Free alpha subunits of glycoprotein hormone with dissimilar carbohydrates produced by pathologically different carcinomas

The two kinds of glycoprotein hormone alpha subunit ectopically produced by an undifferentiated carcinoma of the left femoral region (TM-alpha) and an adenocarcinoma of the right external genitalia (FS-alpha) were examined for amino acid composition, isoelectric focusing, molecular weight, the ability to combine with standard hCG beta and affinity with lectins (Con A, Ricin and PNA). Both TM-alpha and FS-alpha exhibited immunoantigenicity similar to standard hCG alpha. Furthermore, there were no significant differences in the amino acid compositions of TM-alpha, FS-alpha or standard hCG alpha. In isoelectric focusing, while standard hCG alpha exhibited a neutral charge, both TM-alpha and FS-alpha exhibited strong negative charges. FS-alpha was as sensitive to sialidase as standard hCG alpha, whereas most of the TM-alpha exhibited resistance to sialidase. TM-alpha contains sialidase-insensitive peripheral material with a negative charge. The affinity with Ricin-Sepharose indicated that most of the FS-alpha and some of the TM-alpha may contain terminal sialic acid and the penultimate structure, Gal beta 1----4G1cNAc; the affinity with PNA-Sepharose indicated that both may also contain terminal sialic acid and the penultimate structure, Gal beta 1----3GalNAc. These observations suggest that dissimilar glycosylation processes are present in the carcinoma ectopic biosynthesis of glycoprotein hormone alpha subunit.     

Characterization of the expression products of recombinant human choriogonadotropin and subunits

Human choriogonadotropin (hCG) is a placental glycoprotein hormone composed of a 92-amino acid alpha subunit noncovalently linked to a 145-amino acid beta subunit. We report here the expression of biologically active hCG in mouse C127 cells transfected with expression vectors containing the DNA coding for both subunits. In addition, the same cell line was used to express the alpha subunit alone. The expression products were purified by affinity chromatography using specific monoclonal antibodies to hCG or its subunits. The system secreting biologically active hCG also produced a 10-fold or greater molar excess of free beta subunit. The dimeric hormone, as well as the excess beta subunit, resembles the standard urinary hCG and beta subunit by chemical and biological criteria. In contrast, when the vector encoding for the alpha subunit was expressed alone, the alpha subunit had a higher molecular weight than both standard alpha and the alpha found in the expressed dimeric hormone. The molecular weight difference between expressed alpha subunit and standard alpha was found to reside in the alpha peptide consisting of residues 52-91 which contained all of the carbohydrate of the alpha subunit. The N-asparagine-linked carbohydrate moieties in the recombinant alpha were found to be triantennary in contrast to biantennary in urinary alpha, and this hyperglycosylation was responsible for the higher molecular weight of the alpha subunit when it was expressed alone. We found no evidence of O-threonine glycosylation at position alpha 39 reported to be present in free forms of the alpha subunit; however, the companion paper (Corless, C.L., Bielinska, M., Ramabhadran, T. V., Daniels-McQueen, S. Otani, T., Reitz, B. A., Tiemeier, D. C., and Boime, I. (1987) J. Biol Chem. 262, 14197-14203) finds a small quantity of O-glycosylation. Since the excess beta subunit appears to be of normal size and contains the expected complement of sugars, only free alpha subunit seems to be a potential substrate for addition of extra sugar moieties. No large beta subunit forms have been found by others, while large alpha subunits have been described both clinically and in tissue culture systems. These observations imply that the conformation of the free alpha subunit, in the regions of the glycosylation recognition sites, allows easier access for glycosyltransferases than those same sites in the beta subunit. When alpha is combined with beta, the local structures around the alpha glycosylation sites are apparently altered so as to make the synthesis of triantennary chains less favorable.     

Covalent cross-links between the gamma subunit (FXYD2) and alpha and beta subunits of Na,K-ATPase: modeling the alpha-gamma interaction

This study describes specific intramolecular covalent cross-linking of the gamma to alpha and gamma to beta subunits of pig kidney Na,K-ATPase and rat gamma to alpha co-expressed in HeLa cells. For this purpose pig gammaa and gammab sequences were determined by cloning and mass spectrometry. Three bifunctional reagents were used: N-hydroxysuccinimidyl-4-azidosalicylic acid (NHS-ASA), disuccinimidyl tartrate (DST), and 1-ethyl-3-[3dimethylaminopropyl]carbodiimide (EDC). NHS-ASA induced alpha-gamma, DST induced alpha-gamma and beta-gamma, and EDC induced primarily beta-gamma cross-links. Specific proteolytic and Fe(2+)-catalyzed cleavages located NHS-ASA- and DST-induced alpha-gamma cross-links on the cytoplasmic surface of the alpha subunit, downstream of His(283) and upstream of Val(440). Additional considerations indicated that the DST-induced and NHS-ASA-induced cross-links involve either Lys(347) or Lys(352) in the S4 stalk segment. Mutational analysis of the rat gamma subunit expressed in HeLa cells showed that the DST-induced cross-link involves Lys(55) and Lys(56) in the cytoplasmic segment. DST and EDC induced two beta-gamma cross-links, a major one at the extracellular surface within the segment Gly(143)-Ser(302) of the beta subunit and another within Ala(1)-Arg(142). Based on the cross-linking and other data on alpha-gamma proximities, we modeled interactions of the transmembrane alpha-helix and an unstructured cytoplasmic segment SKRLRCGGKKHR of gamma with a homology model of the pig alpha1 subunit. According to the model, the transmembrane segment fits in a groove between M2, M6, and M9, and the cytoplasmic segment interacts with loops L6/7 and L8/9 and stalk S5.     

A method for assessing the reassembly of a multisubunit glycoprotein by western blotting

The Western blot procedure has been adapted to detect the reassembly of a two-subunit glycoprotein, urinary human chorionic gonadotropin (hCG), directly on the nitrocellulose. This glycoprotein is composed of two nonidentical subunits, alpha and beta. A simple procedure using immunoblotting has been developed to detect reassembly of the monomers to dimer. Three monoclonal antibodies were required for the development of this method: A109, which binds the alpha subunit or hCG; B105, which binds the beta subunit or hCG; and B107, specific for the intact hCG dimer. The alpha subunit and beta subunit of hCG were each electrophoresed and transferred to nitrocellulose, and the transfer was then incubated with the appropriate complementary subunit; reassembly of the dimer was determined by the binding of the monoclonal antibody B107. Evidence that the reassembly occurs directly on the nitrocellulose comes from the fact that B107 immunoreactivity is detected at the molecular weight position of the subunit and not at the dimer molecular weight. A genetically expressed recombinant form of the alpha subunit was also tested for its ability to recombine with the opposite subunit to produce the dimer. The recombinant alpha subunit was determined to have additional carbohydrate which interfered with the binding of the beta subunit. N-Glycanase digestion of the recombinant alpha subunit produced a form which, when incubated with the beta subunit, did recombine on the nitrocellulose and could be recognized by B107.     

An oligosaccharide of the O-linked type distinguishes the free from the combined form of hCG alpha subunit

JAR malignant trophoblast cells produce a free alpha subunit in addition to an alpha combined with beta subunit as hCG. The free alpha is larger by gel chromatography and SDS-PAGE than combined alpha and is unable to associate with beta subunit to form hCG. A tryptic fragment, representing amino acid residues 36-42, derived from free alpha was larger than the corresponding fragment from combined alpha. After neuraminidase treatment, the fragment from free alpha bound peanut lectin agarose, which is specific for Gal beta 1-3GalNAc as found in O-linked oligosaccharides. The fragment also contained Gal and GalNAc (and a lesser amount of GlcNAc) as determined by glycosidase sensitivity and amino sugar analyses. Removal of this tryptic fragment ablated the size difference between free and combined alpha subunits.     

Role of the invariant aspartic acid 99 of human choriogonadotropin beta in receptor binding and biological activity

The four human glycoprotein hormones are heterodimers that contain a common alpha subunit and a hormone-specific beta subunit. Within this hormone family, 23 amino acid sequences from 11 mammalian species are available. There are 19 invariant amino acid residues in the beta subunits, 12 of which are Cys that form six disulfide bonds. Of the remaining seven conserved amino acid residues, we have investigated the role of an Asp which occurs at position 99 in human choriogonadotropin beta (hCG beta). Site-directed mutagenesis was used to replace hCG beta Asp99 with three residues, Glu, Asn, and Arg, and to prepare an inversion double mutant protein, Arg94----Asp and Asp99----Arg. The cDNAs were placed in a eukaryotic expression vector, and the plasmids were transiently transfected into Chinese hamster ovary cells containing a stably integrated gene for bovine alpha. Radioimmunoassays demonstrated that the mutant forms of hCG beta were capable of subunit assembly to the same extent as hCG beta wild type. The heterologous heterodimers were assayed in vitro using transformed mouse Leydig cells (MA-10) by competitive inhibition of 125I-hCG binding and stimulation of progesterone production. The gonadotropins containing Glu and Asn were active, although the potency was less than that associated with the hCG beta wild type-containing gonadotropin. In contrast, the Arg99-containing mutant protein and the inversion mutant protein Asp94/Arg99 were devoid of activity. Thus, in hCG beta Asp99 can be substituted with certain residues without total loss of function, although replacement with a positively charged residue leads to an inactive heterodimer. The primary role of Asp99 in hCG beta seems to involve, either directly or indirectly, receptor recognition.     

Chicken liver H-protein, a component of the glycine cleavage system. Amino acid sequence and identification of the N epsilon-lipoyllysine residue

The complete amino acid sequence of H-protein from chicken liver was determined by aligning peptides obtained by cyanogen bromide, endoproteinase Lys-C, Staphylococcus aureus V8 protease, and chymotrypsin cleavage together with the partial NH2- and COOH-terminal sequence of the intact protein. H-protein consists of 125 amino acids and a lipoic acid moiety linked to lysine 59. The sequence is: (sequence in text). The lysyl residue involved in lipoic acid attachment is indicated with an asterisk. The molecular weight including lipoic acid is calculated to be 13,883. From the secondary structure predicted by the method of Chou and Fasman (Chou, P. Y., and Fasman, G. D. (1978) Adv. Enzymol. 47, 45-148) the lipoic acid binding region shows alpha-helical structure and is predicted to be an interior portion of the protein from the hydropathic profile according to Kyte and Doolittle (Kyte, J., and Doolittle, R. F. (1982) J. Mol. Biol. 157, 105-132).     

Conversion of lysine 91 to methionine or glutamic acid in human choriogonadotropin alpha results in the loss of cAMP inducibility.

Human choriogonadotropin (hCG) is a heterodimeric glycoprotein hormone. The alpha subunit comprises 92 amino acids, of which 6 are Lys residues (Morgan, F.G., Birken, S., and Canfield, R.E. (1975) J. Biol. Chem. 250, 5247-5258). Our photoaffinity-labeling studies indicate that several of these Lys residues make contact with the lutropin receptor and are covalently cross-linked to the receptor. Lys-91 of the alpha subunit is of interest because deletion of the two alpha C-terminal residues, Lys-91 and Ser-92, results in a significant reduction in the bioactivity of lutropin and thyrotropin (Cheng, K.-W., Glazer, A.N., and Pierce, J.G. (1973) J. Biol. Chem. 248, 7930-7937). To determine the importance of Lys-alpha 91, we substituted it with Arg, Met, or Glu. The resulting mutant alpha cDNA constructs were co-transfected into CHO cells with the wild type hCG beta cDNA construct. Secreted hCG dimers were assayed for binding to receptors on porcine granulosa cells and stimulation of cAMP synthesis in a murine Leydig tumor cell line. The natural hCG, wild type hCG, and all mutant hCGs recognized the receptor, although with somewhat divergent affinities. However, there was a striking difference in the ability of cAMP induction. The natural hCG, wild type hCG, and Lys-91----Arg mutant hCG induced cAMP synthesis, whereas the Lys-91----Met and Lys-91----Glu mutants did not. These results demonstrate that Lys-91 is important for receptor modulation in the stimulation of cAMP synthesis.     

Molecular characterization of the CAN1 locus in Saccharomyces cerevisiae. A transmembrane protein without N-terminal hydrophobic signal sequence

The complete DNA sequence of the CAN1 locus of the yeast Saccharomyces cerevisiae is presented. The predicted primary translation product consists of 590 amino acids. From the hydropathic profile of the amino acid sequence (as calculated by the algorithm of Kyte and Doolittle (Kyte, J., and Doolittle, R. F. (1982) J. Mol. Biol. 157, 105-132)), one can divide the protein into two distinct regions. The 93-amino acid long N-terminal domain is extremely hydrophilic and does not exhibit any cleavable signal sequence. The rest of the protein (from amino acids 94 to 590) shows features typical for an integral membrane protein. The proposal for the N terminus of the primary translation product is based on results obtained by S1 mapping, insertion mutagenesis, and gene fusion experiments.     

Molecular mobility in the gap regions of type 1 collagen fibrils

Recent studies of the structure of Type I collagen fibrils (Piez and Trus,Biosci. Rep. 1:801–810, 1981; Fraser, MacRae, Miller and Suzuki,J. Mol. Biol. 167:497–521, 1983) suggest that the segments of the collagen molecule which comprise the gap region are more mobile than those which comprise the overlap region. We have analyzed the distribution of amino acid residues and triplet types between the two regions, and find significantly non-uniform distributions for Ala, Gln, His, Hyp, Leu, Phe, and Tyr, and for triplets containing two imino acid residues. Taken together with the lower packing density in the gap region these observations provide a basis for understanding the greater mobility of the molecular segments in the gap region. In addition, we have examined the linear distribution of residue types in the two regions and also the hydropathy profile (Kyte and Doolittle,J. Mol. Biol. 157: 105–113, 1982). These reveal a segment of the gap region comprising helical residues 165–173, 399–407, 633–641 and 867–975 which has the highest hydropathy index, is devoid of charged residues, and contains very high proportions of Ala, Hyp and Phe.     

Differential regulation of hCG alpha and beta subunit mRNAs in JEG-3 choriocarcinoma cells by 8-bromo-cAMP

The coordinate regulation of human chorionic gonadotropin (hCG) subunit synthesis by JEG-3 choriocarcinoma cells was studied at the pretranslational level. The responses of the hCG alpha and beta mRNAs were measured during stimulation with the potent cAMP analog 8-bromo-cAMP (8-Br-cAMP) using 32P-labeled hCG alpha and beta cDNA probes. The hCG alpha mRNA (850 bases) and beta mRNA (1050 bases) from JEG-3 cells were identical in size to that of their respective mRNAs from placenta, by Northern blot analysis. After 48 h of stimulation with 2 mM 8-Br-cAMP, production of immunoreactive alpha and beta subunits increased 25- and 52-fold, respectively; corresponding levels of the alpha and beta mRNAs increased 36- and 43-fold, respectively, in a dot blot hybridization assay. Total cellular protein, DNA content, and messenger RNA pools were not altered by treatment with 8-Br-cAMP. The temporal coordination of the expression of the hCG alpha- and beta-subunit genes was examined by comparing the time course of stimulation of the respective mRNAs and the production of immunoreactive subunits. The kinetic responses of the alpha and beta mRNAs differed: the increase in hCG alpha mRNA preceded the increase in hCG beta mRNA, while levels of free alpha subunit and intact hCG increased in parallel with the increase in beta mRNA. hCG alpha mRNA levels increased rapidly between 8 and 24 h after the addition of 8-Br-cAMP, and approached a plateau by 48 h. The levels of hCG beta mRNA increased steadily throughout the 8-48 h period. These results demonstrate that the cAMP analog 8-Br-cAMP differentially regulates hCG subunit biosynthesis in JEG-3 cells at a pretranslational level, and that the stimulation by 8-Br-cAMP in this system appears to be relatively selective for hCG subunits.     

Existence of associated, non-associated, and oligomeric forms of human chorionic gonadotropin subunits in placental extracts

The molecular sizes of human chorionic gonadotropin (hCG) subunits in the native state in normal first trimester placental extracts were determined by gel filtration on Sephacryl S-300, followed by SDS-polyacrylamide gel electrophoresis, protein blotting, and immunobinding analysis using anti-alpha and - beta antibodies. Mature forms of hCG subunits in the extracts were only found in the same fraction as that which contained standard urinary hCG, indicating an alpha beta dimer. On the other hand, immature forms were detected with a wide range of molecular weights, which were higher than that of standard hCG, suggesting oligomerization of associated or non-associated immature subunits. In order to determine the associated state of these subunits, various forms of associated subunits (hCG alpha beta) in placental extracts were immunoprecipitated with anti-hCG antiserum, which only recognized hCG alpha beta, and Protein A-Sepharose. They were then analyzed by SDS-polyacrylamide gel electrophoresis under reducing and non-reducing conditions, followed by immunobinding assaying. It has been suggested that there are three kinds of hCG alpha beta S (one mature and two immature). To confirm the above results and to clarify the existence of free subunits, placental extracts were subjected to two-dimensional SDS-polyacrylamide gel electrophoresis. With this technique, high molecular weight forms of immature hCG subunits were found to be present in placental cells as an oligomer of not only the alpha beta dimer but of each subunit as well.     

Catalytic mechanism of phosphorylase kinase probed by mutational studies.

The contributions to catalysis of the conserved catalytic aspartate (Asp149) in the phosphorylase kinase catalytic subunit (PhK; residues 1-298) have been studied by kinetic and crystallographic methods. Kinetic studies in solvents of different viscosity show that PhK, like cyclic AMP dependent protein kinase, exhibits a mechanism in which the chemical step of phosphoryl transfer is fast and the rate-limiting step is release of the products, ADP and phosphoprotein, and possibly viscosity-dependent conformational changes. Site-directed mutagenesis of Asp149 to Ala and Asn resulted in enzymes with a small increase in K(m) for glycogen phosphorylase b (GPb) and ATP substrates and dramatic decreases in k(cat) (1.3 x 10(4) for Asp149Ala and 4.7 x 10(3) for Asp149Asn mutants, respectively). Viscosometric kinetic measurements with the Asp149Asn mutant showed a reduction in the rate-limiting step for release of products by 4.5 x 10(3) and a significant decrease (possibly as great as 2.2 x 10(3)) in the rate constant characterizing the chemical step. The date combined with the crystallographic evidence for the ternary PhK-AMPPNP-peptide complex [Lowe et al. (1997) EMBO J. 6, 6646-6658] provide powerful support for the role of the carboxyl of Asp149 in binding and orientation of the substrate and in catalysis of phosphoryl transfer. The constitutively active subunit PhK has a glutamate (Glu182) residue in the activation segment, in place of a phosphorylatable serine, threonine, or tyrosine residue in other protein kinases that are activated by phosphorylation. Site-directed mutagenesis of Glu182 and other residues involved in a hydrogen bond network resulted in mutant proteins (Glu182Ser, Arg148Ala, and Tyr206Phe) with decreased catalytic efficiency (approximate average decrease in k(cat)/K(m) by 20-fold). The crystal structure of the mutant Glu182Ser at 2.6 A resolution showed a phosphate dianion about 2.6 A from the position previously occupied by the carboxylate of Glu182. There was no change in tertiary structure from the native protein, but the activation segment in the region C-terminal to residue 182 showed increased disorder, indicating that correct localization of the activation segment is necessary in order to recognize and present the protein substrate for catalysis.     

The relation of predicted structure to observed conformation and activity of glucagon analogs containing replacements at positions 19, 22, and 23

Six new analogs of glucagon have been synthesized containing replacements at positions 19, 22, and 23. They were designed to study the correlation between predicted conformation in the 19-27 segment of the hormone and the conformation calculated from circular dichroism measurements and the observed activation of adenylate cyclase in the liver membrane. The analogs were [Val19]glucagon, [Val22]glucagon, [Glu23]glucagon, [Val19,Glu23]glucagon, [Glu22,Glu23]glucagon, and [Ala22,Ala23]glucagon. The structures predicted for the 19-27 segment ranged from strongly alpha helical to weakly beta sheet. The observed conformations varied as functions of amino acid composition, solvent, concentration, pH, and temperature but did not correlate well with prediction. There was, however, a correlation between predicted structure and activation of adenylate cyclase in rat liver membranes.     

AMP-activated protein kinase beta subunit tethers alpha and gamma subunits via its C-terminal sequence (186-270)

AMP-activated protein kinase (AMPK) is an important metabolic stress-sensing protein kinase responsible for regulating metabolism in response to changing energy demand and nutrient supply. Mammalian AMPK is a stable alphabetagamma heterotrimer comprising a catalytic alpha and two non-catalytic subunits, beta and gamma. The beta subunit targets AMPK to membranes via an N-terminal myristoyl group and to glycogen via a mid-molecule glycogen-binding domain. Here we find that the conserved C-terminal 85-residue sequence of the beta subunit, beta1-(186-270), is sufficient to form an active AMP-dependent heterotrimer alpha1beta1-(186-270)-gamma1, whereas the 25-residue beta1 C-terminal (246-270) sequence is sufficient to bind gamma1, gamma2, or gamma3 but not the alpha subunit. Deletion of the beta C-terminal Ile-270 precludes betagamma association in the absence of the alpha subunit, but the presence of the alpha subunit or substitution of Ile-270 with Ala or Glu restores betagamma binding. Truncation of the alpha subunit reveals that beta1 binding requires the alpha1-(313-473) sequence. The conserved C-terminal 85-residue sequence of the beta subunit (90% between beta1 and beta2) is the primary alphagamma binding sequence responsible for the formation of the AMPK alphabetagamma heterotrimer.     

Amino acid sequence studies on the alpha chain of human fibrinogen. Overlapping sequences providing the complete sequence

The complete amino acid sequence of the alpha chain of human fibrinogen has been determined. It contains 610 amino acid residues and has a calculated molecular weight of 66,124. The chain has 10 methionines, and fragmentation with cyanogen bromide yields 11 peptides [Doolittle, R.F., Cassman, K.G., Cottrell, B.A., Friezner, S.J., Hucko, J.T., & Takagi, T. (1977) Biochemistry 16, 1703]. The arrangement of the 11 fragments was determined by the isolation of peptide overlaps from plasmic and staphylococcal protease digests of fibrinogen and/or alpha chains. In addition, certain of the cyanogen bromide fragments, preliminary reports of whose sequences have appeared previously, have been reexamined in order to resolve several discrepancies. The alpha chain is homologous with the beta and gamma chains of fibrinogen, although a large repetitive segment of unusual composition is absent from the latter two chains. The existence of this unusual segment divides the sequence of the alpha chain into three zones of about 200 residues each that are readily distinguishable on the basis of amino acid composition alone.     

Evidence for unique homologous peptide sequences around the glycosylated seryl and threonyl residues in polysialoglycoproteins isolated from the unfertilized eggs of the Pacific salmon Oncorhynchus keta

Structures of glycopeptides obtained by exhaustive Pronase digestion of high molecular weight (1.7 X 10(5)) salmon egg polysialoglycoprotein have been elucidated. Six principal glycopeptides isolated by gel chromatography and DEAE-Sephadex A-25 chromatography in the absence or presence of borate ion were analyzed for their carbohydrate and amino acid composition, as well as amino acid sequence, and found to be of two distinct types: glycotripeptides, Thr*-Ser*-Glu, and glycotetrapeptides, Thr*-Gly-Pro-Ser, where an asterisk indicates the amino acid residues to which either the Gal beta 1----3GalNAc or Fuc alpha 1----3GalNAc beta 1----3Gal beta 1----4Gal beta 1----3GalNAc chain is attached. Their final yield corresponds to 64% of the original desialylated glycoprotein. In view of the simple amino acid composition of salmon egg polysialoglycoprotein (molar ratio Asp2Thr2Ser3Glu1Pro1Gly1Ala3) and the result of alkaline beta-elimination indicating three carbohydrate units linked to two of two threonine and one of three serine residues, a unique primary structure comprising repetitive sequences of the above two types of glycopeptides, which are interspersed by short nonglycosylated peptides consisting of alanine and aspartic acid, has been proposed for the core protein. The molecular secondary ion mass spectra of underivatized glycopeptides were used to obtain their structural information. The anomeric configuration of the proximal sugar-peptide linkages was proven to be alpha by proton nuclear magnetic resonance spectroscopy. This is the first systematic reported study of O-glycosidically linked glycopeptides by these instrumental methods.     

The beta subunits of glycoprotein hormones. Formation of three-dimensional structure during cell-free biosynthesis of lutropin-beta

The folding of the hormone-specific (beta) subunit of the glycoprotein hormone bovine lutropin was studied after the translation and processing of bovine pituitary mRNA in a system derived from Krebs ascites tumor cells. Of the three forms of beta subunit recognized in this system, only the subunit which had both its prepeptide removed and an oligosaccharide moiety attached formed a tertiary structure which could be immunoprecipitated by an antiserum specific to isolated (folded) lutropin-beta. This glycosylated subunit also combined with added alpha subunit to form the dimeric alpha-beta complex. The results of the translation and processing experiments parallel those of previous experiments in which alpha subunit folding was examined. In contrast to alpha subunit, however, the difficulty of demonstrating correct refolding of beta subunit after reduction and reoxidation of its disulfide bonds strongly suggests that the formation of its correct tertiary structure not only requires carbohydrate attached to the peptide chain but also must occur during formation of the nascent beta chain.