Spruce budworm elastase precipitates Bacillus thuringiensis δ-endotoxin by specifically recognizing the C-terminal region

A gut juice protein from Choristoneura fumiferana (spruce budworm) larvae that precipitates certain δ-endotoxins shows a unique specificity for the C-terminal amino acid sequence. Using homolog scanning mutants, we have identified a contiguous region of the Cry1Aa toxin which interacts with the 75-kDa toxin precipitating protein (TPP-75)¹ resulting in precipitation. The contiguous region from Cry1Aa can be transferred to Cry1Ac and results in an identical precipitation reaction. The precipitation reaction occurs rapidly and is unique in that the ratio of precipitating protein to toxin is low (estimated at 0.01), unlike antibody–antigen reactions which exhibit mole ratios close to 1. TPP-75 has been characterized as an elastase-like serine protease. We have taken advantage of this serine protease character and incorporated a radiolabel using an irreversible inhibitor. The radiolabel has allowed us to show the coincidence of the catalytically-inhibited TPP-75 with the toxin in a blotting assay and to follow the degradation of TPP-75 during storage. TPP-75 represents the first evidence that gut juice proteins may selectively attenuate the activity of δ-endotoxins, prior to binding to putative receptors on susceptible cells. TPP-75 should be evaluated as a possible resistance mechanism for those larvae that do not exhibit a receptor-based resistance.     

Brush border membrane aminopeptidase-n in the midgut of the gypsy moth serves as the receptor for the CryIA(c) δ-endotoxin of Bacillus thuringiensis

Aminopeptidase-N (AP-N) was purified from gypsy moth (Lymantria dispar, L.) brush border membrane vesicles (BBMV) proteins by mono-Q chromatography and Superdex-75 gel filtration in the presence of the zwitterionic detergent, CHAPS, using FPLC. The purified AP-N, identified by its enzymatic activity, had an apparent size of 100 kDa, and was identified as the unique Bacillus thuringiensis insecticidal toxin, CryIA(c), binding protein. AP-N clearly displayed strong binding to CryIA(c), exhibiting little or no binding to CryIA(a) or CryIA(b), and showing no binding for the coleopteran-specific toxin, CryIIIA. Protein blots of the BBMV proteins probed with biotin-labeled and ¹²⁵I-labeled insecticidal proteins revealed that CryIAc binds only to 120 kDa protein which is a slightly larger size in comparison to purified AP-N. Antibodies raised against the gypsy moth AP-N demonstrated that the purified AP-N and the 120 kDa CryIA(c) binding protein of total BBMV proteins are antigenically identical.     

Catalytic properties of the endoxylanase I from Thermoascus aurantiacus

Endo-β-1,4-xylanase I previously purified from Thermoascus aurantiacus solid state culture was further characterized. The enzyme had a molecular weight of 33 kDa by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and 31 kDa by gel filtration. Thin layer chromatography (TLC) analysis showed that endoxylanase liberates aldotetrauronic acid MeGlcA-1,2-Xylβ-1,4-Xylβ-1,4-Xyl as the shortest acidic fragment from glucuronoxylan and an isomeric xylotriose (Xyl₃) of the structure Xylβ1-3Xylβ1-4Xyl from rhodymenan. The enzyme performed ideally on O-acetyl-4-O-methylglucuronoxylan, liberating large amounts of short acetylated and non-acetylated fragments. Also, the enzyme was capable to hydrolyse arabinoxylan to arabinose (Arab), xylose (Xyl) and xylobiose (Xyl₂). The enzyme degraded pNPX (4-nitrophenyl β- -xylopyranoside) by a complex reaction pathway that involved both hydrolysis and glycosyl transfer reactions. The enzyme tolerates the replacement of β-xylopyranosyl units in several artificial substrates by β-glucopyranosyl, - -arabinopyranosyl and - -arabinofuranosyl units and was active on pNPC (4-nitrophenyl β- -cellobioside), pNP-Arap (4-nitrophenyl - -arabinopyranoside) and pNPAraf (4-nitrophenyl - -arabinofuranoside). The enzyme also hydrolysed the 4-methylumbelliferyl glycosides of β- -xylobiose and β- -xylotriose at the agluconic linkage. The results suggested that the xylanase I from T. aurantiacus has catalytic properties similar to those belonging to family 10.     

Chemosensory behaviour and ciliary cyclic GMP-dependent protein kinase in Tetrahymena thermophila

The role of protein kinase, in particular cyclic GMP-dependent protein kinase (PKG), in the control of chemotaxis was studied in Tetrahymena thermophila using the membrane-permeable cGMP analogue 8-bromo-cGMP and the NO-generator sodium nitroprusside (SNP) that stimulates cGMP production by activating guanylate cyclase. Stimulation of chemoattraction was observed in the presence of 8-bromo-cGMP and nitroprusside when used in 10–100 μM concentrations in vivo. In vitro stimulation of ciliary membrane PKG activity was observed when using similar concentrations of cGMP or 8-bromo-cGMP to those in the in vivo experiments. In contrast, the protein kinase flavonol inhibitors quercitin and kaempherol block chemoattraction and reduce ciliary membrane PGK activity in vitro. For the inhibition of PKG, the IC-50 s for quercitin and kaempherol are 22 and 19 μM, respectively. The results suggest a modulating function of PKG on adaptory processes in cilia-mediated chemotaxis.

The ciliary membrane-associated PKG was partially characterized. Without added external protein kinase substrate in vitro, an endogenous ciliary membrane kinase activity showed phosphorylation of 55 and 97 kDa Triton-X-100 soluble proteins when analyzed by SDS-PAGE under reducing conditions and with ³²P-γ-ATP as phosphorylation donor. Phosphoamino acid analysis of PKG-phosphorylated proteins showed ³²P-phosphate labeling of serine and threonine residues. Ciliary membrane-associated PKG was further purified by carboxy-methyl-sephadex-column chromatography. The membrane enzyme was Mg²⁺⁺-dependent and had a pH optimum at 6.4. The carboxy-methyl-sephadex-eluted PKG was analyzed by electrophoresis on sodium dodecyl sulphate polyacrylamide gels showing a molecular weight of 70–75 kDa.     

Novel Bacillus thuringiensis δ-endotoxin active against Locusta migratoria manilensis

A novel δ-endotoxin gene was cloned from a Bacillus thuringiensis strain with activity against Locusta migratoria manilensis by PCR-based genome walking. The sequence of the cry gene was 3,432 bp long, and it encoded a Cry protein of 1,144 amino acid residues with a molecular mass of 129,196.5 kDa, which exhibited 62% homology with Cry7Ba1 in the amino acid sequence. The δ-endotoxin with five conserved sequence blocks in the amino-terminal region was designated Cry7Ca1 (GenBank accession no. {"type":"entrez-nucleotide","attrs":{"text":"EF486523","term_id":"1121787749","term_text":"EF486523"}}EF486523). Protein structure analysis suggested that the activated toxin of Cry7Ca1 has three domains: 227 residues forming 7 α-helices (domain I); 213 residues forming three antiparallel β-sheets (domain II); and 134 residues forming a β-sandwich (domain III). The three domains, respectively, exhibited 47, 44, and 34% sequence identity with corresponding domains of known Cry toxins. SDS-PAGE and Western blot analysis showed that Cry7Ca1, encoded by the full-length open reading frame of the cry gene, the activated toxin 1, which included three domains but without the N-terminal 54 amino acid residues and the C terminus, and the activated toxin 2, which included three domains and N-terminal 54 amino acid residues but without the C terminus, could be expressed in Escherichia coli. Bioassay results indicated that the expressed proteins of Cry7Ca1 and the activated toxins (toxins 1 and 2) showed significant activity against 2nd instar locusts, and after 7 days of infection, the estimated 50% lethal concentrations (LC₅₀s) were 8.98 μg/ml for the expressed Cry7Ca1, 0.87 μg/ml for the activated toxin 1, and 4.43 μg/ml for the activated toxin 2. The δ-endotoxin also induced histopathological changes in midgut epithelial cells of adult L. migratoria manilensis.     

Purification and characterization of insecticidal toxins from venom glands of the parasitic wasp, Bracon hebetor

The potency of venom from Bracon hebetor against lepidopterous larvae has been known for over 40 years, but previous attempts to purify and characterize individual protein toxins have been largely unsuccessful. Three protein toxins were purified from venom of this small parasitic wasp and the amino acid sequences of 22–31 consecutive residues at the amino-terminus were determined. These relatively large toxins (apparent molecular mass 73 kDa) were labile under many isolation techniques, but anion-exchange chromatography allowed purification with retention of biological activity. Two purified toxins were quite insecticidal (LD₅₀ < 0.3μg/g) when injected into six species of lepidopterous larvae. On a molar basis, one toxin (Brh-I) has the highest known biocidal activity against Heliothis virescens (LD₅₀ = 2 pmol/g).     

A fast and gentle method for the isolation of myrosinase complexes from Brassicaceous seeds

Myrosinase is a β-thioglucosidase glucohydrolase that catalyses the hydrolysis of the thioglucoside bond in glucosinolates, allelochemicals present in Brassicaceous plants. These isoenzymes have been found to form complexes with other proteins; however, traditional isolation procedures involving ammonium sulphate precipitation and/or ion exchange chromatography do not allow for the isolation of these complexes. The present paper reports a fast and gentle procedure for the isolation of myrosinases in the complex form. Partial purification by Con A affinity chromatography followed by Sephadex G-200 gel filtration allowed for the isolation of myrosinase complexes from seeds of Brassica carinata, B. oleracea var. capitata, B. napus and Sinapis alba. Myrosinases in the Brassicas formed complexes of different molecular weight (500–600 kDa, 270–350 kDa and 140–200 kDa) whereas in seeds of S. alba it was only possible to isolate and detect 140–200 kDa complexes. In all species the complexes were formed by isoenzymes with isoelectric points between 4.8 and 5.6 and in some cases up to 6.8. SDS-PAGE confirmed that the myrosinase isoenzymes were composed by several protein subunits of molecular weights ranging between 10 and 110 kDa. The relative amount and enzymatic activity of the myrosinase complexes varied amongst the species studied. The isolation of myrosinase complexes in their native form is of great importance for the study of the hydrolysis of glucosinolates under autolysis conditions.     

Purification and characterization of an enantioselective carbonyl reductase from Candida viswanathii MTCC 5158

A highly enantioselective carbonyl reductase produced by a new yeast strain Candida viswanathii MTCC 5158, which was isolated using an acetophenone enriched medium, has been purified and characterized. The enzyme has been purified to near homogeneity using ammonium sulfate precipitation, ion exchange and gel filtration chromatography. The molecular properties of the carbonyl reductase suggested the native enzyme to be tetrameric, with an apparent molecular weight of 120 kDa, the monomer being about 29 kDa. Acetyl aryl ketones were found to be the preferred substrates for the enzyme and the best reaction was the enantioselective reduction of acetophenone. The enzyme yielded (S)-alcohol in preference to (R)-alcohol and utilized NADH, but not NADPH as the cofactor. The purified enzyme exhibited maximum enzyme activity at pH 7.0 and 60 °C. The enzyme retained about 80% of its activity after 7 h incubation at 25 °C in sodium phosphate buffer (50 mM, pH 7.0). The addition of reducing agents like dithiothreitol and β-mercaptoethanol enhanced the enzyme activity while organic solvents, detergents and chaotropic agents had deleterious effect on enzyme activity. Metal chelating agents like hydroxyquinoline and o-phenanthroline have significant effect on enzyme activity suggesting that the carbonyl reductase required the presence of a tightly bound metal ion for activity or stability. The maximum reaction rate (V_max) and apparent Michaelis–Menten constant (K_m) for acetophenone and NADH were 59.21 μmol/(min mg) protein and 0.153 mM and 82.64 μmol/(min mg) protein and 0.157 mM at a concentration range of 0.2–2 mM acetophenone (NADH fixed at 0.5 mM) and 0.1–0.5 mM NADH (acetophenone fixed at 2 mM), respectively.     

Characteristics of apolipophorin-III of the southwestern corn borer, Diatraea grandiosella

Apolipophorin-III was isolated from the lipophorin-free fraction of larval plasma of the southwestern corn borer, Diatraea grandiosella, because significant amounts of apolipophorin-III were found to be present in the hemolymph not associated with lipophorin. Apolipophorin-III, purified using ammonium sulfate precipitation, cation exchange chromatography, and gel filtration, was shown to be a nonglycosylated polypeptide with 17 kDa mol. wt, as determined by SDS-PAGE and silver staining. The amino acid composition of apolipophorin-III showed similarities to published compositions of apolipophorin-III isolated from other insects. The N-terminal sequence of apolipophorin-III (DAPSTTPPQDXEKKAAEFQKTFTEQXNQLANK), is highly homologous to that of apolipophorin-III of Manduca sexta. Antiserum raised against purified apolipophorin-III was used to demonstrate an immunochemical identity between the isolated apolipophorin-III and that associated with lipophorin. This antiserum cross-reacted with apolipophorin-III of M. sexta, and antiserum raised against M. sexta apolipophorin-III cross-reacted with apolipophorin-III isolated from D. grandiosella, demonstrating an immunochemical relationship between the proteins, and providing confirmatory evidence for the identity of the isolated protein. These antisera did not react with the putative apolipophorin-III of the cricket, Acheta domesticus. Using immunoprecipitation by the apolipophorin-III antiserum of D. grandiosella, the synthesis and secretion of [³H]apolipophorin-III by the fat body in vitro was shown to be maximal in 13–15 day-old larvae, with a transit time of ca 23 min.     

-Subunits of Ns are released from the plasma membrane following cholera toxin activation

Cholera toxin (CT) and islet-activating protein (IAP, a Bordetella pertussis toxin) were employed to test the hypothesis that GTP-binding regulatory proteins are released from plasma membranes to a greater extent when ‘activated’ than when ‘inactivated’. CT, which activates N_s (the stimulatory GTP-binding regulatory protein of the adenylate cyclase system), catalyzed the incorporation of radioactivity from [³²P]NAD into 45 and 47.5 kDa peptides associated with rat liver plasma membranes. Following ADP-ribosylation and centrifugation at 100000 × g for 1 h, approx. 30–35% of these CT-labelled peptides were no longer associated with the plasma membranes, but were recovered from the supernatant fraction. IAP, which inactivates N_i (the inhibitory GTP-binding regulatory protein of the adenylate cyclase system) catalyzed the incorporation of radioactivity from [³²P]NAD into a 41 kDa peptide associated with the membranes. However, in contrast to the CT-labelled peptides, typically less than 5% of the lAP-labelled peptide was found in the 100000 × g supernatant fraction, but rather was almost exclusively associated with the membrane pellet. The data indicate that the -subunits of N_s are released from the plasma membrane following activation, and support the hypothesis that the βγ-subunits act to anchor the -subunits to the plasma membrane. Cholera toxin Islet-activating protein GTP-binding protein     

Variations among four commercial lipases from Chromobacterium viscosum in ester synthesis

The properties of four commercial lipases from Chromobacterium viscosum, CvL 1–4, in ester synthesis were investigated. Three lipases showed a high synthetic activity in esterification, with conversions of oleic acid as high as 86–95% in 24 h, whereas one (CvL 1) gave a poor result of only 11% with the same quantity of 9 mg crude lipase preparation. The elution profiles of the four lipases from Sephacryl S-100 HR differed and SDS-PAGE suggested that while CvL 1 lipase had two equivalent protein bands of molecular size 33 and 27 kDa, respectively, the other three lipases showed only one main protein band of 33 kDa. Isoelectric focusing revealed that all of the lipases contained several isoforms, but the proportions of the isoforms varied. Furthermore, both aggregated and single lipase forms obtained after gel filtration were able to catalyse ester synthesis, but the two lipases from CvL 1 showed lower synthetic activities than the others.     

F1-ATPase of Micrococcus lysodeikticus is not a glycoprotein

It has been claimed (Andreu, J.M., Warth, R. and Muñoz, E. (1978) FEBS Lett. 86, 1–5) that the F₁-ATPase of Micrococcus lysodeikticus is a glycoprotein containing mannose and glucose as the principal sugars. Even after extensive purification of M. lysodeikticus F₁-ATPase by DEAE-Sephadex A25 chromatography, carbohydrate contents varying from 2.7 to 10.8% have been found. Concanavalin A-reactive components corresponding to the succinylated lipomannan have been detected and separated from the ATPase in purified F₁ preparations by immunoelectrophoresis (rocket and two-dimensional) through agarose gels containing concanavalin A. Passage of the purified F₁-ATPase through concanavalin A-Sepharose 4B columns removed the carbohydrate component(s) without loss of the specific activity of the ATPase. Mannose was the only sugar detectable by gas-liquid chromatography of the F₁-ATPase before Con A-Sepharose 4B chromatography and it was completely eliminated after chromatography. No qualitative or quantitative changes in the subunit (, β, γ, δ and ε) profiles were detectable when the sodium dodecyl sulfate polyacrylamide gels were scanned by densitometry of F₁-ATPase before and after Con A-Sepharose 4B chromatography. We conclude that there is no evidence of carbohydrate covalently linked to this F₁-ATPase and that this membrane protein is not a glycoprotein. The presence of carbohydrate is attributable to contamination with lipomannan.     

Cloning and characterization of a dextranase gene (dexS) from Streptococcus suis

A gene (dexS) coding for a Streptococcus suis capsular type 2 dextranase (DexS) was detected in a recombinant gene library constructed in phage λZapII, and its nucleotide sequence was determined. Sequence comparison showed that the dexS gene product had significant similarities with enzymes which hydrolyze glucose polymers. Moreover, conserved amino acids that are suggested to be part of the active site of the glucosidases are also found in DexS. The dexS gene, adjacent to the gene encoding a S. suis IgG-binding protein, encoded a protein of approximately 62 kDa which exhibited DexS activity.     

Extraction and purification of phycocyanin from Calothrix sp.

The extraction and purification of phycocyanin from Calothrix sp., cyanobacteria isolated from rice fields in Cuernavaca, Morelos, Mexico is described. Phycocyanin was extracted with 2 mg of lysozyme/g wet biomass, and purified by anion chromatography using Q-Sepharose fast-flow (Pharmacia^®, 1.5 cm×10 cm) column and hydrophobic interaction chromatography with methyl macro-prep (Bio-Rad^®, 1.5 cm×20 cm) column. The purified protein showed a pI of 5.2 and has two subunits with apparent molecular mass of 21–17 kDa each. The estimated molecular mass of native purified phycocyanin was 114 kDa, suggesting a stereochemistry of (β)₃.     

Octapamine N-acetyltransferase activity from the cattle tick, Boophilus microplus

The metabolism of octopamine in the tick, Boophilus microplus, was studied by incubating synganglia, excised from adult females, with [³H]octopamine. The major metabolite co-chromatographed with N-acetyloctopamine and was predominantly found outside the nervous tissue in the surrounding saline. The N-acetyltransferase (NAT) activity was measured in enzyme preparations from adult synganglia using [³H]octopamine as the substrate and acetyl CoA as a co-factor. Under the assay conditions employed, the V_max was 7 nmol/h/mg of protein and the apparent K_m for octopamine was 4 μM. The N-acetylation of octopamine was inhibited by divalent cations (Zn²⁺ and Cu²⁺), β-carbolines, imipramine and a number of biogenic amines.

NAT activity towards octopamine was also found in enzyme preparations from larvae of B. microplus and this enzyme had similar K_m and V_max values (4 μM and 10 nmol/h/mg of protein, respectively) to the neural enzyme and was inhibited both by β-carbolines and biogenic amines. These results suggest that N-acetylation is a key reaction in the metabolism of octopamine in the nervous system of the tick and may also play an important role in the metabolism of octopamine and other biogenic amines in larval stages of this acarine.     

球形芽孢杆菌Mtx1蛋白和苏云金杆菌Cyt1Aa晶体蛋白的协同作用

采用常规的生物测定方法确定了纯化的球形芽孢杆菌(Bacillus sphaericus)的缺失信号肽的97kDa营养期杀蚊毒素(Mosquitocidal toxin 1,Mtx1)蛋白和苏云金芽孢杆菌(Bacillus thuringiensis)27.3kDa的Cyt1Aa晶体蛋白对致倦库蚊(Culex quinquefasciatus)幼虫的杀虫活性。结果表明Mtx1和Cyt1Aa不同比例的混合物对致倦库蚊的毒力比单独毒素蛋白高,经统计分析表明两毒素蛋白对目标蚊幼虫具有明显的协同作用。在LC98处理浓度下,Mtx1和Cyt1Aa按3∶1混合的混合物LT50值比单独Mtx1的提前了6.36h。表明Cyt1Aa和Mtx1对致倦库蚊具有协同毒杀作用,提高对目标蚊虫的毒力、缩短半致死时间。该结果为深入研究Mtx1和Cyt1Aa的杀蚊作用方式奠定了基础,同时为其在蚊虫防治中的应用提供了新的思路和方法。     

Production, purification and properties of γ-glutamyltranspeptidase from a newly isolated Bacillus subtilis NX-2

Production, purification and properties of γ-glutamyltranspeptidase from a newly isolated Bacillus subtilis NX-2 was investigated. At the optimum conditions for enzyme formation, a high level, 3.2 U/ml of γ-GTP was obtained. The extracellular γ-GTP from this strain was purified 111.15-fold to homogeneity from the culture supernatant by acetone precipitation, hydrophobic interaction chromatography and ion exchange chromatography. The purified enzyme was a heterodimer consisting of one large subunit (43 kDa) and one small subunit (32 kDa), and exhibited high activity at 40–60 °C, pH 8.0. It preferred basic amino acids as γ-glutamyl acceptor in transpeptidation, and the stereochemistry of the γ-glutamyl acceptor had no influence on the enzyme activity, which was different from other γ-GTPs reported. Furthermore, it was proved that γ-GTP of this strain could catalyze the transfer of l-glutamine to glycylglycine to synthesize Gln–Gly–Gly, which was promising for the synthesis of valuable γ-glutamyl peptides.     

Phosphorylation of a 25 kDa protein is induced by thermostable direct hemolysin of Vibrio parahaemolyticus

Thermostable direct hemolysin (TDH) is a possible virulence factor produced by Vibrio parahaemolyticus. Although TDH has a variety of biological activities, including hemolytic activity, the biochemical mechanism of action remains uncertain. Here we analysed biochemical events, especially phosphorylation, caused by TDH in erythrocytes, and found that TDH caused significant phosphorylations of proteins on erythrocyte membrane. Phosphorylation of proteins was studied using γ-³²P ATP and SDS-PAGE. A number of protein kinase inhibitors were tested, to determine which types of kinases were involved in the phosphorylation events. TDH induced the phosphorylation of two proteins on membranes of human erythrocyte that are sensitive to TDH. The estimated molecular weight of these proteins was 25 and 22.5 kDa. Interestingly, the 22.5 kDa, but not the 25 kDa protein, was phosphorylated on the membrane of TDH-insensitive (resistant) horse erythrocytes. Moreover, a mutant TDH (R7), which retained binding ability but lost hemolytic activity, also phosphorylated only the 22.5 kDa protein on human erythrocyte membranes. Among the protein kinase inhibitors used the protein kinase C inhibitors, (staurosporine and calphostin C) showed marked inhibition of phosphorylation of 25 kDa protein. In addition to phosphorylation, these protein kinase C inhibitors suppresssed hemolysis by TDH. These results indicate that the phosphorylation of the 25 kDa protein seems to be essential for the hemolysis by TDH after it binds to erythrocyte membranes.     

Further farnesyl-homogentisic acid derivatives from Otoba parvifolia

The seeds of Otoba parvifolia contain three novel compounds apparently derived from homogentisic acid, rel-(1′R,5′R)-2-(1′-farnesyl-5′-hydroxy-2′-oxocyclohex-3′-en-1′-yl)-acetic acid and its acetate as well as rel-(1′R,4′S,5′R)-2-(1′-farnesyl-4′,5′-dihydroxy-2′-oxocyclohexan-1′-yl)-acetic acid δ-lactone. The structure of an additional isolate, previously described as 2-(1′-farnesyl-2′-hydroxy-5′-oxocyclohex-3′-en-1′-yl)-acetic acid γ-lactone was revised to rel-(1′R,5′R)-2-(1′-farnesyl-5′-hydroxy-2′-oxocyclohex-3′-en-1′-yl)-acetic acid δ-lactone.