Glycyl- and alanyl-tRNA synthetases from Bombyx mori. Purification and properties

Glycyl- and alanyl-tRNA synthetases have been purified from an extract of Bombyx mori posterior silk glands by a procedure that allows for the simultaneous isolation of both enzymes. Glycyl-tRNA synthetase is a dimer of Mr = 160,000 consisting of similar or identical subunits, whereas alanyl-tRNA synthetase is a monomer of Mr = 110,000 to 115,000. The abundance of these two enzymes in the posterior silk gland is consistent with the observed adaptation of this organ to the production of the silk protein, fibroin. The two enzymes are similar in oligomeric structure to the corresponding enzymes in Saccharomyces cerevisiae, but dissimilar from their counterparts in Escherichia coli.     

Subunit structure and tRNA-binding properties of Bombyx mori Glycyl-tRNA synthetase

Large amounts of glycyl-tRNA synthetase were purified from the posterior silk glands of Bombyx mori. The synthetase was estimated to be a dimer with a molecular weight of 180,000. When the enzyme solution was diluted, the dimer dissociated into monomers which were inactive in tRNA aminoacylation. The aminoacylation was investigated with two isoaccepting tRNAsGly isolated from the posterior silk glands. Transfer RNA1Gly was aminoacylated 2-fold faster than tRNA2Gly. Transfer RNA-binding experiments revealed that tRNA1Gly binds with the enzyme in a molar ratio of 2:1, whereas tRNA2Gly formed a 1:1 complex with the enzyme. Based on these experimental results, we proposed that the Bombyx mori glycyl-tRNA synthetase has two active sites for tRNA aminoacylation and that the number of tRNA molecules bound on the synthetase closely correlates with the velocity of aminoacylation.     

Purification and molecular properties of vitellin from the silkworm,Bombyx mori

Vitellin was purified from the eggs of the silkworm, Bombyx mori by a simple method which included a specific precipitation at pH 6 under low ionic concentration and DEAE-cellulose column chromatography. The final preparation was highly homogeneous as judged by gel electrophoresis, electron microscopy and ultracentrifugation.Vitellin was defined as glycolipoprotein with a sedimentation coefficient (S_{20, W}) of 13.5S and a molecular weight of 440,000. The molecule was almost spherical in shape with a diameter of 13 nm. The molecule contained 3% mannose and 7.5% total lipids which comprised triacylglycerol, diacylglycerol, cholesterol, phosphatidylcholine and phosphatidylethanolamine. The amino acid composition displayed a high content of glutamic and aspartic acids and a low content of methionine. The molecule was composed of two non-identical subunits with molecular weights of 180,000 and 42,000, and the native molecule was assumed to be a tetramer composed of two molecules of each of these subunits. Separation of the two subunits was achieved, and mannose was covalently associated only with the heavier subunit.The rabbit anti-egg vitellin antibody cross-reacted with the haemolymph vitellogenin but not with other haemolymph proteins, nor with the vitellogenin from Locusta migratoria. The antibody also reacted with the haemolymph vitellogenin of the silkworm, Philosamia cynthia.     

Partial purification of prostaglandin synthetase from silkmoth Bombyx mori L.

Prostaglandin synthetase has been isolated and purified from the post mitochondrial supernatant of the testis of male silkmoth Bombyx mori L. A 3-fold purification was achieved compared to that of post mitochondrial supernatant. The partially purified enzyme converted arachidonic acid to PGE₂in vitro in the presence of haemin and hydroquinone.     

Purification and properties of arylsulphatase from the brain of the silkworm Bombyx mori

(1) Arylsulphatase of the silkworm Bombyx mori was partially purified using ammonium sulphate fractionation, ethanol precipitation, Sephadex G-200 gel filtration and Con-A Sepharose chromatography. (2) The purified enzyme preparation was not homogeneous but showed no beta-glucuronidase or beta-galactosidase activities. (3) The kinetic properties of the enzyme indicated that it could be classified under type-2 arylsulphatases of vertebrates. (4) The purified enzyme shows very little activity towards p-nitrophenyl sulphate and none towards cerebroside 3-sulphate.     

Purification and properties of alkaline phosphatase of silkworm Bombyx mori

Alkaline phosphatase(AKP),from the succus entericus of silkworm,was purified using 10%-50% ammonium sulfate fractions,ion exchange chromatography Of DEAE-Sepharose,and size exclusion chromatography of Sephacryl S-200.The purification fold was 464 times and specified activity was 3936 U/mg.Optimum pH value of the phosphatase was 10.5,and was stable between pH 7.5 and 11.The optimum temperature of the phosphatase was 40℃ and it was unstable over 50℃.Km value of the phosphatase was 1.25 mmol/L.In a given condition,the phosphatase was selectively modified by PCMB,NBS,PMSE TNBS,SUAN,DTT,BrAc,and IAc,the results indicate that PMSF,SUA,BrAc,IAc,and TNBS could Obviously inhibit the activity of the phosphatase,and the degree of inhibition depended on the concentration of these reagents.There was little effect on the activity of phosphatase after treatment by PMSF,DTT,and NBT.We primarily conclude that mercapto and imidazole are essential for AKP from silkworm.Also,Lys residue and disulfide bands are necessary to protect the catalysis of the AKP.     

昆虫来源的几丁质酶的分离纯化及酶学性质

几丁质酶在真菌和昆虫的生理和发育过程中起着关键作用,该酶本身及其酶抑制剂是获取生物农药的重要途径。本研究从蚕蛹体内提取几丁质粗酶,经硫酸铵分级沉淀和Sephadex G-150分离得到几丁质酶。用SDS-PAGE测得该酶的分子量为88kDa。水解胶体几丁质的Km值为22.3μmol/L。酶反应的最适温度为45℃,最适pH值为6.0,金属离子和有机试剂对几丁质酶活性都有影响,其中高浓度的Mn2+对酶有较强的激活作用,而Cu2+、SDS则有较强的抑制作用。研究结果为基于几丁质酶的生物农药筛选研究奠定了基础。     

Equilibrium unfolding of Bombyx mori glycyl-tRNA synthetase

Unfolding of Bombyx mori glycyl-tRNA synthetase was examined by multiple spectroscopic techniques. Tryptophan fluorescence of wild type enzyme and an N-terminally truncated form (N55) increased at low concentrations of urea or guanidine-HCl followed by a reduction in intensity at intermediate denaturant concentrations; a transition at higher denaturant was detected as decreased fluorescence intensity and a red-shifted emission. Solute quenching of fluorescence indicated that tryptophans become progressively solvent-exposed during unfolding. Wild type enzyme had stronger negative CD bands between 220 and 230 nm than the mutant, indicative of greater alpha-helical content. Urea or guanidine-HCl caused a reduction in ellipticity at 222 nm at low denaturant concentration with the wild type enzyme, a transition that is absent in the mutant; both enzymes exhibited a cooperative transition at higher denaturant concentrations. Both enzymes dissociate to monomers in 1.5 m urea. Unfolding of wild type enzyme is described by a multistate unfolding and a parallel two state unfolding; the two-state component is absent in the mutant. Changes in spectral properties associated with unfolding were largely reversible after dilution to low denaturant. Unfolding of glycyl-tRNA synthetase is complex with a native state, a native-like monomer, partially unfolded states, and the unfolded state.     

Purification and characterization of Bombyx cysteine proteinase specific inhibitors from the hemolymph of Bombyx mori.

Protein inhibitors capable of inhibiting BCP (Bombyx cysteine proteinase) were found in the larval-pupal hemolymph of Bombyx mori. Two forms of the inhibitors, named BCPI (BCP inhibitor) alpha and BCPI beta, were purified from the pupal hemolymph by heat treatment and column chromatographies on CM-cellulose, Toyopearl HW-50, Phenyl-Sepharose, and Mono Q. Purified BCPI beta gave a single protein band with a molecular mass of 10,500 daltons on SDS-PAGE. BCPI alpha is mostly composed of the same molecular mass protein as BCPI beta. Both forms were inhibitory towards other cysteine proteinases such as cathepsins L,B and papain but had no effects on trypsin and pepsin. Both forms inhibited the processing of the enzymatically inactive proform of BCP (pro-BCP) to the activated mature BCP. BCPI alpha and BCPI beta shared many other features such as molecular mass determined by gel filtration, antigenicity, and HPLC profiles. NH(2)-terminal amino acid sequencing of the purified inhibitors revealed that three amino acid residues were different in the BCPI alpha and BCPI beta sequences, all others being identical. The hemolymph BCP inhibitor increased activity approximately four- to fivefold at the time of spinning and maintained this level of activity during pupation.     

Purification and characterization of cocoonase from the silkworm Bombyx mori

Cocoonase (CCN) which facilitates the degradation of a cocoon is recognized as a trypsin-like serine protease. In this study, CCN from the silkworm Bombyx mori was purified and comprehensively characterized. Its activity was maximal at about pH 9.8. It was stable above pH 3.4 at 4?°C and below 50?°C at pH 7.5. CuSO₄, FeSO₄, and ZnSO₄ showed inhibitory effects on CCN, but other salts improved activity. Typical trypsin inhibitors inhibited CCN, but the relative inhibitory activities were much lower than those against bovine trypsin. An extract of cocoon shells inhibited trypsin, but it was only slightly inhibitory against CCN. There were significant differences in catalytic efficiencies and substrate specificities as between CCN and bovine trypsin.     

Purification and molecular cloning of chemosensory proteins from Bombyx mori

Soluble low molecular weight acidic proteins are suspected to transport stimulus molecules to the sensory neurons within insect sensilla. From the antennae of Bombyx mori, we have purified and sequenced a protein (BmorCSP1) bearing sequence similarity to a class of soluble chemosensory proteins recently discovered in several orders of insects. Based on its N-terminal sequence, the cDNA encoding this protein has been amplified and cloned. Differential screening of a B. mori antennal cDNA library led to the identification of a second gene encoding a related protein (BmorCSP2), sharing 35-40% identity to BmorCSP1 and chemosensory proteins from other species. The predicted secondary structures of moth's, chemosensory proteins comprise alpha-helical foldings at conserved positions and a reduced hydrophobicity with respect to this novel family of chemosensory proteins.     

Purification and characterization of a 54 kDa chitinase from Bombyx mori

The 54 kDa protein that was suggested to be processed from the 65 kDa and 88 kDa chitinases of Bombyx mori [Koga et al., Insect Biochem. Mol. Biol. 27, 757–767 (1997)] was purified and proved to be a third chitinase (EC 3.2.1.14). This chitinase was purified from the fifth larval instar of B. mori by chromatography on DEAE-Cellulofine A–500, hydroxylapatite, Butyl-Toyopearl 650M, and Fractogel EMD DEAE 650(M) columns. The apparent molecular mass was confirmed to be 54 kDa by SDS–PAGE. Its optimum pH was 6.0 toward a short substrate, N-acetylchitopentaose (GlcNAc₅), while in its reaction with a longer substrate, glycolchitin, the enzyme showed a wide pH-range between 4.0 and 10. Kinetic parameters for the chitinase could be obtained in the hydrolysis of glycolchitin but not in that of N-acetylchitooligosaccharides (GlcNAc_n, n=2–6) because of substrate inhibition. The chitinase hydrolyzed N-acetylchitooligosaccharides except for dimer as follows: trimer to monomer plus dimer, tetramer to two molecules of dimer, pentamer to dimer plus trimer, and hexamer to dimer plus tetramer as well as two molecules of trimer. These results suggest that the 54 kDa chitinase is an endo-type hydrolase and preferred the longer-chain N-acetylchitooligosaccharides. Moreover, the anomeric forms of N-acetylchitooligosaccharides were analyzed in the reaction with the 54-kDa chitinase. It was revealed that this enzyme cleaves the substrate to produce the β anomeric product. With respect to inhibition of the 54 kDa chitinase, it was specifically inhibited by allosamidin in a competitive way with K_i values depending on the pH of the reaction mixture (K_i=0.013−0.746 μM). Comparing the properties and kinetic behavior of this chitinase with those of the 88 and 65 kDa chitinases from B. mori, regarding the specific activity of the three enzymes, the 65-kDa chitinase was 2.15 and 2.8 times more active than the 88 and 54-kDa chitinases, respectively. However, in the overall reaction of glycolchitin (k_cat/K_m), the 88-kDa enzyme was 4 and 40 times more active than the 65-kDa and the 54-kDa enzymes, respectively. Concerning the affinity (1/K_m) to glycolchitin, the 88 kDa chitinase affinity (at pH 6.5) was 5.8 times higher than that of the 65 kDa chitinase (at pH 5.5) and 4.0 times higher than that of the 54 kDa chitinase (at pH 6.0). These kinetic results suggest that B. mori chitinases are processed during ecdysis from the larger chitinase to smaller ones that leads to changes in their kinetic properties such as K_m, k_cat and k_cat/K_m successively.     

Purification and characterization of a novel isozyme of chitinase from Bombyx mori

75-kDa chitinase, which showed potential as a biocontrol agent against Japanese pine sawyer, was characterized after purification from the integument of the fifth instar larvae of Bombyx mori by chromatography on diethylaminoethyl (DEAE)-Toyoperal 650 (M), hydroxylapatite, and Fractogel EMD DEAE 650 (M) columns. The optimum pH was 6.0 toward N-acetylchitopentaose (GlcNAc5) and 10 toward glycolchitin. The optimum temperature was 60 degrees C toward GlcNAc5 and 25 degrees C toward glycolchitn. The enzyme was stable at pH 7-10 and below 40 degrees C. Kinetic analysis and reaction-pattern analysis using glycolchitin and N-acetylchitooligosacchraides as substrates indicated that 75-kDa chitinase is an endo- or random-type hydrolytic enzyme to produce the beta anomeric product and that it prefers the longer N-acetylchitooligosaccharides, suggesting, together with the N-terminal amino acid sequence, that the 75-kDa chitinase belongs to family 18 of glycosyl hydrolases.     

家蚕丙氨酸转氨酶的纯化与鉴定

应用细胞匀浆,硫酸铵分段盐析,DEAE-纤维素柱层析和羟基磷灰石柱层析等方法,从家蚕后部丝腺中成功地分离制备了高纯度的丙氨酸转氨酶,经聚丙烯酰胺凝胶电泳分析鉴定,本法制备的丙氨酸转氨酶已达到均一的纯度。     

Purification and properties of valyl-tRNA synthetase from Mycobacterium smegmatis.

Valyl-tRNA synthetase from Mycobacterium smegmatis has been purified over 1200-fold by conventional techniques as well as affinity chromatography on valyl-aminohexyl Sepharose columns. The purified preparation is homogeneous by electrophoretic and immunologic criteria. The enzyme is a tetramer of approximate molecular weight of 120,000, composed of a single type of subunit. The synthetase exhibited maximal activity between 35--40 degrees C and pH 6.8--7.0. The pure enzyme though stable for several months below 0 degrees C, loses activity completely at 70 degrees C, for 1 min. The enzyme showed normal Michaelis-Menten kinetic behaviour in the total aminoacylation reaction with Km values of 1.25 microM, 0.1 mM and 1.0 microM for valine, ATP and tRNA, respectively, but the kinetic response deviated from the above pattern in the partial (activation) reaction. Based on these findings, the existence of the enzyme in two molecular forms, modulated by substrate concentration has been suggested; of these, only one may be active in the total reaction, while both forms may function in the phophosphate exchange reaction.     

Purification and properties of asparagine synthetase from rat liver.

Asparagine synthetase (L-aspartate:ammonia ligase (AMP-forming, EC 6.3.1.1) activity in rat liver increased when the animals were put on a low casein diet. The enzyme was purified about 280-fold from the supernatant of rat liver homogenate by a procedure comprising ammonium sulfate fractionation. DEAE-Sepharose column chromatography, and Sephadex G-100 gel filtration. The optimal pH of the enzyme was in the range 7.4-7.6 with glutamine as an amide donor. The molecular weight was estimated to be approximately 110,000 by gel filtration. Chloride ion was required for the enzyme activity. The apparent Km values for L-aspartate, L-glutamine, ammonium chloride, ATP, and Cl- were calculated to be 0.76, 4.3, 10, 0.14, and 1.7 mM, respectively. The activity was inhibited by L-asparagine, nucleoside triphosphates except ATP, and sulfhydryl reagents. It has been observed that the properties of asparagine synthetase from rat liver are not so different from those of tumors such as Novikoff hepatoma and RADA 1.     

Arginyl-tRNA synthetase from baker's yeast. Purification and some properties.

Arginyl-tRNA synthetase from baker's yeast (Saccharomyces cerevisiae, strain 836) was obtained pure by a large-scale preparative method, which involves four chromatographic columns and one preparative polyacrylamide gel electrophoretic step. The enzyme has a high specific activity (9000 U/mg) and consists of a single polypeptide chain of molecular weight approximately 73000 as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulphate. Amino acid analysis of the enzyme permitted calculation of the absorption coefficient of arginyl-tRNA synthetase (A(1 mg/ml 280 nm)=1.26). Concerning kinetic parameters of the enzyme we found the following Km values: 0.28 muM, 300 muM, 1.5 muM for tRNA(Arg III), ATP and arginine in the aminoacylation reaction, and 1400 muM, 2.5 muM, and 50 muM for ATP, arginine and PP(i) in the ATP-PP(i) exchange reaction. Arginyl-tRNA synthetase required tRNA(Arg III) to catalyse the ATP-PP(i) exchange reaction.