Insect allantoinase: cDNA cloning, purification, and characterization of the native protein from the cat flea, Ctenocephalides felis

Allantoinase catalyses the hydrolysis of allantoin to allantoic acid. This reaction is a step in the purine degradation pathway, which produces nitrogenous waste for excretion. A cDNA encoding full-length allantoinase was cloned from a Ctenocephalides felis hindgut and Malpighian tubule (HMT) cDNA library. The cDNA encoded a 483 amino acid protein that had 43% identity with the bullfrog Rana catesbeiana allantoinase and contained the conserved histidine and aspartic acid residues required for zinc-binding and catalytic activity. Unlike the bullfrog allantoinase, the C. felis allantoinase sequence was predicted to contain a 22 amino acid signal sequence, which targets the protein to the secretory pathway. Expression of the mRNA was detected by Northern blot in the first, third, and wandering larval stages as well as in fed and unfed adults, but was not seen in eggs or pupae. In adults, mRNA encoding allantoinase was detected only in the HMT tissues. Immunohistochemistry performed using affinity-purified rabbit immune serum generated against purified recombinant flea allantoinase showed that the native protein localized to the HMT tissues in adult fleas. The anti-allantoinase serum recognized two proteins in an adult flea soluble protein extract, one migrating at 56 kDa and the other at 53 kDa. The two proteins were separated by gel filtration chromatography and were both associated with allantoinase activity. The difference in size appeared to be due to a difference in glycosylation of the proteins. The 53 kDa protein was further purified to near homogeneity by affinity chromatography and retained allantoinase activity. A comparison of the sizes of the native and recombinant C. felis proteins indicated that the 53 kDa native protein may be the product of a post-translational cleavage event, possibly at the putative 22 amino acid signal sequence at the N-terminus of the protein.     

The brown-rot basidiomycete Fomitopsis palustris has the endo-glucanases capable of degrading microcrystalline cellulose

Two endoglucanases with processive cellulase activities, produced from Fomitopsis palustris grown on 2% microcrystalline cellulose (Avicel), were purified to homogeneity by anion-exchange and gel filtration column chromatography systems. SDS-PAGE analysis indicated that the molecular masses of the purified enzymes were 47 kDa and 35 kDa, respectively. The amino acid sequence analysis of the 47-kDa protein (EG47) showed a sequence similarity with fungal glycoside hydrolase family 5 endoglucanase from the white-rot fungus Phanerochaete chrysosporium. N-terminal and internal amino acid sequences of the 35-kDa protein (EG35), however, had no homology with any other glycosylhydrolases, although the enzyme had high specific activity against carboxymethyl cellulose, which is a typical substrate for endoglucanases. The initial rate of Avicel hydrolysis by EG35 was relatively fast for 48 h, and the amount of soluble reducing sugar released after 96 h was 100 microg/ml. Although EG47 also hydrolyzed Avicel, the hydrolysis rate was lower than that of EG35. Thin layer chromatography analysis of the hydrolysis products released from Avicel indicated that the main product was cellobiose, suggesting that the brown-rot fungus possesses processive EGs capable of degrading crystalline cellulose.     

Cloning,partial purification and in vivo developmental profile of expression of the juvenile hormone epoxide hydrolase of Ctenocephalides felis

cDNAs encoding two different epoxide hydrolases (nCfEH1 and nCfEH2) were cloned from a cDNA library prepared from the wandering larval stage of the cat flea, Ctenocephalides felis. Predicted translations of the open reading frames indicated the clones encoded proteins of 464 (CfEH1) and 465 (CfEH2) amino acids. These proteins have a predicted molecular weight of 53 kDa and a putative 22 amino acid N-terminal hydrophobic membrane anchor. The amino acid sequences are 77% identical, and both are homologous to previously isolated epoxide hydrolases from Manduca sexta, Trichoplusia ni, and Rattus norvegicus. Purification of native juvenile hormone epoxide hydrolase (JHEH) from unfed adult cat fleas generated a partially pure protein that hydrolyzed juvenile hormone III to juvenile hormone III-diol. The amino terminal sequence of this;50-kDa protein is identical to the deduced amino terminus of the protein encoded by the nCfEH1 clone. Affinity-purified rabbit polyclonal antibodies raised against Escherichia coli-expressed HisCfEH1 recognized a approximately 50-kDa protein present in the partially purified fraction containing JHEH activity. Immunohistochemistry experiments using the same affinity-purified rabbit polyclonal antibodies localized the epoxide hydrolase in developing oocytes, fat body, and midgut epithelium of the adult flea. The presence of JHEH in various flea life stages and tissues was assessed by Northern blot and enzymatic activity assays. JHEH mRNA expression remained relatively constant throughout the different flea larval stages and was slightly elevated in the unfed adult flea. JHEH enzymatic activity was highest in the late larval, pupal, and adult stages. In all stages and tissues examined, JHEH activity was significantly lower than juvenile hormone esterase (JHE) activity, the other enzyme responsible for JH catalysis.     

Cystatin C in milk basic protein (MBP) and its inhibitory effect on bone resorption in vitro

A cystein protease inhibitor was identified in the basic fraction of bovine milk. We have reported in our previous study that the milk basic protein (MBP) fraction suppressed osteoclast-mediated bone resorption in vitro. Since osteoclasts secreted cystein protease to digest collagen in the bone matrix, we identified the cystein protease inhibitor in MBP. A 12-kDa inhibitor was purified from MBP by papain affinity gel chromatography and subsequent Hi-Load Superdex 75 gel filtration chromatography. The N-terminal sequence of the 18 amino acid residues of the inhibitor corresponded to bovine cystatin C. The 12-kDa cystein protease inhibitor in MBP therefore seemed to be cystatin C. Purified cystatin suppressed bone resorption with the use of isolated osteoclasts in vitro. Cystatin in MBP is suggested as one of the factors inhibiting bone resorption.     

Recombinant Human Cytomegalovirus Protease with a C-Terminal (His)6Extension: Purification, Autocatalytic Release of the Mature Enzyme, and Biochemical Characterization

Human cytomegalovirus protease (CMV PR) is a target for the development of antiviral therapeutics. To obtain large amounts of native protease, a 268-amino-acid polypeptide with a hexahistidinyl tag at the C terminus was expressed inEscherichia coli.The first 262 amino acids of the recombinant protein were identical to the amino acid sequence of native CMV PR, except for mutations introduced at the internal cleavage site to eliminate autoproteolysis at that site. The hexahistidinyl tag was placed downstream of amino acid 262 of the native CMV PR sequence. In this design, the Ala-Ser bond at amino acids 256–257 constitutes a site naturally cleaved by the protease during capsid maturation. The 268-amino-acid polypeptide with the (His)₆tag was expressed at high levels inE. colias inclusion bodies. After solubilization of the inclusion bodies, the protease was purified to homogeneity by a single step using Ni²⁺affinity chromatography. The protease was refolded to an active enzyme using dialysis which leads to effective autocleavage of the Ala-Ser bond at amino acids 256–257 to remove 12 amino acids including the (His)₆tag from the C terminus of the protein. This strategy yielded large amounts of highly purified CMV PR with the native N terminus and C terminus. Approximately 40 mg of purified CMV PR was obtained per liter of cell culture using this strategy. The enzymatic activity of CMV PR purified from inclusion bodies and refolded to an active enzyme was similar to the enzymatic activity of CMV PR expressed as a soluble protein inE. coli.In addition, the refolded CMV PR could be crystallized for X-ray diffraction.     

Characterization of two forms of hemagglutinin/protease produced by Vibrio cholerae non-O1

Two forms (34 kDa and 32 kDa) of hemagglutinin/protease produced by Vibrio cholerae non-O1 were characterized. The hemagglutinin/protease purified by immunoaffinity column chromatography using a monoclonal antibody was essentially a 34-kDa form. By incubation of the purified 34-kDa form at 37 degrees C, it was processed (autodigested) to the 32-kDa form. The N-terminal 20 amino acid sequences of both the 34- and 32-kDa forms were identical, suggesting that proteolytic processing at the C-terminal region of the 34-kDa hemagglutinin/protease resulted in the 32-kDa form. With this shift, protease activity increased, but hemagglutinating activity decreased, suggesting that the C-terminal region of the hemagglutinin/protease is related to hemagglutinating activity.     

Purification and characterization of a 52-kilodalton immunoglobulin G-binding protein from Streptococcus suis capsular type 2.

We previously reported that group D streptococci exhibited immunoglobulin G (IgG)-binding activity and that a 52-kDa IgG-binding protein was present in all Streptococcus suis strains examined (B. Serhir, R. Higgins, B. Foiry, and M. Jacques, J. Gen. Microbiol. 139:2953-2958, 1993). The objective of the present study was to purify and characterize this protein. Pig IgG were immobilized through their Fab fragments to ECH-Sepharose 4B, and the protein was purified by affinity chromatography. Electron microscopy observations of the purified material showed filamentous structures with a diameter of approximately 4 nm; these structures were not observed when the material was treated with either urea or ethanolamine. Electrophoretic and Western immunoblot analyses showed that the 52-kDa protein constituted the bulk of the recovered material. This protein was stained with either Coomassie brilliant blue or silver nitrate; it reacted with a large variety of mammalian IgG, human IgG (Fc) fragments, human IgA, and other human plasma proteins. The 52-kDa protein exhibited lower IgG-binding affinities than protein A and protein G. However, it was able to compete with protein A and protein G for binding to human IgG. In addition, it bound chicken IgG with high affinity. This last property differentiated the 52-kDa protein of S. suis from the six IgG-binding proteins described to date. The 52-kDa protein displayed similar affinities for untreated and deglycosylated pig IgG. The N-terminal amino acid sequence (SIITDVYAXEVLDSXGNPTLEV) revealed no homology with any bacterial proteins in the Swiss-Prot database. Its isoelectric point of approximately 4.6 and its amino acid composition, rich in aspartic and glutamic acids, showed that it had some similarities with other IgG-binding proteins. In this report, we have purified and characterized a 52-kDa IgG-binding protein from S. suis capsular type 2. Although this protein shares some similarities with other IgG- and/or IgA-binding proteins, it is unique in reacting with chicken IgG.     

Cloning and nucleotide sequence analysis of the colH gene from Clostridium histolyticum encoding a collagenase and a gelatinase.

The colH gene encoding a collagenase was cloned from Clostridium histolyticum JCM 1403. Nucleotide sequencing showed a major open reading frame encoding a 116-kDa protein of 1,021 amino acid residues. The deduced amino acid sequence contains a putative signal sequence and a zinc metalloprotease consensus sequence, HEXXH. A 116-kDa collagenase and a 98-kDa gelatinase were copurified from culture supernatants of C. histolyticum. While the former degraded both native and denatured collagen, the latter degraded only denatured collagen. Peptide mapping with V8 protease showed that all peptide fragments, except a few minor ones, liberated from the two enzymes coincided with each other. Analysis of the N-terminal amino acid sequence of the two enzymes revealed that their first 24 amino acid residues were identical and coincided with those deduced from the nucleotide sequence. These results indicate that the 98-kDa gelatinase is generated from the 116-kDa collagenase by cleaving off the C-terminal region, which could be responsible for binding or increasing the accessibility of the collagenase to native collagen fibers. The role of the C-terminal region in the functional and evolutional aspects of the collagenase was further studied by comparing the amino acid sequence of the C. histolyticum collagenase with those of three homologous enzymes: the collagenases from Clostridium perfringens and Vibrio alginolyticus and Achromobacter lyticus protease I.     

Purification of a diagnostic, secreted cysteine protease-like protein from the hookworm Ancylostoma caninum

The enteric infection of humans with the canine hookworm Ancylostoma caninum varies in its clinical presentation, ranging from asymptomatic to eosinophilic gastroenteritis requiring surgical intervention. Infections are not patent, but can be diagnosed immunologically by detecting antibodies to an immunodominant secreted hookworm protein termed Ac68. To characterise Ac68, we purified the native protein from A. caninum excretory/secretory products using size exclusion followed by anion exchange chromatography. The epitopes in the purified protein recognised by human infection sera were shown to be proteins and not carbohydrates. The N-terminal amino acid sequence of the purified Ac68 was determined and six of the 11 residues obtained were shared with a previously characterised cysteine protease of A. caninum, AcCP1.     

An X-prolyl dipeptidyl aminopeptidase from Lactococcus lactis: cloning, expression in Escherichia coli, and application for removal of N-terminal Pro-Pro from recombinant proteins

A novel pepX gene was cloned from isolated DNA of Lactococcus lactis by PCR. The deduced amino acid sequence of the 89-kDa protein showed 94, 93, 65, and 44% identity with the pepX protein from Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis, Lactobacillus delbruecki subsp. bulgaricus, and Lactobacillus helveticus, respectively, and contained a serine protease G-K-S-Y-L-G consensus motif. The pepX gene has been cloned into pET17b and was expressed at a high level in Escherichia coli BL21 (DE3) LysS. PepX was purified to approximate homogeneity with ammonium sulfate precipitation and DEAE Sephadex A-50 chromatography. Optimal pepX activity was observed at pH 8.0 and 37 degrees C. According to SDS-PAGE analysis, pepX has a molecular mass of approximately 89 kDa. The peptidase can remove completely the unwanted X-Pro from the N-terminal of the target protein, releasing the naturally active protein and peptide, revealing a prospective application of pepX in large-scale production of pharmaceutical protein and peptide products.     

Purification of a diagnostic, secreted cysteine protease-like protein from the hookworm Ancylostoma caninum

The enteric infection of humans with the canine hookworm Ancylostoma caninum varies in its clinical presentation, ranging from asymptomatic to eosinophilic gastroenteritis requiring surgical intervention. Infections are not patent, but can be diagnosed immunologically by detecting antibodies to an immunodominant secreted hookworm protein termed Ac68. To characterise Ac68, we purified the native protein from A. caninum excretory/secretory products using size exclusion followed by anion exchange chromatography. The epitopes in the purified protein recognised by human infection sera were shown to be proteins and not carbohydrates. The N-terminal amino acid sequence of the purified Ac68 was determined and six of the 11 residues obtained were shared with a previously characterised cysteine protease of A. caninum, AcCP1.     

The aman6 gene encoding a yeast mannan backbone degrading 1,6-alpha-D-mannanase in Bacillus circulans: cloning, sequence analysis, and expression

A gene (aman6) encoding endo-1,6-alpha-D-mannanase, a yeast mannan backbone degrading enzyme from Bacillus circulans was cloned. The putative aman6 was 1,767 base pairs long and encoded a mature 1,6-alpha-D-mannanase protein of 589 amino acids and a signal peptide of 36 amino acids. The purified mature 1,6-alpha-D-mannanase from the Escherichia coli transformant showed 61-kDa protein, and N-terminal amino acid sequence and other general properties of the recombinant enzyme were identical to those of 1,6-alpha-D-mannanase from Bacillus circulans TN-31.     

Cloning, structural analysis, and expression of the glycogen phosphorylase-2 gene in Dictyostelium.

The glycogen phosphorylase-2 (GP2) activity that appears during the cell differentiation of Dictyostelium was purified to homogeneity. The molecular weight of the nondenatured enzyme was 200,000 as determined by Sephacryl S-300 gel filtration and was 107,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggesting that the native enzyme consists of two similar subunits. The intact protein was digested with trypsin and protease V8, and the resulting peptides were purified by microbore high pressure liquid chromatography. The peptides were sequenced, and oligonucleotides were constructed for polymerase chain reaction amplification of the GP2 gene from Dictyostelium genomic DNA template. The resulting polymerase chain reaction products were sequenced directly and were confirmed to encode portions of the GP2 gene. These fragments were used to probe a partial EcoRI genomic library for the remainder of the GP2 gene. The nucleotide sequence of the GP2-selected clones revealed an open reading frame of 2975 base pairs that was interrupted by two introns of 109 and 105 base pairs, respectively. The open reading frame encoded a protein of 992 amino acids with a calculated molecular mass of 112,500 Da and an isoelectric point of 6.4. An unusual sequence within the second exon of GP2, in which the triplet CAA was repeated 11 times, resulted in 11 in-frame glutamine residues of a possible 15 amino acids coded for by this region. The CAA repeat was transcribed, as shown by the sequence of cDNA. Comparison of the amino acid sequence of Dictyostelium GP2 to the phosphorylases from other organisms revealed that the Dictyostelium protein was 50 and 44% identical to yeast and rabbit muscle phosphorylases, respectively. Northern blot analysis showed that GP2 mRNA was absent in amebas and the early stages of development, reached a maximum level of expression at the slug stage, and then decreased in the terminal stages of development. Comparison of the mRNA expression with the appearance of GP2 enzyme protein and enzyme activity revealed that gp2 mRNA and a 113-kDa GP2 enzyme peptide were expressed concurrently at 10 h of development. However, enzyme activity did not appear until 18 h, coincident with a decrease in the level of the 113-kDa peptide and a corresponding increase in the amount of a 106-kDa GP2 peptide. Addition of cAMP to aggregation-competent cells in liquid culture resulted in the induction of GP2 mRNA, GP2 protein, and GP2 enzyme activity.     

Isolation and characterization of a 14-kDa albumin-binding fragment of streptococcal protein G

Protein G, a streptococcal cell wall protein, has separate binding sites for human albumin and IgG. Streptococci expressing protein G were treated with the bacteriolytic agent mutanolysin. Several IgG- and human serum albumin (HSA)-binding peptides were identified in the material thus solubilized and one of these, a 14-kDa peptide, was found to bind HSA but not IgG in Western blot experiments. This molecule was purified by affinity chromatography on Sepharose coupled with HSA followed by gel filtration on Sepharose 6B and a final affinity chromatography on IgG-Sepharose, by which low Mr W(15 to 20 kDa)IgG-binding peptides were removed. In different binding experiments the purified 14-kDa peptide bound exclusively HSA and the equilibrium constant between the peptide and HSA was determined to be 3.4 X 10(8) M-1. The relation between the 14-kDa molecule and protein G was studied by analyzing the N-terminal amino acid sequence of the peptide and comparing it with the previously determined protein G sequence. The 40 N-terminal amino acids were found to be identical with an amino acid sequence starting at position 62 in the protein G molecule. These and previous data enabled us to locate the albumin binding to the repetitively arranged domains in the N-terminal half of the protein G molecule.     

蛋壳内膜分解菌所产蛋白酶的纯化及其N-末端氨基酸序列测定

从土壤中分离得到的1株产蛋壳内膜分解酶(ESM protease)的铜绿假单胞菌(Pseudomonasaeruginosa).通过对其发酵液进行饱和硫酸铵盐析,二次离子交换层析得到蛋壳内膜分解活性达到304.5 U/mg的目标蛋白,SDS-PAGE电泳显示该酶分子量约为32 kD,通过测定其N-末端15个氨基酸残基为:Ala、Glu、Ala、Gly、Gly、Val、Ala、Gly、Lys、Glu、Asp、Ala、Ala、Glu和Leu.     

Molecular characterization of the protease from Clostridium botulinum serotype C responsible for nicking in botulinum neurotoxin complex

A protease was purified from the culture medium of Clostridium botulinum serotype C strain Stockholm (C-St). The purified protease belonged to the cysteine protease family based on assays for enzyme inhibitors, activators and kinetic parameters. The protease formed a binary complex consisting of 41- and 17-kDa proteins held together non-covalently. The DNA sequence encoding the protease gene was shown to be a single open reading frame of 1593 nucleotides, predicting 530 amino acid residues including a signal peptide. The N-terminal region of the native enzyme underwent further proteolytic modification after processing by a signal peptidase. The protease introduced intermolecular cleavage into an intact single chain botulinum neurotoxin (BoNT) at a specific site. Homology modeling and docking simulation of C-St BoNT and C-St protease demonstrated that the specific nicking-site of the BoNT appears to fit into the deep pocket in the active site of the protease.     

Purification and characterization of hemolysin from Porphyromonas gingivalis A7436

Porphyromonas gingivalis, a periodontal pathogen, has the ability to lyse erythrocytes. The hemolytic activity of P. gingivalis A7436 was purified as a 45-kDa protein from the culture supernatant of a 3-days old culture using nickel-nitrilotriacetic acid chromatography. Erythrocytes treated with purified P. gingivalis hemolysin showed the presence of pores and extracellular debris by scanning electron microscopy. Active immunization of mice with 15 micrograms hemolysin induced neutralizing antibodies to hemolysin. Heating at 60 degrees C and treatment with trypsin and dithiothreitol abolished hemolytic activity, while incubation with the protease inhibitor Na-p-tosyl-L-lysine chloromethyl ketone caused no effect. We report here for the first time purification of a hemolysin from P. gingivalis A7436. The amino acid sequence of an internal peptide of hemolysin showed sequence similarity with fimbrillin from P. gingivalis HG564. However, the amino acid composition of purified hemolysin was different from that of P. gingivalis fimbrillin. Also, the ability to lyse but not agglutinate erythrocytes and to bind to nickel-nitrilotriacetic acid differentiates P. gingivalis hemolysin from fimbrillin.     

Purification of chitinolytic protein from Rehmannia glutinosa showing N-terminal amino acid sequence similarity to thaumatin-like proteins.

We have purified a 21-kDa protein, designated as P1, from Rehmannia glutinosa to homogeneity by ammonium sulfate precipitation, anion exchange chromatography, hydrophobic interaction chromatography, and preparative native PAGE. The purified P1 had chitin degradation activity. The N-terminal amino acid sequence of P1 indicated that it is very similar to those of thaumatin and other reported thaumatin-like proteins.