Sequence Analysis Of Tryptic Peptides Research Articles

Identification of Cell Wall-Associated Proteins from Phytophthora ramorum

The oomycete genus Phytophthora comprises a large group of fungal-like plant pathogens. Two Phytophthora genomes recently have been sequenced; one of them is the genome of Phytophthora ramorum, the causal agent of sudden oak death. During plant infection, extracellular proteins, either soluble secreted proteins or proteins associated with the cell wall, play important roles in the interaction with host plants. Cell walls of P. ramorum contain 1 to 1.5% proteins, the remainder almost exclusively being accounted for by glucan polymers. Here, we present an inventory of cell-wall-associated proteins based on mass spectrometric sequence analysis of tryptic peptides obtained by proteolytic digestion of sodium dodecyl sulfate-treated mycelial cell walls. In total, 17 proteins were identified, all of which are authentic secretory proteins. Functional classification based on homology searches revealed six putative mucins or mucin-like proteins, five putative glycoside hydrolases, two transglutaminases, one annexin-like protein, the elicitin protein RAM5, one protein of unknown function, and one Kazal-type protease inhibitor. We propose that the cell wall proteins thus identified are important for pathogenicity.

Identification and Characterization of an 8-kDa Light Chain Associated with Dictyostelium discoideum MyoB, a Class I Myosin

Dictyostelium discoideum MyoB is a single-headed class I myosin. Analysis of purified MyoB by SDS-PAGE indicated the presence of an approximately 9-kDa light chain. A tryptic digest of MyoB yielded a partial sequence for the light chain that exactly matched a sequence in a 73-amino acid, 8,296-Da protein (dictyBase number DDB0188713). This protein, termed MlcB, contains two EF-hand motifs and shares approximately 30% sequence identity with the N- and C-terminal lobes of calmodulin. FLAG-MlcB expressed in Dictyostelium co-immunoprecipitated with MyoB but not with the related class myosins and MyoD. Recombinant MlcB bound Ca2+ with a Kd value of 0.2 microm and underwent a Ca2+-induced change in conformation that increased alpha-helical content and surface hydrophobicity. Mutational analysis showed that the first EF-hand was responsible for Ca2+ binding. In the presence and absence of Ca2+ MlcB was a monomer in solution and bound to a MyoB IQ motif peptide with a Kd value of approximately 0.5 microm. A MyoB head-neck construct with a Ser to Glu mutation at the TEDS site bound MlcB and displayed an actin-activated Mg2+ ATPase activity that was insensitive to Ca2+. We conclude that MlcB represents a novel type of small myosin light chain that binds to IQ motifs in a manner comparable with a single lobe of a typical four-EF-hand protein.

Corneal Keratocytes: Phenotypic and Species Differences in Abundant Protein Expression and In Vitro Light-Scattering

Previous studies suggest that corneal haze after injury involves changes in the light-scattering properties of keratocytes that are possibly linked to the abundant expression of water-soluble proteins. The purpose of this study was to determine the protein expression pattern of keratocytes from different species and different cultured rabbit keratocyte phenotypes and to assess differences in light-scattering in vitro. Water-soluble proteins were isolated from corneal epithelial cells and keratocytes of several species, including human (Hu), mouse (Mo), rabbit (Ra), chicken (Ch), and pig (P) and different cultured rabbit keratocyte phenotypes. Proteins were then characterized by SDS-PAGE, tryptic peptide sequence analysis, and Western blot analysis. Light-scattering and actin organization from cultured cells were determined with confocal reflectance and fluorescence microscopy, respectively. Protein expression patterns varied substantially between species and cell types, with five new abundantly expressed proteins identified including, LDH (Ra, Ch), G3PDH (Hu, Ch), pyruvate kinase (Ch), Annexin II (Ch), and protein disulfide isomerase (Ch). Different rabbit keratocyte phenotypes also showed different levels of expression of ALDH1A1 and TKT, with myofibroblasts showing the greatest reduction. Myofibroblasts showed significantly greater (P < 0.05) light-scattering but also showed the greatest organization of actin filaments. Abundant protein expression is a characteristic feature of corneal keratocytes that is lost when cells are phenotypically modulated in culture. Greater light-scattering by myofibroblasts also provides support for a link between cellular transparency and haze after injury that is possibly related to loss of protein expression or development of prominent actin filament bundles.

A Sensitive Peptide Mapping Method

Peptide mixtures, precolumn-derivatized with dimethylaminoazobenzene isothiocyanate, have been separated by reversed-phase high-performance liquid chromatography to generate a dimethylaminoazobenzene thiocarbamoyl peptide map. The eluted peptide derivatives are detected in the visible region with a sensitivity of 2-5 pmol and can be collected for direct structural analysis. This technique was applied to compare the sequence homology of two immunoglobulin light chains which were derived from two anti-azobenzenearsonate monclonal antibodies, namely 10K44-7A1 and 10K26-12A1. The complete variable region sequences of 10K44-7A1 and 10K26-12A1 light chains were established based on the sequence analysis of tryptic peptides, intact light chains and reference sequences obtained previously [Siegelman M. and Capra, J.D. (1981) Proc. Natl Acad. Sci. USA, 78, 7679-7683]. Altogether, three amino acid substitutions have been detected within complementary determining regions 1 and 2, and framework region 3, all requiring only a single base change at the DNA level. This new technique provides detection limits and the feasibility of analysing peptides which are not obtainable with conventional techniques.

Codeposition of Apolipoprotein A-IV and Transthyretin in Senile Systemic (ATTR) Amyloidosis

Protein material was extracted from amyloid-rich sections of formalin-fixed and paraffin-embedded heart tissue from an individual with senile systemic amyloidosis, known to contain wild-type transthyretin as major amyloid fibril protein. Amino acid sequence analysis of tryptic peptides of this material revealed in addition to transthyretin sequences, also amino acid sequence corresponding to an N-terminal fragment of apolipoprotein A-IV. In immunohistochemistry, an antiserum to a synthetic apolipoprotein A-IV peptide labeled amyloid specifically. This peptide formed spontaneously amyloid-like fibrils in vitro and enhanced fibril formation from wild-type transthyretin. We conclude that several apolipoproteins, including apolipoprotein A-IV, may be important minor amyloid constituents, promoting fibril formation.

Nuclear coactivator protein p100 is present in endoplasmic reticulum and lipid droplets of milk secreting cells

We have identified the p100 protein, previously known as a novel cellular coactivator, as a constituent of endoplasmic reticulum and cytosolic lipid droplets from milk secreting cells. Cytosolic lipid droplets of terminally differentiated mammary epithelial cells are secreted as milk lipid globules. However, milk lipid globules did not have detectable amounts of p100 protein. The p100 protein was found also in cytosol from lactating mammary gland, in storage lipid droplets from mouse adipocytes, and in endoplasmic reticulum from liver. Immunofluorescence microscopy of mammary epithelial cells confirmed the presence of p100 in non-nuclear regions of these cells. Partial sequence analysis of tryptic peptides from p100 from cow mammary gland showed extensive homology with the reported sequence of p100 determined from a human cDNA. Antibodies against a peptide synthesized to duplicate a sequence in human p100 recognized a protein of the size of p100 in cow, mouse and rat cell fractions.

La autoantigen specifically recognizes a predicted stem-loop in hepatitis B virus RNA.

We recently identified three nuclear proteins (p45, p39, and p26) that bind to a 91-nucleotide (nt) RNA element between nt 1243 and 1333 in hepatitis B virus (HBV) RNA, and we showed that these proteins and HBV RNA are regulated coordinately by gamma interferon and tumor necrosis factor alpha. Purification and sequence analysis of tryptic peptides obtained from p39 revealed sequence homology to the mouse La protein. Immunoprecipitation experiments showed that p45, p39, and p26 were recognized by anti-La-specific antiserum, indicating that p45 is the full-length La protein and that p39 and p26 are likely to be proteolytic La cleavage products. Furthermore, in competition experiments we found that all three La proteins bind, in a phosphorylation-dependent manner, to the same predicted stem-loop structure located between nt 1275 and 1291 of HBV, with Kds of approximately 1.0 nM. Collectively, these results support the notion that the La protein may contribute to HBV RNA stability, constitutively and in response to inflammatory cytokines.

Regulation of the p21-activated Kinase-relatedDictyostelium Myosin I Heavy Chain Kinase by Autophosphorylation, Acidic Phospholipids, and Ca2+-Calmodulin

The Dictyostelium myosin I heavy chain kinase (MIHCK) is a member of the p21-activated kinase family (Lee, S.-F., Egelhoff, T. T., Mahasneh, A., and Côté, G. P. (1996) J. Biol. Chem. 271, 27044-27048). MIHCK incubated with MgATP in the absence of effectors incorporates 1 mol of phosphate/mol, resulting in an approximately 40-fold increase in kinase activity. Sequence analysis of tryptic peptides has identified the major site of phosphorylation as Ser-8. A peptide and a glutathione S-transferase fusion protein containing the Ser-8 phosphorylation site were good substrates for MIHCK, indicating that MIHCK can catalyze its own activation. Guanosine 5'-3-O-(thio)triphosphate (GTPgammaS)-Rac1 stimulates MIHCK autophosphorylation and kinase activity 10-fold. Phosphatidylserine, phosphatidylinositol, and phosphatidylinositol 4,5-bisphosphate, but not phosphatidylcholine or sphingosine, were as effective as GTPgammaS-Rac1 in enhancing MIHCK autophosphorylation and activity. Acidic lipids and GTPgammaS-Rac1 induced the autophosphorylation of a similar set of sites as judged by two-dimensional tryptic peptide maps. It is proposed that GTP-Rac and acidic phospholipids function cooperatively to associate MIHCK with membranes. Ca2+-calmodulin bound MIHCK and inhibited activation by acidic phospholipids but not by GTPgammaS-Rac1. These studies reveal a number of similarities between the regulatory properties of the Dictyostelium and Acanthamoeba MIHCK, suggesting that the signaling pathways that control myosin I are conserved.

Matrilin-3 Forms Disulfide-linked Oligomers with Matrilin-1 in Bovine Epiphyseal Cartilage

A comparison of noncollagenous matrix proteins from different types of bovine cartilage by SDS-polyacrylamide gel electrophoresis showed a prominent 240-kDa component in extracts of epiphyseal but not tracheal tissue. On amino-terminal sequence analysis, it gave two sequences. One matched the NH2 terminus of cartilage matrix protein (CMP) as reported for tracheal cartilage. The other did not match any known protein sequence. Further analysis of the 240-kDa protein after reduction of disulfides resolved two bands on SDS-polyacrylamide gel electrophoresis. Isolation and sequence analysis of tryptic peptides confirmed that one was bovine CMP and the other a CMP homolog. A data base search identified the latter as matrilin-3, a molecule recently predicted from human and mouse cDNA sequences (Wagener, R., Kobbe, B., and Paulsson, M. (1997) FEBS Lett. 413, 129-134). Matrilin-3 and CMP (matrilin-1) were prominent in equimolar amounts in fetal bovine epiphyseal cartilage and absent from adult articular cartilage. Adult tracheal cartilage contained almost exclusively CMP. Although the mechanism of polymeric assembly is unknown, the matrilin-3 chain appears to function in the matrix linked to matrilin-1 in the form of disulfide-bonded heteromeric molecules. The results indicate a molecular stoichiometry of (matrilin-1)2(matrilin-3)2.

Identification and characterization of pbpA encoding Bacillus subtilis penicillin-binding protein 2A.

Amino acid sequence analysis of tryptic peptides derived from purified penicillin-binding protein PBP2a of Bacillus subtilis identified the coding gene (now termed pbpA) as yqgF, which had been sequenced as part of the B. subtilis genome project; pbpA encodes a 716-residue protein with sequence similarity to class B high-molecular-weight PBPs. Use of a pbpA-lacZ fusion showed that pbpA was expressed predominantly during vegetative growth, and the transcription start site was mapped using primer extension analysis. Insertional mutagenesis of pbpA resulted in no changes in the growth rate or morphology of vegetative cells, in the ability to produce heat-resistant spores, or in the ability to trigger spore germination when compared to the wild type. However, pbpA spores were unable to efficiently elongate into cylindrical cells and were delayed significantly in spore outgrowth. This provides evidence that PBP2a is involved in the synthesis of peptidoglycan associated with cell wall elongation in B. subtilis.

Identification of N-Linked Glycosylation Sites in Human Testis Angiotensin-converting Enzyme and Expression of an Active Deglycosylated Form

The sites of glycosylation of Chinese hamster ovary cell expressed testicular angiotensin-converting enzyme (tACE) have been determined by matrix-assisted laser desorption ionization/time of flight/mass spectrometry of peptides generated by proteolytic and cyanogen bromide digestion. Two of the seven potential N-linked glycosylation sites, Asn90 and Asn109, were found to be fully glycosylated by analysis of peptides before and after treatment with a series of glycosidases and with endoproteinase Asp-N. The mass spectra of the glycopeptides exhibit characteristic clusters of peaks which indicate the N-linked glycans in tACE to be mostly of the biantennary, fucosylated complex type. This structural information was used to demonstrate that three other sites, Asn155, Asn337, and Asn586, are partially glycosylated, whereas Asn72 appears to be fully glycosylated. The only potential site that was not modified is Asn620. Sequence analysis of tryptic peptides obtained from somatic ACE (human kidney) identified six glycosylated and one unglycosylated Asn. Only one of these glycosylation sites had a counterpart in tACE. Comparison of the two proteins reveals a pattern in which amino-terminal N-linked sites are preferred. The functional significance of glycosylation was examined with a tACE mutant lacking the O-glycan-rich first amino-terminal 36 residues and truncated at Ser625. When expressed in the presence of the alpha-glucosidase I inhibitor N-butyldeoxynojirimycin and treated with endoglycosidase H to remove all but the terminal N-acetylglucosamine residues, it retained full enzymatic activity, was electrophoretically homogeneous, and is a good candidate for crystallographic studies.

Differential proteolytic processing leads to multiple forms of the CA protein in avian sarcoma and leukemia viruses

The CA (capsid) protein of avian sarcoma and leukemia viruses occurs in multiple species. Only one form has been previously characterized biochemically. We have now determined that the mature CA protein of avian sarcoma and leukemia viruses exists as three species with different C termini, ending in amino acid residues A-476, A-478, and M-479 of the Gag precursor, respectively. These structures were deduced from a combination of cyanogen bromide peptide mapping, sequence analysis of tryptic peptides, and electrospray mass spectrometry. The three forms of CA were detected in the same ratios in Rous sarcoma virus and avian myeloblastosis virus and therefore are likely to represent a common feature of members of this genus of avian retroviruses. The only previously reported CA species, CAM-479, accounts for only about 36% of the total CA protein, while CAA-476 and CAA-478 account for 55 and 9%, respectively. From the analysis of peptides cleaved in vitro by PR, the viral protease, we infer that the cleavage site between A-476 and A-477 not only is recognized by PR but is the preferred site. We were unable to determine if A-478/A-479 is a cleavage site for PR or alternatively if CAA-478 results from further processing of CAM-479 by a carboxypeptidase. To study the biological significance of residues A-477 to M-479, we constructed genetically altered viruses in which deletions removed either residues 477 to 479 or 477 to 488. The resulting virus particles appeared to assembly with normal efficiencies, but the latter mutant showed slowed proteolytic processing. Neither of the mutants was infectious.

Chicken MAR binding protein p120 is identical to human heterogeneous nuclear ribonucleoprotein (hnRNP) U.

We have previously identified two proteins from chicken oviduct nuclei that specifically bind to matrix/scaffold attachment regions (MARs/SARs). Here one of these proteins, named p120 due to its apparent molecular weight, is purified to near homogeneity and shown to be identical to a previously described component of heterogeneous nuclear ribonucleoprotein particles, hnRNP U, on the basis of amino acid sequence analysis of tryptic peptides. p120 binds to multiple MAR fragments provided they have a minimal length of approximately 700 bp. Binding of MAR fragments is specifically competed by homoribopolymers poly(G) and poly(I), which form four-stranded structures. Our results suggest that p120/hnRNP U may serve a dual function, first as a component of hnRNP particles, and second as an element in the higher-order organization of chromatin.

Characterization of the oligosaccharide structures on a recombinant tissue-type plasminogen activator analog synthesized in chinese hamster ovary cells

The asparagine-linked oligosaccharides on a recombinant tissue-type plasminogen activator analog, lacking the epidermal growth factor-like and kringle 1 domains (FK 2P), synthesized by Chinese hamster ovary cells, have been characterized. In vivo [ 3H]mannose labeled glycopeptides were extracted from SDS-PAGE gels of antibody precipitated FKZP and the major oligosaccharide structures were characterized by serial lectin affinity chromatography, size-exclusion chromatography in combination with exoglycosidase digestions, ion exchange chromatography, HPLC and methylation analysis. 44% of the oligosaccharides on the molecule are triantennary (35% 2,4-branched, 9% 2,6-branched), 34% are biantennary and 20% are tetraantennary complex type, all of which are core-fucosylated. Approximately 1% of the structures are high mannose type, in the form of Man 6GlcNAc 2, Man 7GlcNAc 2 and Man 8GlcNac 2. The remaining 1% of the structures appear to be hybrid type. The complex structures contain varying numbers of sialic acid residues, ranging from non- to fully sialylated. No N-acetylgalactosamine was detected in acid hydrolysates of FK 2P, consistent with a lack of serine/threonine-linked oligosaccharides. Sequence analysis of tryptic peptides prepared from purified FK 2P revealed that only one of the two consensus sites for N-linked glycosylation on the molecule is utilized.

Role of arginine 115 in fatty acid activation and formaldehyde dehydrogenase activity of human class III alcohol dehydrogenase

Modification of class III alcohol dehydrogenase (chi chi-ADH) with phenylglyoxal eliminates fatty acid activation by pentanoate and octanoate and concomitantly increases specific activity toward ethanol and 3-methylcrotyl alcohol 2-3-fold. In contrast, chemical modification decreases activity toward S-(hydroxymethyl)glutathione (FDH activity) and 12-hydroxydodecanoic acid by increasing Km, pointing to a role for arginine in binding anionic substrates. Modification with [7-14C]phenylglyoxal indicates that only one arginine residue per subunit is modified. Sequence analysis of tryptic peptides indicates that Arg-115 is modified. Site-directed mutation of this residue to alanine eliminates both fatty acid activation and FDH activity, thus confirming the identity of the modified residue and its function. These results account in part for the unique specificity of chi chi-ADH relative to other human ADH isozymes.

Structure and Localization of O- and N-Linked Oligosaccharide Chains on Basement Membrane Protein Nidogen

The carbohydrate content of mouse nidogen predicts the occupation of two N- and about seven O-linked acceptor sites. The corresponding oligosaccharides were examined by sequential exoglycosidase digestions. The data indicate N-linked substitutions by several bi-, tri- and tetraantennary complex types of oligosaccharides which are further modified by additional lactosamines and terminal α-galactose and/or sialic acid. Mannose-rich oligosaccharides were of low abundance. O-linked structures included a di- and tetrasaccharide core structure that were in addition sialylated and may be similar to structures found in fetuin. Evidence is provided that the two sequence-predicted asparagine acceptors are almost fully substituted. Sequence analysis of tryptic peptides identified Thr-271, Ser-303, Thr-309, Thr-317, Thr-320, Thr-892 and Thr-905 as the most likely sites for galactosamine substitutions. These residues are located in the flexible link connecting the N-terminal globular domains G1 and G2 of nidogen and at the border between the rod and the C-terminal globe G3. Four of them showed Pro in the −1 or + 3 position. All these Ser, Thr and Pro residues but not the N-linked attachment sites are identical in human nidogen.

A reversibly palmitoylated resident protein (p63) of an ER-Golgi intermediate compartment is related to a circulatory shock resuscitation protein

The recently identified 63 kDa membrane protein, p63, is a resident protein of a membrane network interposed in between rough ER and Golgi apparatus. To characterize p63 at the molecular level a 2.91 kb cDNA encoding p63 has been isolated from a human placenta lambda gt10 cDNA library. Sequence analysis of tryptic peptides prepared from isolated p63 confirmed the identify of the cloned gene. The translated amino acid sequence consists of 601 amino acids (65.8 kDa) with a single putative membrane-spanning region and a N-terminal cytoplasmic domain of 106 amino acids. The human p63 cDNA exhibits a high level of sequence identify to the pig hepatic cDNA 3AL (accession number M27092) whose expression is enhanced after resuscitation from circulatory shock. An additional remarkable feature of p63 is that it becomes reversibly palmitoylated when intracellular protein transport is blocked by the drug brefeldin A. Overexpression of p63 in COS cells led to the development of a striking tubular membrane network in the cytoplasm. This suggests that the protein may be determinant for the structure of the p63 compartment.

The Complete Amino Acid Sequences of the B-Chains of Abrin-a and Abrin-b, Toxic Proteins from the Seeds ofAbrus precatorius

The amino acids of the B-chains of two abrins (designated as abrin-a and abrin-b) from the seeds of Abrus precatorius have been sequenced. The sequence of the B-chain of abrin-a was solved by analysis of peptides derived by enzymatic digestions with trypsin, lysylendopeptidase, and chymotrypsin, as well as by chemical cleavage with cyanogen bromide. The sequence of the B-chain of abrin-b was analyzed by sequence analysis of tryptic peptides and comparing these sequences with those of corresponding peptides of the B-chain of abrin-a. The B-chains of abrin-a and abrin-b consist of 268 amino acid residues and share 256 identical residues. Comparison of their sequences with that of the ricin B-chain shows that 60% of the residues of both abrin B-chains are identical to those of the ricin B-chain and that two saccharide-binding sites in ricin B-chain identified by a crystallographic study are highly conserved in both abrin B-chains.

Identification of cross-linking sites in bovine cartilage type IX collagen reveals an antiparallel type II-type IX molecular relationship and type IX to type IX bonding

Type IX collagen functions in covalent cross-linkage to type II collagen in cartilage (Eyre, D. R., Apone, S., Wu, J. J., Ericsson, L. H., and Walsh, K. A. (1987) FEBS Lett. 220, 337-341). To understand this molecular relationship better, an analysis of all cross-linking sites labeled by [3H]borohydride was undertaken using the protein prepared from fetal bovine cartilage. Sequence analysis of tryptic peptides containing the 3H-labeled cross-links showed that each of the chains of type IX collagen, alpha 1(IX), alpha 2(IX), and alpha 3(IX), contained a site of cross-linking at the amino terminus of the COL2 triple-helix to which the alpha 1(II)N-telopeptide could bond. The alpha 3(IX)COL2 domain alone also had an attachment site for the alpha 1(II)C-telopeptide. The distance between the alpha 1(II)N-telopeptide and alpha 1(II)C-telopeptide interaction sites, 137 residues, is equal to the length of the hole zone (0.6D) in a type II collagen fibril. This implies an antiparallel type II to type IX cross-linking relationship. Peptide analysis also revealed an unknown amino acid sequence linked to the COL2 cross-linking domains in both the alpha 1(IX) and alpha 3(IX) chains. Using antibodies to this novel peptide, its origin in the collagen alpha 3(IX)NC1 domain was established. In summary, the results confirm extensive covalent cross-linking between type IX and type II collagen molecules and reveal the existence of type IX-type IX bonding. These data provide a molecular basis for the proposed function of type IX collagen as a critical contributor to the mechanical stability and resistance to swelling of the collagen type II fibril framework of cartilage.

A novel 115-kD peripheral membrane protein is required for intercisternal transport in the Golgi stack.

We have used an in vitro Golgi protein transport assay dependent on high molecular weight (greater than 100 kD) cytosolic and/or peripheral membrane proteins to study the requirements for transport from the cis- to the medial-compartment. Fractionation of this system indicates that, besides the NEM-sensitive fusion protein (NSF) and the soluble NSF attachment protein (SNAP), at least three high molecular weight protein fractions from bovine liver cytosol are required. The activity from one of these fractions was purified using an assay that included the second and third fractions in a crude state. The result is a protein of 115-kD subunit molecular mass, which we term p115. Immunodepletion of the 115-kD protein from a purified preparation with mAbs removes activity. Peptide sequence analysis of tryptic peptides indicates that p115 is a "novel" protein that has not been described previously. Gel filtration and sedimentation analysis indicate that, in its native state, p115 is a nonglobular homo-oligomer. p115 is present on purified Golgi membranes and can be extracted with high salt concentration or alkaline pH, indicating that it is peripherally associated with the membrane. Indirect immunofluorescence indicates that p115 is associated with the Golgi apparatus in situ.