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1.
Localization of the alpha-chain cross-link acceptor sites of human fibrin   总被引:5,自引:0,他引:5  
The potential cross-link acceptor sites of fibrin were specifically labeled with the fluorescent, substitute cross-link donor monodansyl cadaverine (MDC). Several fluorescent alpha-chain peptides generated from enzymatic and cyanogen bromide (CNBr) cleavage of the labeled fibrin were identified by sodium dodecyl sulfate disc gel electrophoresis; they were isolated and then characterized by amino acid analysis, NH2-terminal sequence analysis, and chromatographic and electrophoretic analyses of their digestion products. Ancrod cleavage of MDC-labeled fibrin produced a series of six alpha-chain peptides of molecular weights 34,000 to 12,000, each of which contained an MDC-labeled acceptor site, and an NH2-terminal alpha-chain derivative of molecular weight 37,500. The latter remains disulfide bound in the residual fibrin and has two MDC-labeled sit-s which are separable by CNBr cleavage. Mild plasmin digestion of MDC-labeled fibrin generated fluorescent alpha-chain peptides of molecular weights 45,000, 42,000, 35,000, 23,000, 21,000, and 2,500 in the supernatant and a nonfluorescent NH2-terminal alpha-chain derivative of molecular weight 25,000 which remained in the insoluble residual fibrin. The alignment of these plasmic supernatant peptides was determined from NH2-terminal sequence analyses which indicated that an MDC acceptor site was located at approximately residue 255 of the Aalpha-chain. Cleavage of the MDC-labeled alpha-chain by CNBr, however, localized most of its fluorescence (approximately 80%) to a fragment of molecular weight 29,000 which had the same NH2-terminal sequence as the labeled plasmic peptide of molecular weight 21,000. Both peptides were cleaved by ancrod into two acceptor site-containing peptides of approximately equal fluorescence. The preliminary NH2-terminal sequence analyses of these peptides, when combined with the above findings, indicated that these two other cross-link acceptor sites are in a peptide segment which comprises the middle 17% of the Aalpha-chain.  相似文献   

2.
Cross-linking site in fibrinogen for alpha 2-plasmin inhibitor   总被引:4,自引:0,他引:4  
A plasma proteinase inhibitor, alpha 2-plasmin inhibitor (alpha 2PI), is cross-linked with alpha chain of fibrin(ogen) by activated coagulation Factor XIII (plasma transglutaminase). alpha 2PI serves only as a glutamine substrate (amine acceptor) for activated Factor XIII in the cross-linking reaction, and the cross-linking occurs between Gln-2 of the alpha 2PI molecule and a lysine residue (amine donor) of fibrin(ogen) alpha chain, whose position was investigated. alpha 2PI and fibrinogen were reacted by activated Factor XIII. The resulting alpha 2PI fibrinogen A alpha chain complex was separated and subjected to two cycles of Edman degradation using phenyl isothiocyanate for the first cycle and dimethylaminoazobenzene-isothiocyanate for the second cycle. The aqueous phase after the cleavage stage of the second cycle, containing dimethylaminoazobenzene-thiohydantoin-Gln cross-linked with A alpha chain, was subjected to CNBr fragmentation and tryptic digestion. Only one of the peptides was found to have the peak of absorbance at 420 nm, indicating the presence of dimethylaminoazobenzene-thiohydantoin-Gln in that peptide. The peptide was identified as corresponding to residues Asn-290-Arg-348 of A alpha chain by analyses of the NH2-terminal amino acid sequence and amino acid composition. The peptide contains a single lysine at position 303, indicating that Lys-303 of fibrinogen A alpha chain is the lysine residue that forms a cross-link with Gln-2 of alpha 2PI.  相似文献   

3.
A cross-link-containing fragment (alpha XLCNBr), derived from the alpha-polymer component of human fibrin following CNBr digestion, has been isolated and characterized. NH2-terminal sequence studies of three alpha XLCNBr derivatives, each prepared by a different method, indicate that the A alpha-chain regions comprised of residues 241-476 (CNBr VIII) and 518-584 (CNBr X) are the major constituents of the cross-linked fragments examined. Evidence for at least two additional sequences suggests that A alpha 208-235 (CNBr V) and A alpha 585-610 (CNBr XI) may have auxiliary roles in alpha-polymer formation. When alpha XLCNBr was used as an immunogen for the production of murine hybridoma cell lines, two groups of antibodies were obtained. The majority of supernatants from primary hybridoma cultures did not discriminate between fibrinogen and alpha XLCNBr and appeared to contain antibodies directed against determinants within either CNBr VIII or CNBr X [see Ehrlich, P. H., Sobel, J. H., Moustafa, Z. A., & Canfield, R. E. (1983) Biochemistry (following paper in this issue)]. Several supernatants from primary hybridoma cultures, however, did exhibit significant binding toward the alpha-polymer derivative in the absence of demonstrable immunoreactivity toward either highly purified fibrinogen or its A alpha-chain peptides, CNBr VIII and CNBr X.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

4.
The generation of two cleavage products of human C3, termed C3o and C3p, by incubation with a C3-cleaving protease isolated from cobra venom (Naja naja siamensis) is described. The venom protease removes the C3p fragment (Mr approximately 33,000) from the C3dg region of the C3 alpha-chain. The major cleavage fragment C3o (Mr approximately 140,000) contains the unaltered beta-chain of C3 and two alpha-chain-derived polypeptides of Mr approximately 29,000 and Mr approximately 38,000, respectively. Amino-terminal amino acids sequence analysis of C3p and the three chains of C3o allowed the identification of the exact location of the two alpha-chain-derived fragments of C3o and the three cleavage sites of the venom protease. The chain structure of C3o resembles those of C3c and cobra venom factor. In contrast to C3c but like cobra venom factor (and C3b), C3o was found to support the activation of the serine protease Factor B by cleavage in the presence of Factor D and Mg2+ into Bb and Ba, generating an enzymatically active complex that is able to cleave a fluorogenic peptide substrate for C3 convertases. Since the only stretch of amino acid residues of C3o not present in C3c is the carboxyl terminus of the Mr approximately 29,000 chain of C3o, it is suggested that this region is important for the interaction with Factor B and convertase formation.  相似文献   

5.
A method is presented for detection of cross-linking acceptor sites on fibrinogen chains, using monodansyl-cadaverine labeling in the presence of activated fibrin stabilizing factor, and polyacrylamide electrophoresis in the presence of sodium dodecyl sulfate. Fluorescent gamma-chain monomers and dimers were produced at a considerably faster rate than the labeled alpha-chain derivative. Purified fragments X, Y and D were prepared all from the same plasmic digest of fibrinogen. Following incubation with fibrin stabilizing factor, thrombin and monodansyl-cadaverine, they were reduced with beta-mercaptoethanol and examined by sodium dodecyl sulfate/acrylamide electrophoresis. Three gamma-chains (mol. wts 49 000, 42 000 and 39 000) had reacted with dansyl-cadaverine while no alpha-chain remnant took up the label. Additional protein and carbohydrate staining further facilitated identification of the individual subunit chains. At least three critical peptide bonds, located on alpha, beta- and gamma-chain remnants, must be broken during conversion of fragment Y into D and E. Sequential cleavage results in heterogeneous appearance of reduced subunit chains. As a consequence, there exist several molecular entities of fragment Y, all of which may have the same molecular weight though they represent various products of progressive plasmic digestion. Our results are compatible with the model of asymmetric degradation of fibrinogen, according to which fragment X produces 1 mol of fragment E e and 2 mol of the monomeric fragment D.  相似文献   

6.
The rate of activation of plasminogen by tissue-type plasminogen activator is greatly increased by fibrin, but not by fibrinogen. A possible explanation for this phenomenon could be that conformational changes take place during the transformation of fibrinogen to fibrin which lead to exposure of sites involved in the accelerated plasmin formation. This is also supported by our recent observation that some enzymatically prepared fragments of fibrinogen and fibrin (D EGTA, D-dimer, Y) and also CNBr fragment 2 from fibrinogen have this property. CNBr fragment 2 consists of amino acid residues A alpha (148-207), B beta (191-224) + (225-242) + (243-305) and gamma 95-265, kept together by disulphide bonds. In order to study the localization of a stimulating site within this structure we purified the chain remnants of CNBr fragment 2 after reduction and carboxymethylation, and found that only A alpha 148-207 was stimulating. This was further confirmed by digesting pure A alpha-chains with CNBr and purifying the resulting A alpha-chain fragments. CNBr digests of B beta- and gamma-chains were not stimulatory. The A alpha-chain remnant (residues 111-197) in D EGTA and D-dimer also comprise the major part (residues A alpha 148-197) of the CNBr A alpha-chain fragment. We conclude that a site capable of accelerating the plasminogen activation by tissue-type plasminogen activator preexists in fibrinogen, that this site becomes exposed upon fibrin formation or disruption of fibrinogen by plasmin or CNBr and that this site is within the stretch A alpha 148-197, which is retained in the A alpha-chain remnants of fibrinogen degradation products.  相似文献   

7.
The primary structure of the C-terminal region (94 residues) of the ADP,ATP carrier of beef heart mitochondria is described. CNBr cleavage results in a large peptide (CB1) with Mr 22 000 and several small peptides (CB2 to CB8). Peptide separation was achieved by gel chromatography with 80% formic acid or with an ethanol/formic acid mixture. The amino acid sequence of the small CNBr peptides was determined by solid-phase techniques. Hydrolysis in formic acid cleaves the carrier protein into an Mr 23 000 fragment (A1) with the blocked N-terminus and an Mr 10 000 fragment (A2) starting with proline. The alignment of two CNBr fragments was possible by degradation of A2 by solid-phase methods for 34 steps. The remaining CNBr fragments were arranged by sequencing the tryptic peptides of citraconylated A2.  相似文献   

8.
The cyanogen bromide (CNBr) fragments of the two link proteins (LP) were examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The observed apparent molecular weight difference between LP1 (Mr = 44,500) and LP2 (Mr = 48,500) was the reflect of a molecular weight difference between their NH2-terminal CNBr fragments (Mr = 19,000 and 24,000 for LP1 and LP2, respectively). The latter are glycosylated contrary to the COOH-terminal parts of the molecules. Fluorhydric acid/pyridine treatment suggests that LP1 and LP2 have a protein core of identical size. They differ from their common tryptic fragment (T-G200-3 fraction) by the presence of an additional short peptide. The latter was highly glycosylated in LP2 but not in LP1. Deglycosylation together with CNBr treatment corroborates the hypothesis that LP1 and LP2 possess a similar protein core.  相似文献   

9.
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.  相似文献   

10.
Prolonged thrombin time was completely corrected by the addition of millimolar concentrations of calcium in a new abnormal fibrinogen, Osaka V. Analysis of lysyl endopeptidase digests of A alpha-, B beta-, or gamma-chains by high performance liquid chromatography, and the following amino acid sequence analysis of relevant peptides revealed that about 50% of the gamma-chain has a replacement of gamma-arginine 375 by glycine. When fibrinogen was digested with plasmin in the presence of millimolar concentration of calcium, the amount of fragment D1 was about 50% of the normal control, and the rest was further cleaved to fragment D2, D3, or D62 with an apparent Mr of 62,000. Plasmic digestion of cross-linked fibrin in the presence of calcium resulted in the appearance of an abnormal fragment with an apparent Mr of 123,000 as well as fragments D2, D3, and D62, concomitant with the decrease of D dimer. The gamma-remnant of the abnormal fragment proved to be a cross-linked complex of the normal D1 gamma-remnant and residues 374-406/411 of the abnormal gamma-chain. The number of high affinity Ca(2+)-binding sites for the normal fibrinogen and fibrinogen Osaka V obtained by equilibrium dialysis was 2.88 (about 3) and 1.85, respectively, and that for the abnormal molecules was calculated as 0.9 (about 1) from their relative amounts in the samples, suggesting the lack of two Ca(2+)-binding sites in the D-domains. These data suggest that the normal structure of the COOH-terminal portion of the gamma-chain including residue 375 is required for the full expression of high affinity calcium binding to D-domains, the ability to be protected by calcium against plasmic digestion, and fibrin polymerization. During these studies, we found that the NH2-terminal amino acid of the gamma-remnant in fragments D or D dimer which were obtained after prolonged digestion with plasmin is gamma-Met89.  相似文献   

11.
Calcium is required for effective fibrin polymerization. The high affinity Ca2+ binding capacity of fibrinogen was directly localized to the gamma-chain by autoradiography of nitrocellulose membrane blots of fibrinogen subunits incubated with 45Ca2+. Terbium (Tb3+) competitively inhibited 45Ca2+ binding to fibrinogen during equilibrium dialysis, accelerated fibrin polymerization, and limited fibrinogen fragment D digestion by plasmin. The intrinsic fluorescence of Ca2+-depleted fibrinogen was maximally enhanced by Ca2+ and Tb3+, but not by Mg2+, at about 3 mol of cation/mol of fibrinogen. Protein-bound Tb3+ fluorescence at 545 nm was maximally enhanced by resonance energy transfer from tryptophan (excitation at 290 nm) at about 2 mol of Tb3+mol of fibrinogen and about 1 mol of Tb3+/mol of plasmic fragment D94 (Mr 94,000). Fibrinogen fragments D78 (Mr 78,000) and E did not show effective enhancement of Tb3+ fluorescence, suggesting that the Ca2+ site is located within gamma 303 to gamma 411, the peptide which is absent in fragment D78 but present in D94. When CNBr fragments of the carboxyamidated gamma-subunit were assayed for enhancement of Tb3+ fluorescence, peptide CBi (gamma 311-336) bound 1 mol of Tb3+/mol of CBi. Thus, the Ca2+ site is located within this peptide. The sequence between gamma 315 and gamma 329 is homologous to the calmodulin and parvalbumin Ca2+ binding sites.  相似文献   

12.
The formation of the (DD)E complex and fragments DD and E upon proteolysis of human cross-linked fibrin was studied by timed digestions using varying amounts of plasmin. The (DD)E complex was the primary soluble degradation product released form cross-linked fibrin. This complex contained fragments DD and E1. Upon further digestion (DD)E1 complex was cleaved to (DD)E2 complex whereby only the fragment E moiety was affected. However, when fragment E2 was digested to fragment E3, dissociation of the complex occurred. Thus, fragments DD and E3 are the terminal plasmic digestion products of cross-linked fibrin. This pattern was consistent regardless of the plasmin to fibrin ratio; however, the rate of production of the terminal degradation products was directly dependent upon enzyme concentration. Digestion conditions were modified so that either the (DD)E complex or fragment DD was the predominant degradation product, allowing for the purification of these species by one-step gel filtration. The molar ratio of fragment DD to fragment E in the (DD)E complex was investigated by dissociation of the complex and by reassociation of the purified components. The (DD)E complex contains one molecule of fragment DD and one molecule of fragment E.  相似文献   

13.
In this study, a peptide of 34 amino acids from the Mr 40,000 C terminus alpha-chain fragment of C3 was found to mediate properdin (P) binding. Treatment of the Mr 40,000 fragment with CNBr generated one major Mr 17,000 fragment that was capable of binding P. Amino acid sequence data placed the Mr 17,000 fragment within residues 1385 to 1540 of the C3 sequence. After analyzing this sequence for highly conserved segments within the C3 from other species (which bind P) and segments of low similarity within human C4, mouse C5, and alpha 2-macroglobulin (which do not bind P), a 34-amino acid (1402 to 1435) peptide was synthesized. This synthetic peptide bound to P and inhibited its binding to C3b. In addition, it exhibited negative regulatory activity on the alternative pathway as it inhibited the lysis of rabbit erythrocytes by normal human serum. These results show that the P-binding site is located within the residues 1402 to 1435 of the C3 sequence.  相似文献   

14.
The presence of fibrinopeptide B in human fibrin has a significant effect on plasmic degradation pathways of cross-linked clots. Two types of fibrin were obtained from fibrinogen by incubation either with thrombin, to remove both fibrinopeptides A and B, or with batroxobin, to cleave fibrinopepitde A only. Fibrins obtained after various incubation times were characterized by the determination of the NH2-terminal amino acids, the content of fibrinopeptides, and the extent of cross-linking. The fibrins were digested by plasmin and were analyzed by polyacrylamide gel electrophoresis. The presence and concentration of the (DD)E complex, as well as fragments E1 and E2, in the digests were dependent upon the loss of fibrinopeptide B from cross-linked fibrin. These degradation products, and also fragment DD, appear to be useful molecular markers of fibrinolysis.  相似文献   

15.
A fragment F-CB3 which originates from the alpha-chain constituent of bovine fibrinogen could be liberated by CNBr cleavage and was purified by molecular sieve and ion-exchange chromatography. This fragment had a molecular weight of 36 000 and consisted of a single polypeptide chain which is folded into a loop by a single disulfide bridge. Further cleavage of F-CB3 by cyanide or by 2-nitro-5-thiocyanobenzoic acid gave rise to three fragments, CN1, CN2 and CN3, with molecular weights of 23 000, 8000 and 7000, respectively. With both reagents the yield of cleavage did not exceed 50%. Radioactive labeling and amino acid analysis of the purified fragments indicated the order CN1-CN2-CN3 in intact F-CB3. A shorter and apparently degraded form of F-CB3 was observed in some fibrinogen preparations. The shortening involved a region of about 3000 daltons at the N-terminal site of F-CB3, i.e. in fragment CN1.  相似文献   

16.
Three chymotryptic fragments accounting for almost the entire amino acid sequence of gizzard calponin (Takahashi, K., and Nadal-Ginard, B. (1991) J. Biol. Chem. 266, 13284-13288) were isolated and characterized. They encompass the segments of residues 7-144 (NH2-terminal 13-kDa peptide), 7-182 (NH2-terminal 22-kDa peptide), and 183-292 (COOH-terminal 13-kDa peptide). They arise from the sequential hydrolysis of the peptide bonds at Tyr182-Gly183 and Tyr144-Ala145 which were protected by the binding of F-actin to calponin. Only the NH2-terminal 13- and 22-kDa fragments were retained by immobilized Ca(2+)-calmodulin, but only the larger 22 kDa entity cosedimented with F-actin and inhibited, in the absence of Ca(2+)-calmodulin, the skeletal actomyosin subfragment-1 ATPase activity as the intact calponin. Since the latter peptide differs from the NH2-terminal 13-kDa fragment by a COOH-terminal 38-residue extension, this difference segment appears to contain the actin-binding domain of calponin. Zero-length cross-linked complexes of F-actin and either calponin or its 22-kDa peptide were produced. The total CNBr digest of the F-actin-calponin conjugate was fractionated over immobilized calmodulin. The EGTA-eluted pair of cross-linked actin-calponin peptides was composed of the COOH-terminal actin segment of residues 326-355 joined to the NH2-terminal calponin region of residues 52-168 which seems to contain the major determinants for F-actin and Ca(2+)-calmodulin binding.  相似文献   

17.
Bovine P2 Protein: Sequence at the NH2-Terminal of the Protein   总被引:2,自引:2,他引:0  
Sequence data from key fragments of the P2 protein established the order of cyanogen bromide (CNBr) peptides in the structure of the protein and the primary structure for approximately one-half of the molecule. Data were obtained from the three tryptic peptides of blocked NH2-terminal CNBr peptide (CN3), the large CNBr peptide of P2 protein (CN1), and a fragment obtained from P2 by cleavage at tryptophan with 2-(2-nitrophenylsulfenyl)-3-methyl-3'-bromoindolenine. This last fragment was found to contain an over-lapping sequence that proved the juxtaposition of CN1 and CN3 in P2 protein. Thus, based on this fact and the characteristics of the CNBr peptides, the P2 structure is composed of CNBr peptides in the order: CN3-CN1-CN2(Val)-CN2(Lys). A comparison was made between the partial sequence of P2 protein and the equivalent portion of the structure of bovine myelin basic protein. The structures of these two proteins were found to be distinctly different although certain similarities are found.  相似文献   

18.
Previous work suggested that the major Mr 46,000 ATP-binding protein [a putative nucleoside triphosphatase (NTPase)] found in rat liver nuclear scaffold (NS) may be proteolytically derived from lamins A/C. To definitively establish this identification, we undertook a series of photolabeling, proteolysis, and immunoprecipitation experiments. Mice were immunized with human lamin C expressed in bacteria, and monoclonal antibody-producing hybridomas were obtained. The purified monoclonal antibodies all recognized lamins A and C on immunoblots of NS, as well as Mr 46,000 or 34,000 proteolytic fragments as minor components. The Mr 46,000 photolabeled band was the only major NS component photolabeled with low concentrations of azido-ATP, and it was immunoprecipitated with anti-lamin monoclonal antibodies. To preclude the possibility that the photolabeled Mr 46,000 protein represented a minor component which comigrated with the Mr 46,000 lamin fragment and which specifically associated with lamins A/C during immunoprecipitation, a series of proteolytic digestions were undertaken. Digestion of the photolabeled Mr 46,000 peptide with chymotrypsin and staphylococcal protease V8 produced a limited number of photolabeled fragments, all of which comigrated with major stainable fragments produced from the Mr 46,000 lamin fragment. Cyanogen bromide cleavage of the photolabeled Mr 46,000 polypeptide, followed by polyacrylamide gel electrophoresis or high performance liquid chromatography/amino acid analyses, defined the COOH-terminal cleavage site as the Y residue at amino acid 376 and localized the photolabeled site to the COOH-terminal region (amino acids 372-376). In support of this proposed proteolytic cleavage site, specific assays with tyrosine-containing thiobenzyl ester substrate documented the presence of NS protease activity which cleaves at tyrosine residues; this activity shows a Km of 0.2 mM and a Kcat of approximately 250/s. Parallel experiments with mildly proteolyzed cloned lamin C preparations showed selective photolabeling of an Mr 34,000 fragment, which corresponds to a proteolytic breakdown product of the Mr 46,000 NS polypeptide; this Mr 34,000 photolabeled fragment was also immunoprecipitated with anti-lamin monoclonal antibodies and contained the same photolabeled site as the Mr 46,000 peptide. Cloned lamin C preparations were inactive in NTPase assays but did exhibit substantial ATP binding with an apparent KD = 4 x 10(-5) M ATP. These results indicate that the major Mr 46,000 photoaffinity-labeled protein in NS, which represents the putative NTPase thought to participate in nucleocytoplasmic transport, is derived from lamin A or lamin C by NS proteolytic activity which exposes a cryptic ATP-binding site near the highly conserved end of coil-2.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

19.
A soluble glycoprotein of Mr = 80,000 has been isolated from lung lavage of patients with alveolar proteinosis and found to contain 5 residues of hydroxyproline, 91 residues of glycine, 3 residues of methionine, 3.8 molecules of sialic acid, 6 molecules of mannose, 5.9 molecules of galactose, 1 molecule of fucose, and 9.1 molecules of glucosamine. Cyanogen bromide (CNBr) treatment of the glycoprotein resulted in four peptides with molecular weights of 36,000, 27,000, 12,000, and 5,000. The chemical compositions of the CNBr peptides indicated the presence of hydroxyproline and high amounts of glycine in all but one of the peptides; two of the four CNBr peptides contained carbohydrate. Limited trypsin digestion of the glycoprotein of Mr = 80,000 resulted in four peptides with molecular weights of 62,000, 36,000, 26,000 and 18,000, the latter being the NH2-terminal peptide of the native glycoprotein molecule. The peptide of Mr = 26,000 was found to be the COOH-terminal peptide.  相似文献   

20.
Purified calpain II from vascular smooth muscle is a heterodimer consisting of catalytic (Mr = 76,000) and regulatory (Mr = 30,000) subunits. In the presence of Ca2+, the regulatory subunit undergoes stepwise autolysis resulting in enzyme activation. By slowing autoproteolysis, we identified major autolytic intermediates of the regulatory subunit. Gas-phase sequencing of the regulatory subunit and its autolytic fragments revealed that the NH2-terminus of the Mr = 30,000 form was blocked, whereas each fragment yielded a unique amino acid sequence, suggesting that autolysis proceeds in an NH2- to COOH-terminal direction. By comparison of actual amino acid sequences of autolytic cleavage intermediates to the full sequence deduced from cDNA, we have identified the major autolytic cleavage sites. Three different peptide bonds were cleaved, with neutral amino acids predominating on both sides of the peptide bond hydrolyzed. Importantly, leucine or isoleucine was identified in the second position upstream from the cleavage site in all three autolytic sequences. The presence of an upstream leucine residue in the autolytic cleavage sequence is reminiscent of the structure of potent microbial and synthetic peptide inhibitors of calpain.  相似文献   

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