An extra disulfide bridge in the constant domain of Rana catesbeiana immunoglobulin light chains

The immunoglobulins of the bullfrog Rana catesbeiana are unusual in that, in all classes, the light chains are not disulfide bonded to heavy chains or to other light chains. Moreover, the light chains contain six, rather than the usual five, residues of half-cystine. As none of these half-cystines is in the sulfhydryl form or is alkylated after mild reduction, we suggested that the light chains probably contain three intrachain disulfide bridges. We have now carried out experiments to confirm the existence of an extra intrachain disulfide bridge in Rana catesbeiana light chains and to determine its location. Disulfide bridge assignments were based on 1) isolation and sequence analysis of S-(carboxymethyl)cysteine-containing peptides and 2) isolation, from unreduced light chains, of peptides containing a disulfide bridge. Half-cystine residues were found at positions 134 and 194, and these were shown to be joined in the conserved intradomain disulfide bridge. In addition, we found that a residue of half-cystine, located at the third position from the carboxy-terminus, forms a disulfide bridge with a half-cystine at position 119, near the amino-terminus of the domain, the latter residue replacing a proline that has been found at this position in all other light chains. An intrachain disulfide bridge has not been found at this location in any other light chain.     

Amino acid sequence of the light chain derived from a rabbit anti-p-azobenzoate antibody of restricted heterogeneity

The amino acid sequence of the light chain from a specifically purified rabbit (No. 2717) anti-p-azobenzoate antibody preparation (b4 allotype) of restricted heterogeneity has been determined. This light chain is composed of 216 residues, including seven half-cystine residues located at positions 23, 80, 88, 134, 171, 194 and 216. Three intrachain disulfide bonds appear to be present in contrast to only two disulfide bonds as has been so far described for Bence Jones protein and light chains of human and mouse. This light chain was sequenced by isolating the tryptic peptides, sequencing the peptides and establishing their order within the molecule. Unambiguous identification of the overlaps was achieved by taking into account the partially characterized tryptic peptides from citraconic anhydride-treated light chains and chymotryptic and peptic peptides from digests of both untreated and citraconylated light chains. Comparison of this amino acid sequence with the amino acid sequence of the car?ylterminal half of the b4 light chains from unimmunized rabbits reveals differences at positions 165, 166, 169 and 176 indicating the existence of more than one sequence in the b4 “constant” region. There is substantial sequence homology between the variable half of 2717 light chain and human Bence Jones protein. Indeed, 46 positions in the V region (42%) are occupied by the same residues in this light chain and in human subgroup V_κIII.     

Partial amino acid sequence of porcine elastase II. Active site and the activation peptide regions

The partial amino acid sequence of porcine elastase II, isolated from crude trypsin Type II, was determined. The enzyme consists of two polypeptide chains, a light chain composed of 11 residues, and a heavy chain (Mr = 23 500) with four intrachain disulfide bridges; the two chains are held together by one interchain disulfide bond. Elastase II was fragmented into several peptides by chemical cleavages with CNBr at the two methionine residues, 99 and 180 (chymotrypsinogen numbering), and with hydroxylamine at the peptide bond following DIP-Ser195. About 50% of the sequence was determined and the positions of 120 amino acids were located, including the light chain residues and most of the active site residues. The partial sequence shows 64% difference between porcine elastase II and elastase I and only 26% difference between porcine elastase II and bovine chymotrypsin B.     

Location and the primary structure around the disulfide bonds in cholera toxin.

The sequence of the four tryptic peptides containing cysteine from cholera toxin has been determined. The cysteine residue in peptide A₂, forms a disulfide bridge with the cysteine in the A₁ chain located near the NH₂-terminus. The region around the latter cysteine residue is characterized by a high content of proline. One of the cysteine residues that form the intrachain disulfide bond in subunit B has been located at position 9 in this subunit.     

Evidence for the steric proximity of Tyr 174 and Lys 111 in bovine growth hormone

Bovine growth hormone was modified by reaction with 1,5-difluoro-2,4-dinitrobenzene under conditions favouring production of intramolecularly crosslinked derivatives from monomeric molecules. The monomeric fraction, isolated by chromatography on Sephadex G-100, was oxidized or reduced and carbamidomethylated and trypsin digested. The resulting peptides were fractionated on SP-Sephadex and further purified by peptide mapping or HPLC. Two modified peptides containing sequences 108-112 or 108-113 and 171-176 of bGH were obtained, including a dinitrophenylene bridge between lysine 111 and tyrosine 174, thus suggesting the stereochemical proximity of these residues.     

Amino acid sequence of the N-terminal 139 residues of light chain derived from a homogeneous rabbit antibody

The amino acid sequence of the N-terminal 139 residues of the L (light) chain derived from a homogeneous rabbit antibody (designated BS-1) to type III pneumococci was determined. A combination of methods involving tryptic cleavage restricted to the 2 arginine residues of the molecule and mild acid hydrolysis of a labile peptide bond between the V (variable) and C (constant) regions of the L chain (Fraser et al., 1972) allowed the isolation of two large peptides comprising the entire V region (residues 1-109); these peptides were suitable for automated Edman degradation. The complete sequence analysis of the V region was carried out with only 4mumol of L chain. This material was homogeneous, although minor variant sequences, if present at the 10% value, would not have been detected. The L chain contains 3 intrachain disulphide bridges, whose pairing was established by diagonal electrophoresis: there is one V-region bridge between positions 23 and 88 and one C-region bridge between positions 134 and 194; the third one connects V and C domains between positions 80 and 171. When compared with the basic sequence of human kappa chains, rabbit L chain BS-1 appears to be more similar to the V(KI) prototype sequence than to V(KII) or V(KIII) sequences, where V(KI), V(KII) and V(KIII) represent subgroups I, II and III respectively of V regions of kappa light chains. The V regions of rabbit heavy and light chains are homologous to each other. The presence of two clusters of 3 glycine residues in positions 94-96 and 99-101 respectively is remarkable. Residues 94-96 may be related to antibody complementarity whereas residues 99-101 function probably as a pivot permitting the combining region of the L chain to make optimal contact with the antigenic determinant (Wu & Kabat, 1970).     

The disulphide bridges of a mouse immunoglobulin G1 protein

[(35)S]Cystine-labelled immunoglobulin MOPC21 (IgG1) was prepared from myeloma cells in tissue culture. Carrier myeloma protein was added and the protein was digested with pepsin. The digest was fractionated on Sephadex G-50 into two fractions, further digested with trypsin and again fractionated on Sephadex. Disulphide-bridge peptides were purified by electrophoresis and chromatography and identified by radioautography. A peptide of 96 residues was isolated, which contains both the heavy-light interchain disulphide bridge and all the inter-heavy-chain disulphide bridges. Other peptides were isolated, accounting for all the intrachain disulphide bridges (which could be placed by homology with proteins of other species), except for the variable section of the light chain. Sequences describing this missing disulphide bridge were obtained from totally reduced and alkylated light chains. Peptides related to the interchain disulphide-bridge peptide were isolated from partially reduced and alkylated myeloma protein and from totally reduced heavy chain. The interchain disulphide-bridge peptide was placed at the C-terminal position of the F(ab')(2) fragment, prepared by digestion of the protein with pepsin at pH4.0. Sequences from the heavy-chain intrachain disulphide bridges of MOPC 21 immunoglobulin are compared with homologous sequences from mouse myeloma proteins of other subclasses and proteins of other species.     

Complete amino acid sequence of the catalytic chain of human complement subcomponent C1-r

The amino acid sequence of human C1-r b chain hs been determined, from sequence analysis performed on fragments obtained by CNBr cleavage, dilute acid hydrolysis, tryptic cleavage of the succinylated protein, and subcleavages by staphylococcal protease. The polypeptide chain contains 242 amino acids (Mr 27 096), and the sequence shows strong homology with other mammalian serine proteases. The histidine, aspartic acid, and serine residues of the active site (His-57, Asp-102, and Ser-195 in bovine chymotrypsinogen) are located at positions 39, 94, and 191, respectively. The chain which lacks the "histidine-loop" disulfide bridge, contains five half-cystine residues, of which four (positions 157-176 and 187-217) are homologous to residues involved in disulfide bonds generally conserved in serine proteases, whereas the half-cystine residue at position 114 is likely to be involved in the single disulfide bridge connecting the catalytic b chain to the n-terminal a chain. Two carbohydrate moieties are attached to the polypeptide chain, both via asparagine residues at positions 51 and 118.     

Complete amino acid sequence and location of the five disulfide bridges in porcine pancreatic alpha-amylase

Porcine pancreatic alpha-amylase (1,4-alpha-D-glucan glucanohydrolase EC 3.2.1.1), a single polypeptide chain, contains nine residues of methionine. Eight different fragments resulting from cleavage of this molecule by cyanogen bromide were characterized. The sequences of six of them have previously been reported. Two missing fragments, CN2 (82 residues) and CN3b1 (76 residues) were purified after breaking of the interpeptidic disulfide bridge and their complete sequence as well as that of the previously purified CN1 peptide (102 residues) are reported here. The location of the three disulfide bridges present in these peptides was determined. Ordering of the carboxymethylated cyanogen bromide fragments was carried out by pulse labeling the amylase chain in vivo. The complete sequence of the porcine pancreatic amylase chain (496 residues) and the location of its five disulfide bridges is presented. Comparison with human and mouse pancreatic and salivary alpha-amylases and with rat pancreatic amylase obtained from the corresponding cDNA nucleotidic sequences shows a high degree of homology between mammalian alpha-amylases.     

Synthetic conformational antigen which simulates the extracellular part of the M2-muscarinic receptor: interaction with blood sera of patients suffering from idiopathic arrhythmias

Fragments corresponding to the 83–98 sequence of the first extracellular loop and to the 168–192 and 171–182 sequences of the second extracellular loop of the M2-muscarinic receptor (antibodies to this receptor could be markers of early symptoms of heart disorders) were synthesized by solid phase method using the Fmoc-SPPS strategy. A new conformational antigen with the natural location of the disulfide bridge was prepared by selective formation of disulfide bond between the corresponding cysteine residues in the synthe-sized peptides and characterized. The comparative analysis of reactivity of the synthesized peptides towards sera from patients which had no organic heart disease was performed. A new conformational antigen was effectively bound to the sera from patients with idiopathic arrhythmias, but without symptoms of organic heart disease.     

Intrachain disulfide bridges of bovine seminal ribonuclease

The pairing of the four intrachain disulfide bonds of bovine seminal ribonuclease, a dimeric protein isolated from bovine seminal plasma, has been established by the isolation and characterization of the cystine peptides obtained from a thermolytic-tryptic hydrolysate of the protein. These disulfide bonds involve eight half-cystine residues located in the protein subunit chain at sequence positions identical with those of the eight half-cystine residues of the strictly homologous chain of bovine pancreatic ribonuclease. The results reported show that these eight 'homologous' half-cystine residues pair in seminal ribonuclease exactly as they do in pancreatic ribonuclease. They also indirectly confirm that the remaining two half-cystine residues present in each chain of the seminal enzyme are involved in intersubunit bonds.     

Determination of disulfide array and subunit structure of taste-modifying protein, miraculin

The taste-modifying protein, miraculin (Theerasilp, S. et al. (1989) J. Biol. Chem. 264, 6655-6659) has seven cysteine residues in a molecule composed of 191 amino acid residues. The formation of three intrachain disulfide bridges at Cys-47-Cys-92, Cys-148-Cys-159 and Cys-152-Cys-155 and one interchain disulfide bridge at Cys-138 was determined by amino acid sequencing and composition analysis of cystine-containing peptides isolated by HPLC. The presence of an interchain disulfide bridge was also supported by the fact that the cystine peptide containing Cys-138 showed a negative color test for the free sulfhydryl group and a positive test after reduction with dithiothreitol. The molecular mass of non-reduced miraculin (43 kDa) in sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) was nearly twice the calculated molecular mass based on the amino acid sequence and the carbohydrate content of reduced miraculin (25 kDa). The molecular mass of native miraculin determined by low-angle laser light scattering was 90 kDa. Application of a crude extract of miraculin to a Sephadex G-75 column indicated that the taste-modifying activity appears at 52 kDa. It was concluded that native miraculin in pure form is a tetramer of the 25 kDa-peptide and native miraculin in crude state or denatured, non-reduced miraculin in pure form is a dimer of the peptide. Both tetramer miraculin and native dimer miraculin in crude state had the taste-modifying activity.     

Primary structure of macromomycin, an antitumor antibiotic protein

The antitumor protein macromomycin is a single chain polypeptide of 112 amino acid residues cross-linked by two intramolecular disulfide bonds. The protein was reduced and S-alkylated with 2-mercaptoethanol in 8 M urea followed by treatment with iodoacetic acid. Tryptic digestion of tetra-S-carboxymethyl macromomycin gave four tryptic peptides which were fractionated by gel permeation on Sephadex G-50. The amino acid sequence of the tryptic peptides and the overlap sequences were determined by a combination of automated Edman degradation analysis, gas chromatographic mass spectrometry, and fast atom bombardment mass spectrometry. A comparison of the structures of macromomycin, actinoxanthin, and neocarzinostatin suggests that they belong to a family of related proteins.     

Identification and characterization of a phospholipid-binding site of bovine factor Va

Coagulation factor Va is a cofactor which combines with the serine protease factor Xa on a phospholipid surface to form the prothrombinase complex. The phospholipid-binding domain of bovine factor Va has been reported to be located on the light chain of the molecule and more precisely on a fragment of Mr = 30,000 which is obtained after digestion of factor Va light chain by factor Xa. This proteolytic fragment is located in the NH2-terminal part of factor Va light chain (residues 1564-1765). In order to further characterize the lipid-binding domain of bovine factor Va, isolated bovine light chain was preincubated with synthetic phospholipid vesicles (75% phosphatidylcholine, 25% phosphatidylserine) and digested with trypsin, chymotrypsin, and elastase. Two peptide regions protected from proteolytic cleavage were identified and characterized from each proteolytic digestion. A comparison of the NH2-terminal sequence and amino acid composition of the two tryptic peptides with the deduced sequence of human factor V indicates a match with residues 1657-1791 of the light chain of human factor V for one peptide and residues 1546-1656 for the other peptide. When chymotrypsin or elastase were used for digestion, the NH2-terminal sequence of one peptide showed a match with residues 1667-1797 of the light chain, while the other peptide presented an NH2-terminal sequence identical with the previously described for the bovine factor Va light chain. When these peptides were assayed for direct binding to phospholipid vesicles, only the tryptic and the chymotryptic peptides covering the middle region of the A3 domain of the bovine factor Va light chain demonstrated an ability to interact with phospholipid vesicles. Thus, knowing that the factor Xa cleavage site on the factor Va light chain is located between residues 1765 and 1766 of the light chain this lipid-binding region of the bovine factor Va is further localized to amino acid residues 1667-1765.     

Structure of an antifreeze polypeptide from the sea raven. Disulfide bonds and similarity to lectin-binding proteins.

The antifreeze polypeptide (AFP) from the sea raven, Hemitripterus americanus, is a member of the cystine-rich class of blood antifreeze proteins which enable survival of certain fishes at sub-zero temperatures. Sea raven AFP contains 129 residues with 10 half-cystine residues. We have analyzed these half-cystine residues and established that all 10 of the half-cystine residues appeared to be involved in disulfide bond formation and that disulfide bonds linked Cys7 to Cys18, Cys35 to Cys125, and Cys89 to Cys117. These assignments were established by extensive proteolytic digestions of native AFP using pepsin and thermolysin and purification of the peptides by Sephadex G-15 gel filtration chromatography, anion exchange chromatography, and C18 reverse-phase high performance liquid chromatography. Cystine-containing peptides were detected by a colorimetric assay using nitrothiosulfobenzoate. Disulfide-containing peptides were reduced and alkylated, purified, and analyzed by amino acid analysis. The unreduced disulfide-linked peptides were sequenced directly by automated Edman degradations to confirm the disulfide assignments. Possible arrangements of the two remaining disulfide bonds include linkages Cys69/111 to Cys100/101. The sea raven AFP shares structural similarity with pancreatic stone protein and several lectin-binding proteins, especially with respect to half-cystines, glycines, and bulky aromatic residues. Two of the disulfide linkages we determined for sea raven AFP: Cys7-Cys18 and Cys35-Cys125, are conserved in these proteins. These similarities in covalent structure suggest that the sea raven AFP, pancreatic stone protein, and several lectin-binding proteins comprise a family of proteins which may possess a common fold.     

Isolation and characterization of an active variable domain from a homogeneous rabbit antibody light chain.

The variable domain (VL) of allotype b4 light chains of rabbit IgG was isolated from both nonimmune heterogeneous IgG and a homogeneous antibody directed against type III pneumococcal polysaccharide. Light chains were first isolated and then cleaved under mild acidic conditions between residues 109 and 110. Reduction with dithiothreitol in guanidine hydrochloride cleaved both intradomain disulfide bridges as well as the interdomain disulfide bridge joining the variable and constant domain. The sulfhydryl groups were protected after reduction by p-chloromercuribenzoate. VL was isolated from this mixture of variable and constant domains by affinity chromatography, utilizing sheep antibodies directed against a peptide including residues 110--211 from nonimmune IgG light chain. The isolated VL domain was identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and automated Edman degradation. VL from a homogeneous antibody was treated with dithiothreitol to remove p-chloromercuribenzoate, reoxidized, and recombined with homologous heavy chain. The binding of this recombinant to type III pneumococcal polysaccharide was identical with that of the light-chain--heavy-chain recombinant.     

Amino acid sequence of porcine spleen cathepsin D light chain

The complete amino acid sequence of the light chain of cathepsin D from porcine spleen has been determined. The light chain consists of a single polypeptide chain with 97 amino acid residues. The sequence is: (formula; see text) The molecular weight of the light chain was calculated from this sequence to be 10,548 (without carbohydrates). A single disulfide bond links two half-cystine residues between positions 46 and 53. A cysteine residue is located at position 27. The light chain sequence is extensively homologous to the NH2-terminal sequence of other aspartyl proteases. It shows a 59% identity with the sequence of mouse submaxillary gland renin and a 49% identity with that of porcine pepsin. A single glycosylation site is located at residue 70 of the cathepsin D light chain. This site corresponds to position 67 of pepsin by homology. The active site aspartyl residue, corresponding to Asp-32 of pepsin, is located at residue 33 in the cathepsin D light chain.     

Antimicrobial activity and conformation of gaegurin-6 amide and its analogs

A function of the intra-disulfide bridge located at the C-terminal of Rana peptides has not been extensively studied. To investigate the function of the disulfide bridge related to the activity and the structure, we chose Gaegurin-6, isolated from Rana rugosa as a model peptide and synthesized linear analogs. The reduction of the disulfide bridge resulted in the complete loss of antimicrobial activity while replacements of cysteines by serines retained antimicrobial activity. Circular dichroism spectra from a titration of the peptides in sodium dodecyl sulfate indicated that the disulfide bridge of Gaegurin-6 might stabilize the induction of an helical structure in lipid membranes and the helical forming propensity of the peptides correlated with antimicrobial activity.     

Selectivity of tryptophan residues in mediating photolysis of disulfide bridges in goat alpha-lactalbumin

Goat alpha-lactalbumin (GLA) contains four tryptophan (Trp) residues and four disulfide bonds. Illumination with near-UV light results in the cleavage of disulfide bridges and in the formation of free thiols. To obtain information about the reaction products, the illuminated protein was carbamidomethylated and digested with trypsin and the peptides were analyzed by mass spectrometry. Peptides containing Cys120Cam, Cys61Cam, or Cys91Cam were detected, as well as two peptides containing a new Cys-Lys cross-link. In one, Cys6 was cross-linked to Lys122, while the cross-link in the second was either a Cys91-Lys79 or Cys73-Lys93 cross-link; however, the exact linkage could not be defined. The results demonstrate photolytic cleavage of the Cys6-Cys120, Cys61-Cys77, and Cys73-Cys91 disulfide bonds. While photolysis of Cys6-Cys120 and Cys73-Cys91 disulfide bonds in GLA has been reported, cleavage of the Cys61-Cys77 disulfide bonds has not been previously detected. To examine the contribution of the individual Trp residues, we constructed the GLA mutants, W26F, W60F, W104F, and W118F, by replacing single Trp residues with phenylalanine (Phe). The substitution of each Trp residue led to less thiol production compared to that for wild-type GLA, showing that each Trp residue in GLA contributed to the photolytic cleavage of disulfide bridges. The specificity was expressed by the nature of the reaction products. No cleavage of the Cys6-Cys120 disulfide bridge was detected when the W26F mutant was illuminated, and no cleavage of the Cys73-Cys91 disulfide bridge was seen following illumination of W26F or W104F. In contrast, Cys61Cam, resulting from the cleavage of the Cys61-Cys77 disulfide bridge, was found following illumination of any of the mutants.     

The amino acid sequence of the light chain of human high-molecular-mass kininogen

The complete amino acid sequence of the light chain of human high-molecular-mass kininogen has been determined. The peptide chain contains 255 amino acid residues. The half-cystine, which forms the disulfide bridge to the heavy chain, was identified in position 225. Nine carbohydrate attachment sites were found. All carbohydrate side chains are O-glycosidically linked. Alignment of the present sequence with the bovine kininogen light chain sequence shows a high degree of homology, except for an extension of 22 amino acids within the histidine-rich part of the sequence. The histidine-rich region may have arisen by gene multiplication during evolution.