Amino acid sequence of guinea pig prostate kallikrein

The primary structure of the major arginine esteropeptidase from guinea pig prostate has been deduced from automated Edman degradation of peptides generated by clostripain, cyanogen bromide, endoproteinase Lys-C, and Staphylococcus aureus V8 protease digestion of the protein. The esteropeptidase is a single polypeptide chain comprised of 239 amino acids and contains 2 apparent sites of carbohydrate attachment, Asn-78 and Asn-169. Both occur in consensus sequences for N-linked glycosylation sites. The esteropeptidase exhibits approximately 35% homology with trypsin including conservation of the catalytic residues and the aspartic acid which confers specificity toward basic amino acids. The sequence identity, however, extends to greater than 60% with the kallikrein family of serine proteases. In addition to the overall homology, the guinea pig enzyme displays a number of features characteristic of kallikreins including 10 conserved half-cystine residues, a C-terminal proline, and the "kallikrein loop". On the basis of this structural relatedness, the enzyme has been designed as guinea pig prostate kallikrein. In contrast to many of the kallikreins of other species and tissues, this enzyme does not contain any sites within the kallikrein loop sensitive to proteases that result in internal breaks in the polypeptide chain.     

Tissue plasminogen activator: peptide analyses confirm an indirectly derived amino acid sequence, identify the active site serine residue, establish glycosylation sites, and localize variant differences

Tissue plasminogen activator, separated into variants I and II (differing in Mr by 2000-3000), was reduced and [14C]carboxymethylated. Fragments from cleavages with enzymes and cyanogen bromide (CNBr) were separated by reverse-phase high-performance liquid chromatography and subjected to sequence degradations. All seven CNBr fragments were purified and found to be compatible with the cDNA-derived amino acid sequence [Pennica, D., Holmes, W. E., Kohr, W. J., Harkins, R. N., Vehar, G. A., Ward, C. A., Bennett, W. F., Ylverton, E., Seeburg, P. H., Heynecker, H. L., Goeddel, D. V., & Collen, D. (1983) Nature (London) 301, 214-221]. Chemical characterization of 93% of the 527 residues recovered in 50 peptides confirmed the indirectly deduced primary structure of the protein. The tryptic peptide patterns from the two variants were found to differ for one peptide (T15). Since carbohydrate was present in this peptide for variant I and since a marked difference in chromatographic behavior for T15 was observed in variant II, we conclude that carbohydrate differences in this peptide (i.e., Asn-184 in the numbering system of the cDNA-derived amino acid sequence) are the explanation for the size differences between variants I and II. Carbohydrate was also found at two other positions in the protein, corresponding to Asn-117 and Asn-448. However, a fourth potential glycosylation site, Asn-218, is apparently not utilized for carbohydrate attachment. The enzyme is inactivated by diisopropyl phosphorofluoridate, which covalently modifies the serine residue corresponding to position 478, identifying this as the active site serine residue.(ABSTRACT TRUNCATED AT 250 WORDS)     

Primary structure of a protein C activator from Agkistrodon contortrix contortrix venom

The amino acid sequence of a protease, protein C activator, from Agkistrodon contortrix contortrix venom was determined. Peptide fragments obtained by chemical or enzymatic cleavage of the S-carboxymethylated protein were purified by gel filtration and reverse-phase high-performance liquid chromatography. The present study demonstrates that protein C activator from A. contortrix contortrix venom is a trypsin-type serine protease that is composed of 231 residues with a molecular weight of 25,095 for the polypeptide portion of the molecule. By analogy to the mammalian serine proteases, the catalytic triad in venom protein C activator consists of His-40, Asp-85, and Ser-177. The protein also contains three N-linked glycosylation sites at Asn-21, Asn-78, and Asn-129. The amino acid sequence of protein C activator exhibits a high degree of sequence identity with other snake venom proteases: 73% with batroxobin, 68% with flavoxobin, and 55% with Russell's viper venom factor V activator.     

Primary structure of human urinary prokallikrein

The complete amino acid sequence of human urinary prokallikrein has been determined by amino acid analysis and sequence determination of peptide fragments obtained from chemical and enzymological cleavages of kallikrein and by comparison of the N-terminal sequence of prokallikrein with that of kallikrein, the active form. Prokallikrein was a single chain polypeptide which comprised 238 amino acid residues of kallikrein and 7 amino acid residues of the propeptide. The sequence, Asn-X-Thr(Ser), which is a common glycosylation site was found at positions 78-80, 84-86, and 141-143. Two trypsin-susceptible sites were identified. One is the Arg(-1)-Ile(1) bond and the other is the Arg (87)-Gln(88) bond. The sequence of human urinary kallikrein was identical with that of human pancreatic and kidney kallikreins (Fukushima, D. et al. (1985) Biochemistry 24, 8037-8043; Baker, A.R. & Shine, J. (1985) DNA 4, 445-459), which were predicted from the nucleotide sequences of cDNAs. The primary structure of human urinary kallikrein is homologous to those of the other animal kallikreins and kallikrein-related proteins. Key amino acid residues, His(41), Asp(96), and Ser(190), required for catalytic activity and Asp (184) required for kallikrein-type specificity are completely conserved. The results show that human urinary prokallikrein and kallikrein are of tissue type and they are excreted in urine without any modification.     

Homologous membrane folate binding proteins in human placenta: cloning and sequence of a cDNA

A preparation of folate binding protein purified from human placental membranes in the presence of a variety of protease inhibitors followed by deglycosylation with N-glycanase gave a sharp band at Mr approximately 28,000 following SDS-polyacrylamide gel electrophoresis. The deglycosylated protein bound [3H]folic acid as tightly as the native protein. Peptides obtained following digestion of the purified protein with staphylococcal V8 protease and HPLC purification were sequenced. Polyclonal antibodies against the protein preparation were affinity purified and used to screen a placental cDNA expression library. A full-length cDNA for a placental folate binding protein was thus obtained and the corresponding protein sequence deduced. This result, taken together with the peptide sequence data, indicates the expression of at least two homologous folate binding proteins in placenta, one of which appears to be identical with the folate binding protein from human milk and nasopharyngeal epidermoid carcinoma (KB) cells; the cDNA sequence obtained corresponds to the other protein. The deduced protein sequence is characterized by a putative 16-residue amino-terminal signal peptide that is cleaved, resulting in a 239-residue polypeptide. The mature protein exhibits two potential sites for N-linked glycosylation at Asn-99 and Asn-179, eight potential intramolecular disulfide bonds, and a stretch of hydrophobic residues at the carboxyl terminus that could form a transmembrane domain. The protein bears a 68% sequence homology with the KB cell folate binding protein and may represent a fetal folate transport protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nucleotide sequence of cloned cDNA for human pancreatic kallikrein

Cloned cDNA sequences for human pancreatic kallikrein have been isolated and determined by molecular cloning and sequence analysis. The identity between human pancreatic and urinary kallikreins is indicated by the complete coincidence between the amino acid sequence deduced from the cloned cDNA sequence and that reported partially for urinary kallikrein. The active enzyme form of the human pancreatic kallikrein consists of 238 amino acids and is preceded by a signal peptide and a profragment of 24 amino acids. A sequence comparison of this with other mammalian kallikreins indicates that key amino acid residues required for both serine protease activity and kallikrein-like cleavage specificity are retained in the human sequence, and residues corresponding to some external loops of the kallikrein diverge from other kallikreins. Analyses by RNA blot hybridization, primer extension, and S1 nuclease mapping indicate that the pancreatic kallikrein mRNA is also expressed in the kidney and sublingual gland, suggesting the active synthesis of urinary kallikrein in these tissues. Furthermore, the tissue-specific regulation of the expression of the members of the human kallikrein gene family has been discussed.     

Site-specific characterization of the N-linked oligosaccharides of a murine immunoglobulin M by high-performance liquid chromatography/electrospray mass spectrometry

Immunoglobulin M is an especially important product of the immune system because it plays a critical role in early protection against infections. In this report, the glycosylation pattern of the protective murine monoclonal IgM 12A1 to Cryptococcus neoformans polysaccharide was analyzed by high-performance liquid chromatography coupled with electrospray ionization mass spectrometry. Peptide mapping studies covering 88% of the deduced amino acid sequence indicated that of the six potential N-glycosylation sites in this antibody only five were utilized, as the tryptic peptide derived from monoclonal IgM 12A1 containing Asn-260 was recovered without carbohydrates. The oligosaccharide side chains of monoclonal IgM 12A1 were characterized at each of the N-glycosylation sites. Asn-166 possessed 20 monosialylated and nonsialylated, and fucosylated and nonfucosylated complex- and hybrid-type oligosaccharides and one high-mannose-type oligosaccharide. Thirteen oligosaccharides were attached to the site at Asn-401, including six complex-type, four hybrid-type, and three high-mannose-type oligosaccharides. Twelve hybrid-type oligosaccharides were attached to Asn-378, three of which had terminal sialic acids. Eleven hybrid-type oligosaccharides were attached to Asn-331, seven of which had terminal sialic acids. Only two high-mannose type oligosaccharides were attached to Asn-363. These results indicated great complexity in the structure and composition of oligosaccharides attached to individual IgM glycosylation sites.     

Amino acid sequence and oligosaccharide distribution of the haemagglutinin from an early Hong Kong influenza virus variant A/Aichi/2/68 (X-31).

The amino acid sequence and oligosaccharide distribution for the haemagglutinin from the early Hong Kong influenza virus A/Aichi/2/68 (X-31) was investigated. The two polypeptide chains, HA1 and HA2, were fragmented by CNBr and enzymic digestion, and the amino acid sequence of each small peptide was deduced by comparing its chromatographic behaviour, electrophoretic mobility, amino acid composition and N-terminus with that of the corresponding peptide of the haemagglutinin of known structure from the influenza-virus variant A/Memphis/102/72. Those peptides in which changes were detected were sequenced fully. The complete amino acid sequence of the haemagglutinin HA1 chain (328 residues) and 188 of the 221 residues of the HA2 chain were established by this approach, and revealed only twelve differences between the amino acid sequences of variant-A/Aichi/68 and -A/Memphis/72 haemagglutinins. These occurred at positions 2, 3, 122, 144, 155, 158, 188, 207, 242 and 275 in the HA1 chain and 150 and 216 in the HA2 chain. The highly aggregated hydrophobic region (residues 180-121) near the C-terminal end of the HA2 chain was not resolved by peptide sequencing. The oligosaccharide distribution in variant-A/Aichi/68 haemagglutinin was identical with that found in that of A/Memphis/72, with sugar units attached at asparagine residues 8, 22 38, 81, 165 and 285 in the HA1 chain and 154 on the HA2 chain. The monosaccharide compositions of the individual carbohydrate units on variant-A/Aichi/68 haemagglutinin differed from those of the corresponding units in variant-A/Memphis/72 haemagglutinin, and evidence was found for heterogeneity in the oligosaccharide units attached at single glycosylation sites.     

Cloning and nucleotide sequence of a bovine pancreatic preprocarboxypeptidase A cDNA

A full-length cDNA clone encoding bovine pancreatic preprocarboxypeptidase A was isolated and sequenced. The 1405-base pair insert contains a 26-nucleotide 5'-noncoding region, a 1260-nucleotide open reading frame and a 76-nucleotide 3'-noncoding fragment plus a poly(A) tail of at least 43 nucleotides. The open reading frame encodes a protein of 419 amino acids, including the 16 amino acid signal peptide. The mature enzyme (309 residues) has two additional C-terminal amino acids, as compared with the amino acid sequence of the protein which was reported more than 20 years ago. In addition, four residues deduced from the nucleotide sequence differed from those identified in the reported amino acid sequence from their net charge: Asp-89, Asp-114, Gln-122, and Asp-185 instead of Asn-89, Asn-114, Glu-122, and Asn-185, respectively. A high degree of identity exists between the nucleotide sequences (81.3%), on the one hand, and the amino acid sequences (78.3%), on the other hand, of bovine preprocarboxypeptidase A and rat preprocarboxypeptidase A1.     

Cloning and sequencing of a human pancreatic tumor mucin cDNA

A monospecific polyclonal antiserum against deglycosylated human pancreatic tumor mucin was used to select human pancreatic mucin cDNA clones from a lambda gt11 cDNA expression library developed from a human pancreatic tumor cell line. The full-length 4.4-kilobase mucin cDNA sequence included a 72-base pair 5'-untranslated region and a 307-base pair 3'-untranslated region. The predicted amino acid sequence for this cDNA revealed a protein of 122,071 daltons containing 1,255 amino acid residues of which greater than 60% were serine, threonine, proline, alanine, and glycine. Approximately two-thirds of the protein sequence consisted of identical 20-amino acid tandem repeats which were flanked by degenerate tandem repeats and nontandem repeat sequences on both the amino-terminal and carboxyl-terminal ends. The amino acid sequence also contained five putative N-linked glycosylation sites, a putative signal sequence and transmembrane domain, and numerous serine and threonine residues (potential O-linked glycosylation sites) outside and within the tandem repeat position. The cDNA and deduced amino acid sequence of the pancreatic mucin sequence was over 99% homologous with a mucin cDNA sequence derived from breast tumor mucin, even though the native forms of these molecules are quite distinct in size and degree of glycosylation.     

Cloning and characterization of bovine insulin-like growth factor binding protein-3 (bIGFBP-3).

We report for the first time the isolation of a cDNA encoding the complete amino acid sequence for bovine growth hormone-dependent insulin-like growth factor binding protein-3 (bIGFBP-3). The deduced amino acid sequence from the cDNA revealed a mature polypeptide consisting of 264 amino acids and a 27 amino acid putative signal peptide. The amino acid sequence is over 80% homologous with human IGFBP-3 with complete conservation of the 18 cysteine residues and the 3 Asn-linked glycosylation sites. Between the two species there are 44 amino acid substitutions. Northern analysis of the bIGFBP-3 mRNA in bovine tissue revealed a single mRNA species of 1.65 kilobases.     

Correction of the cDNA-derived protein sequence of prostatic spermine binding protein: pivotal role of tandem mass spectrometry in sequence analysis

Spermine binding protein (SBP) is a rat ventral prostate protein that binds various polyamines, and the level of this protein and its mRNA is regulated by androgens. Previously, the cDNA for SBP was cloned and sequenced and an amino acid sequence deduced from the cDNA. Data from cloned and sequenced and an amino acid sequence deduced from the cDNA. Data from partial amino acid sequencing of the purified protein were consistent with the amino acid sequence deduced from the cDNA. However, the amino terminus of the protein was blocked, and therefore, direct protein sequence information confirming the cDNA reading frame of this region could not be obtained by Edman degradation. We have now employed an integrated approach using fast atom bombardment mass spectrometry, tandem mass spectrometry, and conventional sequencing methodologies to establish the amino-terminal sequence of the protein and to identify an amino acid sequence (35 residues) present in the purified protein but missing from the amino acid sequence deduced from cDNA clones for this protein. The missing piece of cDNA corresponds to an exon found in mouse genomic clones for a protein similar to rat SBP. Therefore, the cDNA clones for rat SBP may represent splicing variants that lack the sequence information of one exon. The blocked amino terminus of the protein was identified as 5-oxopyrrolidine-2-carboxylic acid. Mass spectrometry also provided evidence regarding glycosylation of the protein. The first of two potential glycosylation sites clearly carries carbohydrate; the second site is, at most, only partially glycosylated.     

Molecular cloning of cDNA for rat cathepsin C. Cathepsin C, a cysteine proteinase with an extremely long propeptide

A cDNA for rat cathepsin C (dipeptidylaminopeptidase I) was isolated. The deduced amino acid sequence of cathepsin C comprises 462 amino acid residues: 28 NH2-terminal residues corresponding to the signal peptide, 201 residues corresponding to the propeptide, and 233 COOH-terminal residues corresponding to the mature enzyme region. Four potential glycosylation sites were found, three located in the propeptide region, and one in the mature enzyme region. The amino acid sequence of mature cathepsin C has 39.5% identity to that of cathepsin H, 35.1% to that of cathepsin L, 30.1% to that of cathepsin B, and 33.3% to that of papain. Cathepsin C, therefore, is a member of the papain family, although its propeptide region is much longer than those of other cysteine proteinases and shows no significant amino acid sequence similarity to any other cysteine proteinase.     

Isolation of Protein Inhibitors of Papain,Trypsin, and α-Amylase in the Grain of Foxtail Millet

The amino acid sequence of Indian peafowl egg-white lysozyme has been identified. The reduced and carboxymethylated lysozyme was digested with trypsin followed by purification of the resulting peptides by reverse-phase HPLC. The tryptic peptides obtained were sequenced using the DABITC/PITC double coupling manual sequencing method. The alignment of the tryptic peptides were deduced by comparison with corresponding peptides of hen egg-white lysozyme. This protein proved to consist of 129 amino acid residues, and a relative molecular mass of 14423 Da was calculated. Amino acid sequence comparison of peafowl lysozyme and other phasianoid bird lysozymes revealed a maximum homology ratio of 98% with turkey lysozyme.     

N-terminus determination: FAD and NADP binding domain mapping of hog liver flavin-containing monooxygenase by tandem mass spectrometry

Highly purified hog liver flavin-containing monooxygenase was sequentially denatured, reduced, carboxymethylated, and digested with endoproteinase Glu-C. The purified peptides were subjected to mass spectrometric analysis and the amino acid sequence of selected fragments was determined by tandem mass spectrometry. The amino acid sequence of the first 12 residues of the N-terminus was: Ac-Ala-Lys-Arg-Val-Ala-Ile-Val-Gly-Ala-Gly-Val-Ser-Gly. The amino acid sequence determined for another peptide was: Lys-Ser-Val-Leu-Val-Val-Gly-Met-Gly-Asn-Ser-Gly-Thr-Asp-Ile-Ala-Val-Glu. The results provide direct evidence for the structure of the N-terminal modification of the protein and for the existence of the FAD and NADP binding domains of Gly-X-Gly-X-X-Gly.     

Morquio disease: isolation, characterization and expression of full-length cDNA for human N-acetylgalactosamine-6-sulfate sulfatase.

We cloned and sequenced a full-length cDNA of human placental N-acetylgalactosamine-6-sulfate sulfatase, the enzyme deficient in Morquio disease. The 2339-nucleotide sequence contained 1566 nucleotides which encoded a polypeptide of 522 amino acid residues. The deduced amino acid sequence was composed of a 26-amino acid N-terminal signal peptide and a mature polypeptide of 496 amino acid residues including two potential asparagine-linked glycosylation sites. Expression of the cDNA in transfected deficient fibroblasts resulted in higher production of this sulfatase activity than in untransfected deficient fibroblasts. The cDNA clone was hybridized to only a 2.3-kilobase species of RNA in human fibroblasts. The amino acid sequence of N-acetylgalactosamine-6-sulfate sulfatase showed a high degree of homology with those of other sulfatases such as human arylsulfatases A, B or C, glucosamine-6-sulfatase, iduronate-2-sulfatase and sea urchin arylsulfatase.     

Isolation and sequencing of a cDNA clone encoding 96 kDa sialoglycoprotein in rat liver lysosomal membranes

We isolated and sequenced LGP 96, a cDNA clone corresponding to the entire coding sequence of the rat liver lysosomal membrane sialoglycoprotein with an apparent Mr of 96 K, LGP 96. The deduced amino acid sequence indicates that LGP 96 consists of 411 amino acid residues (Mr 45,163) and the 26 NH2-terminal residues presumably constitute a cleavable signal peptide. The major portion of LGP 96 resides on the luminal side of the lysosome and bears a large number of N-linked heavily sialylated complex type carbohydrate chains, giving the mature molecule of 96 kDa. The protein has 17 potential N-glycosylation sites and 32.1 and 65.3% sequence similarities in amino acid to LGP 107 and human lamp-2, respectively. The glycosylation sites are clustered into two domains separated by a hinge-like structure enriched with proline and threonine. LGP 96 possesses one putative transmembrane domain consisting of 24 hydrophobic amino acids near the COOH-terminus and contains a short cytoplasmic segment constituting 12 amino acid residues at the COOH-terminal end. Comparison of LGP 96 and recently cloned lysosomal membrane glycoprotein sequences reveals strong similarity in the putative transmembrane domain and cytoplasmic tail. It is very likely that these portions are important for the targeting of molecules to lysosomes. A comparison of LGP 96 and LGP 107 showed numerous structural similarities.     

Structure of recombinant human interleukin 5 produced by Chinese hamster ovary cells

The complete peptide map of purified recombinant human interleukin 5 (rhIL-5) was determined to verify its primary structure, glycosylation sites, and disulfide bonding structure. Each peptide fragment generated by Achromobacter protease I (API) digestion was purified and characterized by amino acid analysis and amino acid sequence analysis. After digestion with API, we could identify all the peptides which were expected from human IL-5 cDNA sequence. The analyses of sulfhydryl content in rhIL-5 molecule and disulfide-containing peptide obtained from API digestion indicated that active form of rhIL-5 existed as an antiparallel dimer linked by two pairs of Cys-44 and Cys-86. In addition, we concluded that Thr-3 and Asn-28 were glycosylated. The results indicate that primary structure of rhIL-5 is highly homogeneous and observed heterogeneity is due to the difference in the content of carbohydrate.