of the rice glutelin fraction, M_r 36 000 and 22 000, were linked in disulphide bonded pairs containing one M_r 36 000 and one M_r 22 000 subunit. A partial amino acid sequence of the purified M_r 22 000 glutelin subunit showed it to be homologous to the β-subunit of pea legumin, a storage protein which also contains disulphide-linked subunit pairs (M_r 38 000 and M_r 22 000). It is therefore proposed that the major component of rice glutelin is a legumin-like protein.     

Species-specific aggregation factor in sponges. VII. Its effect on cyclic amp and cyclic gmp metabolism in cells of Geodia cydonium.

In dissociated single cells from the sponge Geodia cydonium, DNA synthesis is initiated after incubation with a homologous, soluble aggregation factor. During the DNA-initiation phase the cyclic AMP- and cyclic GMP levels vary drastically; the cyclic AMP content drops from 2.2 pmol/10(6) cells to 0.3 pmol/10(6) cells while the cyclic GMP content increases from 0.6 pmol to 3.7 pmol/10(6) cells. The activity of neither the adenylate cyclase nor of the guanylate cyclase isolated from cells which have been incubated for different periods of time with the aggregation factor, is changed. The soluble as well as the particulate enzyme activities were checked in vitro. The cyclic nucleotide receptors have been isolated from the sponge cells and characterized with respect to their molecular weight, dissociation constant for cyclic AMP or cyclic GMP and intracellular concentration. None of these parameters are altered during aggregation factor-mediated DNA initiation. From these data it is concluded that the regulation of cyclic nucleotide levels is a consequence of a changed activity of nucleotide cyclases or of phosphodiesterases, but this is presumably not caused by a changed rate of synthesis of nucleotide cyclases or of cyclic nucleotide receptors.     

Species-Specific Aggregation Factor In Sponges

In dissociated single cells from the sponge Geodia cydonium, DNA synthesis is initiated after incubation with a homologous, soluble aggregation factor. During the DNA -initiation phase the cyclic AMP - and cyclic GMP levels vary drastically; the cyclic AMP content drops from 2.2 pmol/10⁶ cells to 0.3 pmol/10⁶ cells while the cyclic GMP content increases from 0.6 pmol to 3.7 pmol/10⁶ cells. the activity of neither the adenylate cyclase nor of the guanylate cyclase isolated from cells which have been incubated for different periods of time with the aggregation factor, is changed. the soluble as well as the particulate enzyme activities were checked in vitro. the cyclic nucleotide receptors have been isolated from the sponge cells and characterized with respect to their molecular weight, dissociation constant for cyclic AMP or cyclic GMP and intracellular concentration. None of these parameters are altered during aggregation factor-mediated DNA initiation. From these data it is concluded that the regulation of cyclic nucleotide levels is a consequence of a changed activity of nucleotide cyclases or of phosphodiesterases, but this is presumably not caused by a changed rate of synthesis of nucleotide cyclases or of cyclic nucleotide receptors.     

The aggregation states of spinach phosphoribulokinase

Phosphoribulokinase (PRK; EC 2.1.7.19) is active in illuminated chloroplasts and inactive in darkened chloroplasts. This regulatory mechanism is mediated by thioredoxin-dependent reduction of a kinase disulfide in vivo. Extracts of spinach (Spinacia oleracea L.) leaves in the presence of 10 mM dithiothreitol contain a single 80-kDa form of PRK as judged by gel filtration. Gel filtration of thiol-free extracts of light-harvested tissue shows the presence of two inactive forms of PRK, the 80-kDa form and an aggregate (> 550 kDa) form, but treatment of both forms with dithiothreitol restores kinase activity. Gel filtration following extraction of dark-harvested tissue in the absence of dithiotreitol demonstrates the presence of only the heavier form. Inclusion of 400 mM (NH₄)₂SO₄ in the homogenization buffer during extraction of light-harvested tissue suppresses the formation of the high-M _r form of PRK, but does not eliminate the aggregate form observed in extracts of dark-harvested leaves. However, prolonged treatment of extracts from dark-harvested tissue with 400 mM (NH₄)₂SO₄ results in conversion of the high-M _r form of phosphoribulokinase to the low-M _r form. The data are consistent with the heavier form of phosphoribulokinase being the normal in-vivo aggregation state in the dark, while the lighter form is the normal aggregation state in the light.This research was sponsored jointly by the science and education administration of the U.S. Department of Agriculture under Grant No. 88-37130-3722 from the Competitive Research Grants Office and by the Office of Health and Environmental Research, U.S. Department of Energy under Contract DE-AC05-84OR21400 with Martin Marietta Energy Systems Inc., Oak Ridge, Tenn., USA. The author is Postdoctoral Investigator supported by the U.S. Department of Agriculture through Subcontract No. 88-37130-3722 from the Biology Division of Oak Ridge National Laboratory to the University of Tennessee.     

Species-specific aggregation factor in sponges. V. Influence on programmed syntheses.

Isolated cells from the siliceous sponge Geodia cydonium as well as small primary aggregates (diameter: 70 mum) consisting of them show no increase in rates of programmed syntheses and mitotic activity with time. After addition of a highly purified aggregation factor to a culture with primary aggregates which subsequently form secondary aggregates (diameter: larger than 1000 mum), a dramatic increase of DNA, RNA and protein synthesis occurs. Together with this increase, the cells show a high mitotic activity. The values for the mitotic coefficient reach a first maximum 8 h after the beginning of the secondary aggregation process. The stimulation of the mitotic activity of cells during the aggregation factor induced secondary aggregation process can be suppressed by inhibitors of RNA and protein synthesis as well as by a blocker of DNA synthesis. This finding may indicate that cells from the G0-population enter the proliferating cell pool via the G1-phase.     

Liver protein phosphatases: studies of the presumptive native forms of phosphorylase phosphatase activity in liver extracts and their dissociation to a catalytic subunit of Mr 35,000.

Several aspects of the properties of phosphorylase phosphatase in crude rat liver extracts were investigated. Treatment of tissue extracts with either trypsin, ethanol, or urea was found to dissociate phosphorylase phosphatase activity to a form of M_r 35,000. The M_r 35,000 enzyme form was derived from three native enzyme forms. The major cytosolic form of phosphorylase phosphatase had a molecular weight of 260,000 as determined by gel filtration and was dissociated to a M_r 35,000 form by treatment with either ethanol or urea. Treatment of the M_r 260,000 form with trypsin led to its conversion to M_r 225,000 and a M_r 35,000 form. A minor cytosolic form of M_r 200,000 was also present. This minor activity was latent until activated by trypsin treatment and was converted to a M_r 35,000 form by such treatment. The third form was found to chromatograph as a form of molecular weight greater than 500,000 on gel filtration and, like the M_r 200,000 form, was only detected after activation with trypsin. Subsequent to this treatment, it too behaved as a M_r 35,000 enzyme. Although a single major enzyme form was present in the cytosol, multiple molecular weight forms could be generated in crude extracts simply by the use of vigorous mechanical homogenization procedures. This suggested that artifactual forms of enzyme may readily be produced, possibly by proteolytic cleavage of the native enzyme.     

Characteristics of intracellular proteolytic activities ofBacillus megaterium

Intracellular proteolytic activities ofB. megaterium KM occur soluble in the cytoplasm and periplasm and insoluble in the membrane. Two proteolytic enzymes were found in the cytoplasmic fraction by gel filtration on Sephadex G 150 and by polyacrylamide gel electrophoresis. The first enzyme called C_I was stable, had a relative molecular mass ofM _r=105000 (M=105 kg/mol) and was inhibited by EDTA and PMSF, whereas the second, designated C_II, was labile and had a relative molecular mass ofM _r=46000 (M=46 kg/mol). Because of its lability it could not be characterized in detail. In the “periplasm” only a single proteolytic enzyme P (M _r=28000;M=28 kg/mol) inhibited by EDTA could be demonstrated. The extracellular enzyme exhibited similar properties. The membrane proteolytic activity was sensitive to PMSF and EDTA. The membrane enzymes have not yet been solubilized. In cells of the mutant KM 12 that does not produce the extracellular proteinase, only one type of proteinase, in all its properties identical with the cytoplasmic proteinase C_I, could be demonstrated.     

Isolation and characterization of a small molecular weight protein of linseed meal

A small M_r, protein from linseed meal has been isolated by CM-Sephadex chromatography. The protein was found to be homogeneous by the techniques of gel filtration, polyacrylamide gel electrophoresis and ultracentrifugation. It had S_20,w value of 1.6S. Amino acid composition of the protein revealed a high amount of glutamic acid, cystine, arginine and glycine. The absorption spectrum of the protein consisted of a peak at 280 nm with a shoulder at 290 nm. The fluorescence emission maximum was at 340 nm. The protein contained large amounts of α-helix and β-structure. SDS-PAGE showed the protein to consist of a single polypeptide chain. The M_r estimated by Archibald's method, sedimentation-diffusion method and gel filtration was 17 000,16 000 and 15 000 respectively. Difference spectra studies as a function of pH and temperature showed no variation in the conformation of the protein, probably due to disulphide bridges.     

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, $\text{O-(α-2-}\text{sulphamino}\text{-2-}\text{deoxy-}\text{D}\text{-glucopyranosyl}\text{)-(1→3)-}\text{L}\text{-[6,}{}^3\text{H]}\text{idonic}$ 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 M_r of the haloenzyme as determined by gel filtration was 190 000 ± 20 000. Two other larger M_r 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 electrophoreced as a single major band with an apparent M_r corresponding to 55 000 ± 6000.     

Concanavalin A is synthesized as a glycoprotein precursor

Concanavalin A (Con A) is a tetrameric lectin which is synthesized in the cotyledons of developing jack-bean (Canavalia ensiformis (L.) D.C.) seeds and accumulates in the protein bodies of storage-parenchyma cells. The polypeptides of Con A have a molecular weight of 27000 and a relative molecular mass (M_r) of 30000 when analyzed by gel electrophoresis on denaturing polyacrylamide gels. In-vitro translation of RNA isolated from immature jack-bean cotyledons shows that Con A is synthesized as a polypeptide with M_r 34000. In-vivo pulse labeling of cotyledons with radioactive amino acids or glucosamine also resulted in the formation of a 34000-M_r polypeptide. In-vivo labeling with radioactive amino acids in the presence of tunicamycin yielded an additional polypeptide of 32000 M_r. Together these results indicate that Con A is cotranslationally processed by the removal of a signal sequence and the addition of an oligosaccharide side chain of corresponding size. Analysis of the structure of the oligogosaccharide side chain was accomplished through glycosidase digestion of glycopeptides isolated from [³H]glucosamine-labeled Con A. Incubation of the labeled glycopeptides with endoglycosidase H, -mannosidase or -N-acetylglucosaminidase, followed by gel filtration, allowed us to deduce that the oligosaccharide side chain of pro-Con A is a high-mannose oligosaccharide. Pulse-chase experiments with labeled amino acids are consistent with the interpretation that the glycosylated precursor of Con A is processed to mature Con A (M_r=30000). The 4000 decrease in M_r is interpreted to result from the removal of a small glycopeptide. The implications of the conversion of a glycoprotein pro-Con A to mature Con A are discussed in the context of the unique circular permutation of the primary structure of Con A.Abbreviations Con A concanavalin A - Glc glucose - GlcNAc N-acetylglucosamine - IgG immunoglobulin G - Man mannose - M_r relative molecular mass - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis