Amino acid sequence studies on the alpha chain of human fibrinogen. Covalent structure of the alpha-chain portion of fragment D.

The alpha-chain portion of fragment D has been purified from an exhaustive plasmic digest of human fibrinogen. The major polypeptide species has 91 amino acid residues, although a small amount of a 97-residue chain representing an earlier digestion stage remains. The amino acid sequence of the first 44 residues was determined by stepwise degradation with an automatic solid-phase sequencer. Another large stretch of sequence was revealed by the finding that the alpha chain of fragment D overlaps the cyanogen bromide fragments alphaCNIVA and alphaCNIII (Doolittle, R. F. Cassman, K. G., Cottrell, B. A., Friezner, S. J. Hucko, J. T., and Takagi, T. (1977), Biochemistry 16 (preceding paper in this issue)). The automatic sequencer results were confirmed and extended by the isolation and characterization of 18 of 19 expected tryptic peptides from the fragment D alpha chain. As a result, almost the entire sequence has been obtained. The overlap with key cyanogen bromide fragments has also allowed us to propose an order for the first 198 residues of the fibrinogen alpha chain. A striking homology with the gamma chain and beta chain is apparent which has interesting structural implications.     

Primary structure of human fibrinogen and fibrin. Structural studies on NH2-terminal part of B beta chain.

The cyanogen bromide fragment, N-DSK, containing the NH2-terminal portions of the three chains of fibrinogen, was found to exist in dimeric and polymeric forms. These different forms gave rise to identical chain fragments on reduction and alkylation. The B beta chain of N-DSK from fibrinogen and the beta chain of N-DSK from fibrin were isolated and characterized. The B beta chain fragment has a blocked NH2-terminal residue, and fibrinopeptide B is released on digestion with thrombin. The beta chain fragment has glycine as NH2-terminal residue. The molecular weight of the B beta chain fragment is 12200 as determined by ultracentrifugal analysis. Gel electrophoresis in sodium dodecyl sulphate gave the molecular weights of 14000 and 13000 for the B beta chain and beta chain fragments, respectively. The NH2-terminal B beta chain fragment consists of 118 amino acid residues and the beta chain fragment of 104 residues. The amino acid sequence of beta chain fragment is identical to B beta chain fragment except for the fibrinopeptide B portion. The isolation of a B beta-related fragment (B beta +), with a molecular weight of 30000, is also reported. The presence of B beta + was explained on the basis of incomplete cleavage at the Met-118 residue during treatment with cyanogen bromide. Some functional aspects of the B beta chain fragment are discussed.     

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.     

Complementary DNA sequence of lamprey fibrinogen beta chain

The cDNA sequence of the beta chain of lamprey fibrinogen has been determined. To that end, an oligonucleotide probe was synthesized that corresponded to an amino acid sequence from the carboxy-terminal region of the lamprey fibrinogen beta chain. The insert actually began with residue 3 of the fibrin beta chain; it ran through to a terminator codon following the carboxy-terminal residue at position 443 and then continued for an additional 606 nucleotides of noncoding sequence to its 3' end. The inferred amino acid sequence was verified by comparison with assorted cyanogen bromide fragments isolated from the beta-chain protein, including two carbohydrate-containing peptides that corresponded to segments containing the carbohydrate-attachment consensus sequence. Overall, the lamprey chain is 49% identical with the beta chain from human fibrinogen. This is the same degree of resemblance as was found for the lamprey and human gamma chains. Moreover, the principal regions of conservation are the same in both the beta and gamma chains. Differences and similarities in the physiological behavior of the two fibrinogens are assessed in terms of the observed amino acid replacements.     

Immunochemical mapping of the conformation of human fibrinogen. The gamma 95-264 segment in inaccessible to antibody in native fibrinogen but progressively exposed by plasmic cleavage

The accessibility of the gamma 95-264 sequence to specific antibody probes in the native fibrinogen molecule and its plasmic cleavage fragments have been investigated. The gamma 95-264 segment was generated by cyanogen bromide cleavage of the gamma chain and isolated by gel filtration and ion exchange chromatography. Rabbit antisera to this peptide and to gamma chain recognized at least five antigenic loci uniformly distributed throughout this segment. In primary binding assays, antibodies to gamma 95-264 bound gamma 95-264, free gamma chain, and fibrinogen fragment D, but not native fibrinogen. Also, gamma 95-264 was bound by antibodies to gamma chain and fibrinogen fragment D, but not by antibodies generated to native fibrinogen. Thus, the gamma 95-264 sequence was not accessible to antibody in the native structure. In competitive equilibrium radioimmunoassays, neither native fibrinogen nor highly soluble fibrinogen fraction I-9 inhibited the binding of gamma 95-264 by its antiserum or anti-gamma chain. With plasmic cleavage, however, the gamma 95-264 sequence became accessible to antibody and the series of fragments D greater than Y greater than D:E = X describes the relative reactivity of the gamma chain sequence in fibrinogen degradation products. Differential expression of gamma 95-264 antigenic loci was also observed with D fragments differing in molecular weight. Plasmic cleavage of cross-linked and noncross-linked fibrin generated D fragments which did not express gamma 95-264 as well as fibrinogen D derivatives, indicating that the D domains of fibrinogen and fibrin are immunochemically distinguishable. These findings indicate that the central segment of the gamma chain is inaccessible to antibody in native fibrinogen, but that proper surface orientation is achieved upon plasmic degradation.     

The amino acid sequence of the trimethoprim-resistant dihydrofolate reductase specified in Escherichia coli by R-plasmid R67.

The amino acid sequence of a trimethoprim-resistant dihydrofolate reductase (EC 1.5.1.3) specified by the R-plasmid R67 is described. The sequence was deduced from automatic and manual sequence analysis of the intact protein, the fragments produced by cyanogen bromide cleavage, and peptides derived from the largest cyanogen bromide fragment by digestion with trypsin, Staphylococcus aureus V8 proteus, chymotrypsin, and Lysobacter enzymogenes alpha-lytic protease. The complete sequence comprises 78 residues in a single polypeptide chain of molecular weight 8444. No evidence of heterogeneity was obtained, indicating that all subunits of the native enzyme are identical. Comparison of the sequence with that of all known dihydrofolate reductases shows no significant sequence homology.     

Cytochrome c from Schizosaccharomyces pombe. 2. Amino-acid sequence.

The amino acid sequence of Schizosaccharomyces pombe cytochrome c has been established by automatic degradation of the protein and by manual degradation of fragments obtained by cyanogen bromide cleavage and chymotryptic digestion. The chymotryptic peptides were aligned by homology with other known cytochrome c sequences. The protein is 108 residues long, with a four-residue amino-terminal tail. It has only one methionine residue and differs from other fungal cytochromes c in lacking the one-residue deletion at the C-terminal end. After a cyanogen bromide step, an unexpected cleavage of the peptide chain before a cysteine residue was observed. This is ascribed to formation of a dehydroalanyl residue during an incomplete S-carboxymethylation of the apoprotein, and subsequent cleavage under acidic conditions. Experimental evidence is presented in favour of the proposed mechanisms.     

Cyanogen bromide cleavage and partial sequence of the heavy chain of a pathological immunoglobulin G

The heavy chain of a pathological immunoglobulin G (Daw) of type L, subclass gamma(2b) (We) and Gm(a+)(f-), has been cleaved with cyanogen bromide. The five fragments resulting from the cleavage have been isolated and analysed. The papain-digest fragments, Fab and Fc, have also been cleaved with cyanogen bromide and the products analysed and compared with those from the heavy chain. The order of the five fragments in the heavy chain has been established and the location of some of the inter-chain and inter-fragment disulphide bonds has been determined. The sequence of the N-terminal fragment consisting of 34 residues is reported.     

The primary structure of skeletal muscle myosin heavy chain: IV. Sequence of the rod, and the complete 1,938-residue sequence of the heavy chain

In the preceding paper [Maita, T., Miyanishi, T., Matsuzono, K., Tanioka, Y., & Matsuda, G. (1991) J. Biochem. 110, 68-74], we reported the amino-terminal 837-residue sequence of the heavy chain of adult chicken pectoralis muscle myosin. This paper describes the carboxyl terminal 1,097-residue sequence and the linkage of the two sequences. Rod obtained by digesting myosin filaments with alpha-chymotrypsin was redigested with the protease at high KCl concentration, and two fragments, subfragment-2 and light meromyosin, were isolated and sequenced by conventional methods. The linkage of the two fragments was deduced from the sequence of an overlapping peptide obtained by cleaving the rod with cyanogen bromide. The rod contained 1,039 amino acid residues, but lacked the carboxyl-terminal 58 residues of the heavy chain. A carboxyl-terminal 63-residue peptide obtained by cleaving the whole heavy chain with cyanogen bromide was sequenced. Thus, the carboxyl terminal 1,097-residue sequence of the heavy chain was completed. The linkage of subfragment-1 and the rod was deduced from the sequence of an overlapping peptide between the two which was obtained by cleaving heavy meromyosin with cyanogen bromide. Comparing the sequence of the adult myosin thus determined with that of chicken embryonic myosin reported by Molina et al. [Molina, M.I., Kropp, K.E., Gulick, J., & Robbins, J. (1987) J. Biol. Chem. 262, 6478-6488], we found that the sequence homology is 94%.     

Partial amino acid sequence of human plasma retinol-binding protein. Isolation and alignment of the five cyanogen bromide fragments and the amino acid sequences of four of the fragments

Studies are reported on the primary structure of human retinol-binding protein (RBP), the specific plasma transport protein for vitamin A. The protein consists of a single polypeptide chain of 186-187 amino acids. RBP was cleaved by cyanogen bromide into five fragments, CB-I (27 residues), CB-11 (25 residues), CB-III (20 residues), CB-IV (15 residues), and CB-V (99-100 residues). The cyanogen bromide fragments were isolated, their compositions were determined, and they were aligned after studies that included the tryptic digestion of maleylated, reduced, and carboxymethylated RBP and subsequent enzymatic digestion of some of the resulting tryptic peptides. The amino acid sequences of four of the five cyanogen bromide fragments were determined, and the sequence of almost two-thirds of the NH2-terminal portion of the RBP molecule was determined as: H2N-GLU-Arg-Asp-Cys-Arg-Val-Ser-ser-Phe-Arg-Val-Lys-Glu-Asn-Phe-Asp-Lys-Ala-Arg-Phe-Ser-Gly-Thr-Trp-Tyr-Ala-Met-Ala-Lys-Lys-Asp-Pro-Glu-Gly-Leu-Phe-Leu-Gln-Asp-Asx-Ile-Val-Ala-Glu-Phe-Ser-Val-Asx-Glx-Gly-Thr-Met-Ser-Ala-Thr-Ala-Gly-Lys-Arg-Val-Arg-Leu-Leu-Asn-Asn-Trp-Asp-Val-Cys-Ala-Asp-Met-Val-Gly-thr-Phe-Thr-Asp-Thr-Glu-Asp-Pro-Ala-Lys-Phe-Lys-Met-Lys-Tyr-Trp-Gly-Val-Ala-Ser-Phe-Leu-Gln-Lys-Gyl-Asn-Asp-Asx-His-Trp-Ile-Val-Asp-Thr-Asx-Thr-Tyr-Tyr-Ala-Val-Glu-Tyr-Cys-Ser-Arg---.     

Amino acid sequence studies on the alpha chain of human fibrinogen. Exact location of cross-linking acceptor sites

Human fibrinogen was clotted under conditions that promote latent factor XIII activity and in the presence of a radioactive substitute cross-linking donor ([14C]glycine ethyl ester). The labeled fibrin was reduced and alkylated in the presence of 6 M guanidinium chloride. After dialysis and freeze-drying, the preparation was separated into its constituent polypeptide subunits by chromatography on (carboxymethyl)cellulose in the presence of 8 M urea. Under the incorporation conditions used, the radioactivity was limited to gamma chains (one donor molecule/chain) and alpha chains (two donor molecules/chain). The labeled alpha chains were digested with cyanogen bromide and fractionated on Sephadex G-50. All the radioactivity was found in a fragment previously designated H alpha CNI, the largest of the cyanogen bromide fragments in the alpha chain. The fragment was further fragmented by digestion with plasmin, trypsin, chymotrypsin, and/or staphylococcal protease. The incorporated radioactivity was found to reside in equal amounts at two different sites located 38 residues apart. These were determined to be positions 88 and 126 in H alpha CNI, which correspond to glutamine-328 and glutamine-366 in the alpha chain.     

The sites of the lactoperoxidase-catalyzed iodination of human fibrinogen.

A study of those tyrosines in fibrinogen which are surface-oriented and which may be involved in polymerization has been investigated using as a probe iodination catalyzed by lactoperoxidase. The iodine distribution in the major cyanogen bromide fragments was studied. A fragment of the B beta chain extending beyond residue 118 had the highest specific activity. Tyrosine 119 was identified as the residue most susceptible to iodination. There was no difference in susceptibility to iodination of N-DSK (A alpha 1-51, B beta 1-118, gamma 1-78)2, Ho1-DSK (first hydrophobic disulfide knot), and Hi2-DSK (second hydrophobic disulfide knot). Tyrosines 18 and 32 of the gamma chain of N-DSK were not significantly iodinated in fibrinogen, but tyrosines 1 and 68 were labeled, as was the tyrosine of the A alpha chain. The data indicate that there are regions of the hydrophobic disulfide knot, Ho1-DSK, which are surface-oriented. The distribution of iodine as mono- and diiodotyrosine in N-DSK and Ho1-DSK reflected the percentage (83 and 17, respectively) found in iodinated fibrinogen from which these fragments were prepared. In contrast the segments of the B beta chain extending beyond Met118 contained 46% of the iodine in diiodotyrosine, while the A alpha chain fragment, Hi2-DSK, contained 28% as diiodotyrosine. No significant iodination of histidine was detected.     

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.     

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

Porcine pancreatic α-amylase (1,4-α-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 α-amylases and with rat pancreatic amylase obtained from the corresponding cDNA nucleotidic sequences shows a high degree of homology between mammalian α-amylases.     

Major proteins of the Escherichia coli outer cell envelope membrane. Sequence of the cyanogen bromide fragments of protein I from Escherichia coli B/r.

The sequence of the cyanogen bromide fragments of one of the major outer membrane proteins of E. coli B/r has been established with the aim of elucidating the primary structure of this protein. Separation of all fragments on one molecular sieve column was achieved upon citraconylation of these fragments. Overlapping peptides were obtained by digestion of the protein, or a cyanogen bromide fragment arising from incomplete cleavage, with trypsin or Staphylococcus aureus protease.     

Variation in the N-terminal sequence of heavy chains of immunoglobulin G from rabbits of different allotype

The sequences of the N-terminal peptides prepared by Pronase digestion of the heavy chain of rabbit immunoglobulin G of allotype Aa1, Aa2 and Aa3 were determined and were shown to be related to the allotype. An N-terminal fragment of about 34 residues was also prepared from the allotype heavy chains, by cleavage with cyanogen bromide; the yield varied with the allotype. The sequences of the cyanogen bromide fragments from the Aa1 and Aa3 heavy chains contain allotype-related variations similar to those found in the N-terminal Pronase peptides, and these sequences are thought to be representative of the whole heavy-chain populations. There is about 60% homology between the two sequences, and superimposed on the differences between them there are a number of positions within each sequence at which at least two amino acids are present.     

Amino acid sequence of chicken gizzard gamma-tropomyosin

Chicken gizzard muscle tropomyosin has been fractionated into its two major components, beta and gamma and the amino acid sequence of the gamma component established by the isolation and sequence analysis of fragments derived from cyanogen bromide cleavage and tryptic digestions. Despite its much slower mobility on sodium dodecyl sulfate-polyacrylamide electrophoretic gels, it has the same polypeptide chain length (284 residues) as the alpha and beta components of rabbit skeletal muscle. Evidence for microheterogeneity of the chicken gizzard component was detected both on electrophoretic gels and in the sequence analysis. The gamma component is more closely related to rabbit skeletal alpha-tropomyosin than to the beta component. While the protein is highly homologous to the rabbit skeletal tropomyosins, significant sequence differences are observed in two regions; between residues 42-83 and 258-284. In the latter region (COOH-terminal) the alterations in sequence are very similar to those seen in platelet tropomyosin when compared with the skeletal proteins.     

Amino acid sequence studies on the alpha chain of human fibrinogen. Location of four plasmin attack points and a covalent cross-linking site.

The amino acid sequence of a 38-residue midsection piece of the alpha chain of human fibrinogen has been determined using a combination of plasmin-derived peptides and cyanogen bromide fragments. The segment contains several important features, including four early plasmin attack points, one of the two alpha-chain cross-linking acceptor sites, and a peptide homologous to one isolated from plasmin digests of bovine fibrinogen, and reported to have anticoagulant activity. The segment is sequentially adjacent to and overlapping with a large molecular weight (20000-25000) fragment released during plasminolysis. This latter material is very rich in glycine and serine and deficient in nonpolar amino acids. It also contains the other alpha-chain cross-linking acceptor site.     

Primary structure of streptococcal proteinase. I Isolation, composition, and amino acid sequences of the tryptic and chymotryptic peptides of cyanogen bromide fragments 1 to 4.

Tryptic and chymotroptic peptides were isolated and characterized from cyanogen bromide fragments 1 to 4 of streptococcal proteinase and subjected to sequence analysis by the Edman degradation, carboxy-peptidase digestion, and hydrolytic regeneration of the amino acid residues from the phenylthiocarbamyl derivatives. The results, together with the sequence data of the cyanogen bromide fragment 5 reported in the accompanying papers, provide the structural formula of streptococcal proteinase.     

Antigenic structure of the cyanogen bromide peptide F-CB3 from fibrinogen alpha-chain.

The antigenic properties of the cyanogen bromide peptide F-CB3 from bovine fibrinogen alpha-chain were studied in radioimmune assays with rabbit antibodies to fibrinogen or to peptide F-CB3. Both fibrinogen and peptide F-CB3 were indistinguishable in inhibition and dissociation tests. Modification of the single disulfide bridge in peptide F-CB3 either by reduction or by cleavage with cyanide was not accompanied by loss of serologic activity. Inhibition studies with three individual fragments obtained after cyanide cleavage (molecular weight range 7000 to 23000) indicated the presence of at least three distinct antigenic determinants in peptide F-CB3. After trypsin digestion of peptide F-CB3 still 75% of its maximal inhibiting capacity was retained. Lack of change in antigenic activity of peptide F-CB3 after release from the fibrinogen molecule by cyanogen bromide and upon further fragmentation is presumably due to the presence of several sequential antigenic determinants but the presence of conformational determinants could not be entirely excluded. Since no cross-reaction was observed between bovine and human peptides F-B3 one may expect considerable variation in their amino acid sequence.