Selective isolation of free and blocked amino-terminal peptides from enzymatic digestion of proteins

A general method for the selective isolation of free and blocked amino-terminal peptides from proteins is described. The rationale behind the methodology is based on the reasoning that if a protein, which has all its free amino groups blocked by citraconylation, is digested with a protease, all peptides, except those derived from the amino terminus, will have a free amino group. Reaction of such a digest with 1-fluoro-2,4-dinitrobenzene (Dnp-F) followed by removal of citraconyl groups by acid treatment and removal of dinitrophenyl (Dnp) groups from histidine and tyrosine side chains by thiolysis will result in dinitrophenylation of all alpha-amino groups of peptides generated from internal cleavages, leaving only peptides derived from the amino terminus without a Dnp group. The strong adsorption of Dnp groups to polystyrene is used to selectively elute the underivatized amino-terminal peptides from such a column. It is also demonstrated how selective isolation of amino-terminal peptides can be used to determine whether a protein has a free or blocked amino terminus.     

Phosphorylation of histone H2A by protein kinase C and identification of the phosphorylation site.

In regenerating rat liver, nuclear protein histone H2A was shown to be phosphorylated on its amino-terminal serine residue [Sung et al. (1971) J. Biol. Chem. 246, 1358-1364], but the protein kinase which phosphorylates this residue has not been identified. To evaluate the possibility that protein kinase C can phosphorylate this residue, calf thymus histone H2A was 32P-labeled by incubation with [gamma-32P]ATP and highly purified protein kinase C from rat brain in the presence of calcium and phospholipid. About 1 mol of 32P was incorporated per mol of histone H2A and the Km and apparent Vmax of the reaction were calculated to be 2.1 microM and 0.35 mumol/min/mg, respectively. So histone H2A seemed to be a good substrate for protein kinase C. Further, the proteolytic phosphopeptides of 32P-labeled histone H2A were isolated by means of a series of column chromatographies and analyzed for their amino acid compositions. Comparison of the data with the known primary structure of histone H2A revealed their amino acid sequence as 1Ser-Gly-Arg. These data suggest that protein kinase C may be a candidate for the protein kinase which phosphorylates the amino-terminal serine residue of histone H2A during the regeneration of rat liver.     

Fatty acid acylation of the fusion glycoprotein of human respiratory syncytial virus

We describe the covalent attachment of palmitate to the fusion glycoprotein of respiratory syncytial virus and the identification of the attachment site. Labeling of respiratory syncytial virus-infected Vero cells with [3H]palmitate, followed by the purification and subsequent analysis of the fusion glycoprotein in conjunction with polyacrylamide gel electrophoresis, demonstrated that the fatty acid is covalently attached to the F1 subunit of the fusion glycoprotein. The bound palmitate was sensitive to 1 M hydroxylamine at neutral pH. In addition, the release of palmitate label by reduction with sodium borohydride showed that the palmitate is linked to the protein through a thioester bond. Isolation of a radiolabeled peptide from a tryptic digest of the protein and subsequent amino-terminal sequence analysis revealed that the cysteine residue (amino acid residue 550) within the anchor sequence, located at the carboxyl terminus of the F1 subunit, is the covalent attachment site for palmitate.     

Complete amino acid sequence of the ubiquinone binding protein (QP-C), a protein similar to the 14,000-dalton subunit of the yeast ubiquinol-cytochrome c reductase complex

The amino acid sequence of the ubiquinone binding protein (QP-C) in the cytochrome bc1 region of the mitochondrial electron transfer chain was determined by analysis of peptides obtained by cyanogen bromide cleavage and staphylococcal protease digestion of succinylated derivatives. It was found to consist of 110 amino acid residues and its amino terminus to be blocked by an acetyl group, as determined by mass spectrometry of the amino-terminal peptide and a comparison with peptides chemically synthesized on high-performance liquid chromatography. The molecular weight of this ubiquinone binding protein including the acetyl group was calculated to be 13,389. The predicted secondary structure of QP-C has alpha-helical content of about 50% and QP-C was classified as an "all-alpha" or "alpha + beta" protein. This is the first report describing the amino acid sequence of the ubiquinone binding protein. A comparison of this sequence with that of the 14-kDa subunit of the yeast ubiquinol-cytochrome c reductase complex from the nucleotide sequence showed these two sequences to be quite similar.     

Protein structural requirements and properties of membrane binding by gamma-carboxyglutamic acid-containing plasma proteins and peptides

The membrane-binding characteristics of a number of modified vitamin K-dependent proteins and peptides showed a general pattern of structural requirements. The amino-terminal peptides from human prothrombin (residues 1-41 and 1-44, 60:40) bovine factor X (residues 1-44), and bovine factor IX (residues 1-42), showed a general requirement for a free amino-terminal group, an intact disulfide, and the tyrosine homologous to Tyr44 of factor X for membrane binding. Consequently, the peptide from factor IX did not bind to membranes. Any of several modifications of the amino terminus, except reaction with trinitrobenzenesulfonic acid, abolished membrane binding by the factor X and prothrombin peptides. Calcium, but not magnesium, protected the amino terminus from chemical modification. The requirement for a free amino terminus was also shown to be true for intact prothrombin fragment 1, factor X, and factor IX. Although aggregation of the peptide-vesicle complexes greatly complicated accurate estimation of equilibrium binding constants, results with the factor X peptide indicated an affinity that was not greatly different from that of the parent protein. The most striking difference shown by the peptides was a requirement for about 10 times as much calcium as the parent proteins. In a manner similar to the parent proteins, the prothrombin and factor X peptides showed a large calcium-dependent quenching of tryptophan fluorescence. This fluorescence quenching in the peptides also required about 10 times the calcium needed by the parent proteins. Thus, the 1-45 region of the vitamin K-dependent proteins contained most of the membrane-binding structure but lacked component(s) needed for high affinity calcium binding. Protein S that was modified by thrombin cleavage at Arg52 and Arg70 showed approximately the same behavior as the amino-terminal 45-residue peptides. That is, it bound to membranes with overall affinity that was similar to native protein S but required high calcium concentrations. These results suggested that the second disulfide loop of protein S (Cys47-Cys72) and prothrombin (Cys48-Cys61) were involved in high affinity calcium binding. Since factor X lacks a homologous disulfide loop, an alternative structure must serve a similar function. A striking property of protein S was dissociation from membranes by high calcium. While this property was shared by all the vitamin K-dependent proteins, protein S showed this most dramatically and supported protein-membrane binding by calcium bridging.     

Structural comparison of human apolipoproteins B-48 and B-100

In this study we have investigated the structural relationship between human apolipoproteins B-48 and B-100 by comparing protein structure and by comparing nucleotide sequence from intestinal and hepatic cDNA clones. Sequences from intestinal and hepatic cDNA were identical over the entire distance analyzed (7194 bases), which is more than required to code for B-48. The amino-terminal amino acid sequences from intact B-48 and B-100 proteins were also identical over the entire distance analyzed (16 residues). Additional protein homology was evaluated by the combined techniques of peptide mapping and immunoblotting. Purified B-48 and B-100 were each digested with three different endoproteases, and the resulting peptides were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Peptide bands were then detected by silver stain and by Western blotting with antisera against specific regions of B-48 and B-100. The resulting patterns suggest that B-48 is extensively homologous with the amino-terminal portion of B-100. We have identified only four peptides from B-48 (at least one in each digest) that are absent from the parallel digests of B-100. These peptides appear to arise from the ultimate carboxyl terminus of B-48 and appear to be totally homologous with a region located near the center of B-100. Our observations suggest that mature, circulating B-48 is homologous over its entire length (estimated to be between 2130 and 2144 amino acid residues) with the amino-terminal portion of B-100 and contains no sequence from the carboxyl end of B-100.(ABSTRACT TRUNCATED AT 250 WORDS)     

Shuffling of amino acid sequence: an important control in synthetic peptide studies of nucleic acid-binding domains. Binding properties of fragments of a conserved eukaryotic RNA binding motif.

We have used synthetic peptides to study a conserved RNA binding motif in yeast poly(A)-binding protein. Two peptides, 45 and 44 amino acids in length, corresponding to amino and carboxyl halves of a 90-amino acid RNA-binding domain in the protein were synthesized. While the amino-terminal peptide had no significant affinity for nucleic acids, the carboxyl-terminal peptide-bound nucleic acids with similar characteristics to that for the entire 577 residue yeast poly(A)-binding protein. In 100 mM NaCl, the latter peptide retained over 50% of the intrinsic binding free energy of the protein, as well as, similar RNA versus DNA binding specificity. However, shuffling of the sequence of this 44 residue peptide had surprisingly little effect on its nucleic acid binding properties suggesting the overriding importance of amino acid composition as opposed to primary sequence. Deletion studies on the 44 residue peptide with the "correct" sequence succeeded in identifying amino acids important for conferring RNA specificity and for increasing our understanding of the molecular basis for nucleic acid binding by synthetic peptides. The shuffled peptide study, however, clearly indicates that considerable caution must be exercised before extrapolating results of structure/function studies on synthetic peptide analogues to the parent protein.     

The use of hydrophobic, alpha-helix-defined peptides in delineating the T cell determinant for pigeon cytochrome c

The B10.A T cell proliferative response to pigeon cytochrome c is largely directed to a single site in the molecule located at the carboxyl terminus within the amino acid sequence of residues 81 to 104. This study uses the pigeon cytochrome c-specific T cell clone A.E7 and synthetic peptide analogs to clarify the role of certain residues within this sequence in T cell recognition. By using the helically constrained amino acid, alpha-aminoisobutyric acid, alternated with alanine in an amino-terminal leader sequence, we generated a series of molecules of similar length and alpha-helical conformation but which contain increasing lengths of the native sequence. By comparing the stimulatory ability of this series of peptides, we have clearly identified that the isoleucyl residue at position 95 in pigeon cytochrome c is essential for T cell recognition. This series, when compared with a series containing the same native sequences but without the leader sequence, also showed that the presence of the leader sequence has a general effect on enhancement of T cell recognition. An analysis of the conformational preferences of the peptides using circular dichroism indicated that all of the peptides with leader sequences have a strong preference for the alpha-helical conformation in nonpolar solvents. However, the introduction of helix-breaking residues into these peptides, with a concomitant measured reduction in alpha-helix, did not affect their recognition by clone A.E7. This implies that factors other than conformational stabilization are responsible for the full potency of these peptides. Binding studies to phospholipid vesicles indicated that residues in the leader sequence and in the amino terminus of segment 81-104 beyond residue 95 were important in increasing the ability of the antigens to bind to membranes. These results suggest that the capacity to bind to membranes may be a significant factor in the dose response of T cells to exogenously presented peptides.     

The amino acid sequence of goat alpha-lactalbumin

The amino acid sequence of goat α-lactalbumin has been established from the structures of peptides isolated from trypsin and thermolysin digests of the reduced aminoethylated protein and from a chymotrypsin digest of the reduced carboxamidomethylated protein. The amino-terminal sequence was confirmed by automatic sequencer analysis. Of the previously sequenced species variants of α-lactalbumin, the bovine protein is most similar to the goat, differing in only 12 amino acid substitutions. One difference between these proteins corresponds to a substitution found in the bovine A genetic variant (Arg¹⁰ → Gln). The relevance of the structure to the evolutionary relationships in the α-lactalbumin-lysozyme family of proteins is discussed.     

The amino acid sequence of ribonuclease U1, a guanine-specific ribonuclease from the fungus Ustilago sphaerogena

The complete amino acid sequence of ribonuclease U1 (RNase U1), a guanine-specific ribonuclease from a fungus, Ustilago sphaerogena, was determined by conventional protein sequencing, using peptide fragments obtained by several enzymatic cleavages of the performic acid-oxidized protein. The oxidized protein was first cleaved by trypsin and the resulting peptides were purified and their amino acid sequences were determined. These tryptic peptides were aligned with the aid of overlapping peptides isolated from a chymotryptic digest of the oxidized protein. The amino acid sequence thus deduced was further confirmed by isolation and analysis of peptides obtained by digestion of the oxidized protein with lysyl endopeptidase. The location of the disulfide bonds was deduced by isolation and analysis of cystine-containing peptides from a chymotryptic digest of heat-denatured RNase U1. These results showed that the protein is composed of a single polypeptide chain of 105 amino acid residues cross-linked by two disulfide bonds, having a molecular weight of 11,235, and that the NH2-terminus is blocked by a pyroglutamate residue. It has an overall homology with other guanine-specific or related ribonucleases, and shows 48% identity with RNase T1 and 38% identity with RNase U2.     

Parathion hydrolase specified by the Flavobacterium opd gene: relationship between the gene and protein.

The sequence of a 1,693-base-pair plasmid DNA fragment from Flavobacterium sp. strain ATCC 27551 containing the parathion hydrolase gene (opd) was determined. Within this sequence, there is only one open reading frame large enough to encode the 35,000-dalton membrane-associated hydrolase protein purified from Flavobacterium extracts. Amino-terminal sequence analysis of the purified Flavobacterium hydrolase demonstrated that serine is the amino-terminal residue of the hydrolase protein. The amino-terminal serine corresponds to a TCG codon located 87 base pairs downstream of the presumptive ATG initiation codon in the nucleotide sequence. The amino acid composition of the purified protein agrees well with that predicted from the nucleotide sequence, using serine as the amino-terminal residue. These data suggest that the parathion hydrolase protein is processed at its amino terminus in Flavobacterium sp. Construction in Escherichia coli of a lacZ-opd gene fusion in which the first 33 amino-terminal residues of opd were replaced by the first 5 residues of lacZ resulted in the production of an active hydrolase identical in molecular mass to the hydrolase isolated from Flavobacterium sp. E. coli cells containing the lacZ-opd fusion showed higher levels of hydrolase activity than did cells containing the parent plasmid.     

Analysis of the Escherichia coli K-12 cysB gene and its product using the method of gene fusion

The amino-terminal structure and the essential functional region of the cysB gene product of Escherichia coli K-12 were analyzed by the method of gene fusion. The translational start codon of the cysB gene was located by determining the amino-terminal sequence of a hybrid protein containing the first 31 amino acid residues of the CysB protein at the amino terminus of beta-galactosidase(LacZ protein). The fact that two other CysB'-'LacZ hybrid polypeptides expressed a normal CysB activity indicated that the functional region of the CysB protein was located within the first 215 amino acid residues of the total 324 amino acids deduced from the nucleotide sequence.     

Amino acid sequence of rubber elongation factor protein associated with rubber particles in Hevea latex

The amino acid sequence of rubber elongation factor, a recently discovered protein tightly bound to rubber particles isolated from the commercial rubber tree Hevea brasiliensis, is presented. The role of this protein in rubber elongation and its interaction with prenyltransferase and rubber particles have been discussed in the preceding paper in this series (Dennis, M. S., and Light, D. R. (1989) J. Biol. Chem. 264, 18608-18617). Trypsin, Staphylococcus protease, chymotrypsin, acetic acid, and hydroxylamine cleavage were used to generate peptide fragments that were isolated by reverse phase high pressure liquid chromatography and analyzed by amino acid composition and automated Edman degradation. Each digest contained one blocked peptide identified as the amino terminus. The blocked amino-terminal peptide from the tryptic digest was analyzed by amino acid composition, fast atom bombardment mass spectrometry (molecular ion 1659.9), subdigested with Staphylococcus protease for partial sequence analysis, and finally deblocked with bovine liver acyl-peptide hydrolase removing an acetylalanine to allow analysis by Edman degradation. Rubber elongation factor is 137 amino acids long, has a molecular mass of 14,600 daltons, and lacks four amino acids: cysteine, methionine, histidine, and tryptophan. The NH2 terminus is highly charged and contains only acidic residues (5 of the first 12 amino acids). The first four amino acids are highly represented in other known NH2-terminally acetylated proteins. Comparison of the sequence of rubber elongation factor with other known sequences does not reveal significant sequence similarities that would suggest an evolutionary relationship.     

Canine hepatic lysosomal copper protein: identification as metallothionein

We studied the amino acid sequence of canine hepatic lysosomal copper protein obtained from Bedlington terriers affected by inherited copper toxicosis. The primary structure was determined by manual Edman degradations and carboxypeptidase Y digestions of peptides generated by cleavage of the S-carboxyamidomethylated and S-aminoethylated protein with trypsin. Although the amino terminus was blocked and heterogeneous, the protein showed extensive sequence homology to mammalian metallothioneins. In particular, all cysteinyl residues were conserved, in agreement with their function as metal ligands. The microheterogeneity observed in the amino-terminal part of the molecule indicated the presence of two isoforms in canine liver like those found in most other mammals studied so far.     

Determination of amino- and carboxyl-terminal sequences of guinea pig liver transglutaminase: evidence for amino-terminal processing

Transglutaminases (EC 2.3.2.13) catalyze the formation of epsilon-(gamma-glutamyl)lysine cross-links and the substitution of a variety of primary amines for the gamma-carboxamide groups of protein-bound glutaminyl residues. These enzymes are involved in many biological phenomena. In this study, the amino- and carboxyl-terminal sequences of guinea pig liver transglutaminase were identified by sequence analysis to determine whether this enzyme is processed posttranslationally at its terminal regions. Two peptides, believed to contain the amino-terminal sequences of transglutaminase, were isolated from the Pronase digest of the enzyme protein with SP-Sephadex C-25 column chromatography and reverse-phase HPLC. Analyses (amino acid analysis, sequencing after the treatment with an acylamino-acid-releasing enzyme, and fast atom bombardment mass spectrometry) of these peptides indicated that the amino-terminal structure of this enzyme is acetylAla-Glu-Asp-Leu-Ile-Leu-Glu. The candidate for the carboxyl-terminal peptide in the trypsin digest of enzyme was isolated from the unadsorbed fraction of affinity chromatography with anhydrotrypsin agarose gel. The peptide was found to be Asn-Val-Ile-Ile-Gly-Pro-Ala. Both the terminal sequences were completely consistent with those predicted from the cDNA sequence [Ikura, K., Nasu, T., Yokota, H., Tsuchiya, Y., Sasaki, R., & Chiba, H. (1988) Biochemistry 27, 2898-2905]. These results indicated that the amino-terminal processing occurred after or in the course of translation of this enzyme, namely, removal of the initiator methionine and a subsequent acetylation of the alanine residue adjacent to the methionine. Our results did not indicate carboxyl-terminal processing of guinea pig liver transglutaminase.     

Amino acid sequence of an alpha-delta-glycophorin hybrid. A structure reciprocal to Sta delta-alpha-glycophorin hybrid

In this report we examine the primary sequence of a variant glycophorin obtained from erythrocytes of an individual who exhibits an unusual MNSs blood group phenotype. We show that this protein is a hybrid molecule constructed from sequences of alpha- and delta-glycophorins (glycophorins A and B) in a alpha-delta arrangement. Serological typing revealed that the donor's phenotype was M+N+S+s+U+; yet his erythrocytes reacted with some but not all examples of anti-S antisera. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed a variant glycophorin band, and immunoblotting and reaction with N-glycanase suggested that its amino terminus resembled that of M-alpha-glycophorin but that its carboxyl terminus did not. A preparation highly enriched in the variant was obtained and used to generate peptide fragments for sequencing. The sequence revealed that the variant was a hybrid molecule whose amino terminus corresponded to M-alpha-glycophorin and whose carboxyl terminus corresponded to S-delta-glycophorin. CNBr cleavage of the variant glycophorin yielded four peptides. The sequence of the amino-terminal CNBr peptide (residues 1-8) was identical to the amino-terminal octapeptide of M-alpha-glycophorin. The proceeding peptide (residues 9-61) contained a segment identical to residues 9-58 of alpha glycophorin, but its carboxyl-terminal sequence had the Gly-Glu-Met sequence from S-delta-glycophorin (residues 27-29). The other two peptides, insoluble in aqueous solutions, contained highly hydrophobic sequences, identical to residues 30-52 and 53-68 of delta-glycophorin. Sequences of overlapping peptides generated by trypsin and V8 protease confirmed the hybrid nature of the variant glycophorin: residues 1-58 were identical to residues 1-58 of M-alpha-glycophorin, and residues 59-100 were entirely identical to residues 27-68 of S-delta-glycophorin. The variant glycophorin is expected to have 4 additional residues at its carboxyl terminus that correspond to the carboxyl-terminal residues 69-72 of delta-glycophorin. The amino acid sequence arrangement of the variant alpha-delta-glycophorin is an exact reciprocal of that found in another hybrid glycophorin, Sta, that is a delta-alpha hybrid. We propose that the two hybrid glycophorins represent the two possible products resulting from a reciprocal recombination event.     

Rat prothrombin: Purification,characterization, and activation

Prothrombin has been purified from rat plasma and its properties compared to prothrombin isolated from other species. The molecular weight, amino acid composition, and amino-terminal sequence of rat prothrombin are similar to human and bovine prothrombin. Rat prothrombin binds to phospholipid in the presence of calcium ions, and calcium-binding measurements indicate that it may bind somewhat more calcium than does bovine prothrombin. The proteolytic cleavage of purified rat prothrombin by Factor X_a or thrombin yields the same peptides that are formed from similar proteolysis of bovine prothrombin. Factor V and phospholipid were shown to enhance the rate of Factor X_a and calcium ion generation of thrombin from rat prothrombin.     

Primary structure of rabbit alpha-lactalbumin.

Rabbit alpha-lactalbumin was purified from the milk of New Zealand White rabbits. It was found to exist predominantly as a glycoprotein, containing 5 mol of glucosamine per mol of protein, as well as other sugars. The amino acid sequence of the protein was determined by sequenator analysis and carboxypeptidase digestion. There are 122 amino acids in the protein and a single carbohydrate moiety, probably attached to an asparagine residue at position 45. The C terminus of rabbit alpha-lactalbumin is one residue shorter than that of the other alpha-lactalbumins. Sequence comparisons indicate that the alpha-lactalbumin gene has been undergoing more frequent mutation than had previously been thought. A new method of preparative peptide mapping using 2,5-diphenyloxazole (PPO) fluor to detect peptides is described.     

Primary structure of the tail sheath protein of bacteriophage T4 and its gene

Complete sequence determination of gene 18 encoding the tail sheath protein was carried out mainly by the Maxam-Gilbert method. Approximately 40 peptides contained in a tryptic digest and a lysyl endopeptidase digest of gp 18 were isolated by reversed-phase high-performance liquid chromatography. All the peptides were identified along the nucleotide sequence of gene 18 based on the amino acid compositions. These peptides cover 88% of the total primary structure. Furthermore, the amino acid sequences of 9 of the 40 peptides were determined by a gas-phase protein sequencer; one of them turned to be the N-terminal one. The C-terminal peptide in the tryptic digest was isolated from the unadsorbed fraction of affinity chromatography on immobilized anhydrotrypsin and the amino acid sequence was also determined. Thus, the complete primary structure of gp 18 was determined; it has 658 amino acid residues and a molecular weight of 71,160.This article was presented during the proceedings of the International Conference on Macromolecular Structure and Function, held at the National Defence Medical College, Tokorozawa, Japan, December 1985.