类芽胞杆菌碱性果胶裂解酶的纯化与酶学性质表征

从类芽胞杆菌Paenibacillus sp.WZ008的发酵上清液中纯化得到一个高活力碱性果胶裂解酶,经SDS-PAGE电泳估算其亚基相对分子质量为4.5×104。通过对该酶进行酶学性质研究发现：该酶能催化裂解果胶酸、低酯果胶和高酯果胶;酶催化反应最适温度范围为55～60℃,最适pH为9.6,在最适条件下以低酯果胶为底物酶的比酶活达3 021.6 U/mg;Ca2＋能增强该酶的活力,而Mn2＋,Ba2＋和EDTA强烈抑制该酶活力;当没有Ca2＋存在时,高度酯化的果胶是该酶的最适底物,在4 mmol/L Ca2＋存在时,该酶以果胶酸为底物比酶活最高（25 467 U/mg）。该酶N端序列比对分析发现与类芽胞杆菌Paenibacillus amylolyticus strain 27c64果胶裂解酶高度同源。     

Production and Catabolite Repression of the Constitutive Polygalacturonic Acid trans-Eliminase of Aeromonas liquefaciens

Production of polygalacturonic acid (PGA) trans-eliminase was greatly stimulated under conditions of restricted growth of Aeromonas liquefaciens. This was accomplished either by substrate restriction in a continuous-feeding culture or by restricting divalent cations in a batch culture, with the use of PGA as the sole source of carbon in a chemically defined medium containing inorganic nitrogen. Slow feeding of glucose, glycerol, or PGA to carbon-limited cultures allowed PGA trans-eliminase to be formed at a maximum differential rate 500 times greater than in batch cultures with excess substrate present. The differential rate of enzyme formation obtained by slow feeding of these three substrances or of a mixture of PGA plus glucose was observed to be the same. Therefore, PGA trans-eliminase produced by A. liquefaciens, contrary to the current view, appears to be constitutive. These observations also indicate that production of PGA trans-eliminase is subject to catabolite repression and that limiting the substrate reverses this repression. It was also found that, under conditions of unrestricted growth, any compound which the bacteria can use as a source of carbon and energy repressed constitutive PGA trans-eliminase production. The heritable reversal of catabolite repression of PGA trans-eliminase synthesis was demonstrated by isolation of mutant strain Gc-6 which can readily synthesize the constitutive catabolic enzyme PGA trans-eliminase while growing in the presence of excess substrate.     

Purification and Properties of a Polygalacturonic Acid Trans-Eliminase Produced by Bacillus pumilus

A strain of Bacillus pumilus produced an extracellular pectic enzyme with polygalacturonic acid as the substrate. This enzyme, with optimal activity at pH 8.0 to 8.5, produced reaction products that strongly absorbed light at 232 nm, indicating the presence of a pectic acid trans-eliminase (PATE). Neither pectin esterase nor polygalacturonase was detected in the cell-free culture fluid. Chromatographic examination of the end products revealed the presence of large quantities of unsaturated oligouronides unlike those found with B. polymyxa. It was found that the PATE was produced extracellularly during the negative logarithmic death phase of the organism. The filtrate from sonically treated cells did not show any activity for PATE or hydrolases for lower oligogalacturonides at any time during the growth cycle. The enzyme was inducible. Pectin, National Formulary (NF) was the best inducer, followed by polygalacturonic acid and galacturonic acid. Enzyme activity was markedly stimulated by calcium and other divalent ions. Copper and cobalt ions were inhibitory. The partially purified enzyme showed no significant activity on pectin containing a high methoxyl content (96% esterified). However, pectin NF with a lower methoxyl content (68% esterified) was attacked to a degree by the partially purified and crude enzyme preparations. The initial rate of PATE activity increased up to 60 C, about 16-fold higher than that observed at room temperature. The activation energy was calculated as 12,183 cal/mole. A protective action of calcium chloride against heat inactivation of the PATE was observed. Degradation of polygalacturonic acid by this enzyme produced several unsaturated oligouronides soon after its addition to the substrate. The major endproduct was thought to be different from that of other known PATE enzymes. Paper chromatographic studies and viscosity measurements disclosed the random cleaving nature of the enzyme an endo-PATE.     

Purification and characterization of extracellular pectate lyase from Bacillus subtilis

Bacillus subtilis strain SO113 secretes a pectate lyase which is produced during the exponential death phase of growth, just before sporulation. This extracellular pectate lyase, which produces unsaturated products from polygalacturonate, was purified 35-fold from the culture supernatant of Bacillus subtilis by a CM Sephadex chromatography. It has an isoelectric point of about 9.6 and an Mr of 42,000. Optimum activity occurred at pH 8.4 and at 42 degrees C. Calcium has a stimulative effect on the enzyme activity while EDTA leads to enzyme inactivation. The pectate lyase has a specific activity of 131 mumol of aldehyde groups per min and per mg of protein. The Km of the purified enzyme for polygalacturonic acid was 0.862 g.l-1 and the Vmax for polygalacturonic acid hydrolysis was 1.475 mumol of unsaturated products per min and per mg of protein. By using monoclonal antibodies raised against Erwinia chrysanthemi 3937 pectate lyases, it was shown that pectate lyases b and c of this strain are immunologically closely related to the Bacillus subtilis pectate lyase.     

Purification and characterization of a new bioscouring pectate lyase from Bacillus pumilus BK2

An alkalophilic bacterium was isolated based on the potential of extra-cellular enzymes for bioscouring. The bacterium was identified as a new strain of Bacillus pumilus BK2 producing an extra-cellular endo-pectate lyase PL (EC 4.2.2.2). PL was purified to homogeneity in three steps and has a molecular mass of 37.3+/-4.8 kDa as determined by SDS-PAGE and an isoelectric point of pH 8.5. Peptide mass mapping by nano-LC-MS of PL revealed 15% homology with a pectate lyase from Bacillus sp. The pectate lyase exhibited optimum activity at pH 8.5 and around 70 degrees C in Tris/HCl buffer. It showed a half-life at 30 degrees C of more than 75 h. Stability decreased with increasing temperature, extremely over 60 degrees C. The enzyme did not require Ca2+ ions for activity, and was strongly inhibited by EDTA and Co2+. PL was active on polygalacturonic acid and esterified pectin, but the affinity showed a maximum for intermediate esterified pectins and decreased over a value of 50% of esterification. The best substrate was 29.5% methylated pectin. PL cleaved polygalacturonic acid via a beta-elimination mechanism as shown by NMR analysis. PL released unsaturated tetragalacturonic acid from citrus pectin and polygalacturonic acid, but did not show any side activities on other hemicelluloses. On polygalacturonic acid PL showed a Km of 0.24 gl(-1) and a vmax of 0.72 gl(-1)min(-1). The applicability of pectate lyase for the bioscouring process was tested on a cotton fabric. Removal of up to 80% of pectin was proven by means of ruthenium red dyeing and HPAEC (65%). Structural contact angle measurements clearly indicated the increased hydrophilicity of enzyme treated fabrics.     

Endo-polygalacturonate lyase of Cytophaga johnsonii

Summary An extracellular endopolygalacturonate lyase of Cytophaga johnsonii was purified from the culture filtrate. It appeared to be homogeneous as judged by polyacrylamide gel electrophoresis at pH 8.6 as well as pH 4.3. The purified enzyme had a pH optimum around 9.0 and required Ca⁺⁺ ions for its maximum activity. The apparent K _mfor polygalacturonic acid was found to be 0.22%. Both paper and column chromatography indicated formation and accumulation of an unsaturated monomer along with unsaturated di-, tri-, tetra- and pentamers from polygalacturonic acid by the enzyme action, indicating that the enzyme cleaved the substrate randomly in a non-hydrolytic manner. The glycosidic linkage next to the non-reducing end of polygalacturonic acid was not resistant to attack by this enzyme unlike in other known polygalacturonate lyases.Abbreviations PG lyase Polygalacturonate lyase - Tris Tris (hydroxymethyl) aminomethane     

Purification and Characterization of an Endopolygalacturonase Produced by Sclerotinia Sclerotiorum

An endopolygalacturonase (endo-PG), was purified from the culture medium of a local isolate of Sclerotinia sclerotiorum with ammonium sulphate precipitation, cation exchange chromatography and gel filtration. The purified endo-PG had a molecular mass of approximately 18 kDa estimated by gel filtration. The isoelectric point was determined by isoelectric focusing to be approximately 8, suggesting that PG II possesses a net positive charge at physiological pHs. The pH optimum for the enzyme was at pH 4.5. The endo-PG showed essentially the same affinity for pectin and polygalacturonic acid as substrates. This revised version was published online in July 2006 with corrections to the Cover Date.     

Regulation of glutaminase B in Escherichia coli. I. Purification, properties, and cold lability.

Escherichia coli contains two glutaminases, A and B, with pH optima below pH 5 and above pH 7, respectively. Neither glutaminase A nor B is released from E. coli by osmotic shock. Glutaminase B has been purified 6,000-fold and the purified preparation is estimated to contain about 40% glutaminase B. The enzyme has a molecular weight of 90,000 and an isoelectric point of 5.4. Glutaminase B exhibits a broad pH optimum between 7.1 and 9.0. Only L-glutamine is deamidated by glutaminase B, L-asparagine and D-glutamine are not deamidated. The substrate saturation curve for glutaminase B shows an intermediary plateau region. Like many regulatory enzymes, glutaminase B is cold-labile. The enzyme is inactivated by cooling and activated by warming; both processes are first order with respect to time. The activation energy for activation by warming was calculated to be 5900 cal/mol. Activation by warming increased the Vmax and decreased the S0.5 for L-glutamine, but did not alter the molecular weight of the catalytically active enzyme. Borate and glutamate protected glutaminase B from inactivation by cold.     

Host-Pathogen Interactions : XXV. Endopolygalacturonic Acid Lyase from Erwinia carotovora Elicits Phytoalexin Accumulation by Releasing Plant Cell Wall Fragments

Heat-labile elicitors of phytoalexin accumulation in soybeans (Glycine max L. Merr. cv Wayne) were detected in culture filtrates of Erwinia carotovora grown on a defined medium containing citrus pectin as the sole carbon source. The heat-labile elicitors were highly purified by cation-exchange chromatography on a CM-Sephadex (C-50) column, followed by agarose-affinity chromatography on a Bio-Gel A-0.5m gel filtration column. The heat-labile elicitor activity co-purified with two α-1,4-endopolygalacturonic acid lyases (EC 4·2·2·2). Endopolygalacturonic acid lyase activity appeared to be necessary for elicitor activity because heat-inactivated enzyme preparations did not elicit phytoalexins. The purified endopolygalacturonic acid lyases elicited pterocarpan phytoalexins at microbial-inhibitory concentrations in the soybean-cotyledon bioassay when applied at a concentration of 55 nanograms per milliliter (1 × 10⁻⁹ molar). One of these lyases released heat-stable elicitors from soybean cell walls, citrus pectin, and sodium polypectate. The heat-stable elicitor-active material solubilized from soybean cell walls by the lyase was composed of at least 90% (w/v) uronosyl residues. These results demonstrate that endopolygalacturonic acid lyase elicits phytoalexin accumulation by releasing fragments from pectic polysaccharides in plant cell walls.     

Optimization of fermentation reaction conditions for preparation of PATE enzyme by Erwinia carotovora IFO3830 by TFCCRD method.

The fermentation conditions for preparation of polygalacturonic acid transeliminase (PATE) enzyme by Erwinia carotovora IFO3830 were optimized for seed ratio, vibration rate, and temperature by the TFCCRD method. The results indicated that the optimum fermentation conditions for E. carotovora IFO 3830 were that seed ratio, vibration rate, and temperature were 5% v/v, 113 min(-1), and 29 degrees C, respectively.     

Storage and survival of bacteria by ultra-freeze

L yon , G.D., S mith , K.J. & H eilbronn , J. 1986. The calcium requirement of polygalacturonic acid lyases produced by Erwinia spp. Letters in Applied Microbiology , 2 , 127–129.
The optimum calcium concentration for polygalacturonic acid lyase (PL) activity in culture filtrates of Erwinia spp. varied between isolates but was generally between 0.2 and 1 mmol/l. Isozymes of PL have different calcium optima at approximately 0.2, 1, 1.3, 1.6 and 1.8 mmol/l Ca²⁺.     

Purification and properties of a kinase from Escherichia coli K-12 that phosphorylates two periplasmic transport proteins

The phosphorylation in vivo and in vitro of the arginine-ornithine and the lysine-arginine-ornithine (LAO) periplasmic transport proteins of Escherichia coli K-12 was previously reported (Celis, R. T. F. (1984) Eur. J. Biochem. 145, 403-411). The phosphorylative reaction required ATP (as a direct energy donor), Mg2+, and a kinase that can be released by osmotic shock treatment of the cells. The enzyme was purified to electrophoretic homogeneity. The enzyme exhibited an ATPase activity and a kinase activity. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate gave an apparent molecular weight of 43,000 for the enzyme. The native protein showed the same molecular weight, suggesting that the protein is a monomer. The protein showed an apparent isoelectric point of 4.8 on isoelectric focusing. The two enzymatic reactions required a divalent cation and the apparent Km value for Mg2+ for the kinase activity was 0.5 mM. Mn2+ and Co2+ served as well as Mg2+, whereas Zn2+ and Ca2+ did not support activity. The ATPase activity of the enzyme yielded an apparent Km value for ATP of 50 microM. A similar value, Km of 100 microM, was calculated for the kinase activity with different concentrations of ATP. The enzyme showed a pH optimum of 7.3.     

Purification and properties of a citrate-binding transport component, the C protein of Salmonella typhimurium.

Salmonella typhimurium was shown to contain a citrate-binding protein (C protein) which was purified to homogeneity from the periplasmic fraction released by cold osmotic shock. The protein is dimeric, has an apparent molecular weight of 28 000 and an isoelectric point of 6.1. Sodium ions were required for optimum substrate binding, however, the divalent cations Zn2+, Mg2+, and Co2+ were inhibitory. The C protein was relatively stable but sensitive to various detergents and chaotropic agents. Approximately one citrate molecule was bound per molecule of protein and citrate binding (Kd = 1-2.6 microM) was strongly competitively inhibited by DL-isocitrate and DL-fluorocitrate but not by other carboxylates. Neither succinate, glutamate, nor acetate were bound to the C protein. No apparent enzyme activity was associated with this protein. A concomitant reduction in the level of binding protein and in citrate transport activity occurred in osmotically shocked cells as well as with L-malate- or succinate-grown cells. Fluorocitrate-resistant mutants were simultaneously defective in citrate transport, citrate binding, and production of cross-reacting material. One transport-defective mutant did produce citrate binding protein.     

Construction of expression systems for Escherichia coli asparaginase II and two-step purification of the recombinant enzyme from periplasmic extracts.

Isoenzyme II of Escherichia coli L-asparaginase (L-asparagine amidohydrolase, EC 3.5.1.1) is among the few enzymes of major therapeutic importance, being used in the treatment of acute lymphoblastic leukemia. We have constructed several inducible expression systems that overproduce asparaginase II from recombinant plasmids. The most efficient of these systems consists of plasmid pTWE1, a derivative of pT7-7, and an ansB- strain of E. coli, CU1783. These cells produce and secrete amounts of asparaginase II that account for 10-15% of the total cellular protein. Most of the active recombinant enzyme can be released from the periplasmic space by a simple osmotic shock procedure. From the resulting material homogeneous asparaginase II was obtained by a two-step procedure. Overall yields of purified asparaginase were 10-15 mg asparaginase II per liter of E. coli culture. The recombinant enzyme appeared identical to conventionally purified preparations.     

Inhibition of polygalacturonase from Verticillium dahliae by a polygalacturonase inhibiting protein from cotton

An extracellular endo-polygalacturonase (PGase) [E.C. 3.2.1.15] was isolated from 18-day-old culture filtrates of Verticillium dahliae and partially purified using gel permeation chromatography. The band responsible for PGase activity was electrophoretically characterized as having a molecular mass of approximately 29 500 and an isoelectric point of 5.4. Kinetic studies indicate a Km of 3.3 mg ml(-1) and Vmax of 0.85 micromol reducing units min(-1) ml(-1) with polygalacturonic acid as substrate. Polygalacturonase inhibitor protein (PGIP) in cotton seedlings was induced by 5 mM salicylic acid and immunochemical analysis indicated high levels in the hypocotyl tissues. PGIP was purified from roots and stems using affinity chromatography with endo-PGase from Aspergillus niger as an immobilised ligand. The purified PGIP contained monomeric and dimeric molecules with molecular masses of 34 and 66 kDa respectively. Purified cotton PGIP inhibited endo-polygalacturonase from A. niger in a non-competitive or mixed manner with an inhibition constant. K(I) of 15 nM. The isolated V. dahliae PGase was, however, inhibited in a positive cooperative manner, indicative of allosteric interactions between the enzyme and the inhibitor protein. In addition to reducing the reaction rate, decreased substrate affinity may contribute to the accumulation of elicitor-active oligouronides.     

A New Pectolytic Enzyme in Erwinia aroideae Formed in the Presence of Nalidixic Acid

Pectolytic enzyme formation by whole cells of Erwinia aroideae was markedly stimulated when nalidixic acid was added to a culture medium. The activity of pectolytic enzyme was markedly stimulated by nalidixic acid when the activity was measured by the decrease of viscosity of pectin, while activities of both polygalacturonic acid trans-eliminase and polygalacturonase which were measured respectively by the increase of optical density at 230 nm and the liberation of aldehyde groups, were not stimulated. The analysis of pectolytic enzyme by carboxymethyl cellulose column chromatography indicated that there was a significant difference in the elution profiles between the pectolytic enzyme induced by nalidixic acid and that synthesized under normal conditions. Therefore, we conclude that two enzymes are distinct protein species.     

重组菌产碱性果胶酯裂解酶酶学性质研究

利用盐析-透析-色谱流程建立快速高效纯化工程菌E.coli JM109(pHsh PL)所产碱性果胶酯裂解酶(PL)的方法,纯化后酶达到电泳纯,比酶活为1079U/mg.重组菌所产PL酶促反应适宜的pH为9～10,适宜温度为50～66 ℃,与酶基因来源野生菌所产PL相比,重组菌所产PL适宜pH范围有所扩大,并保持了野生菌PL的热稳定性.通过金属离子种类、浓度及存在时间对PL酶活力影响考察发现:在考察的离子中除Mg2 对酶活有较好的促进作用外,其余对重组菌PL均有抑制作用,其中Fe2 对酶活力抑制作用最强.该酶的Km值为20.93 mg/L,Vmax为105.3 μmol/min,反应活化能Ea为21.74 kJ/mol.对重组菌所产PL热稳定动力学进行分析,发现有底物情况下的失活常数kd(0.02 min-1)小于无底物情况下的失活常数kd(0.0342 min-1),说明当酶与底物结合形成复合物时对酶活具有保护作用.利用HPLC-ESI-MS对重组菌所产PL酶解产物进行测定发现,产物含有不饱和二聚半乳糖醛酸(m/z 350.82)和不饱和三聚半乳糖醛酸(m/z 527.04),同时测定结果中没有发现不饱和半乳糖醛酸单体(m/z 175),可以初步推测重组菌PL不能以不饱和二聚半乳糖醛酸和不饱和三聚半乳糖醛酸为底物进一步裂解.     

Penicillium solitum produces a polygalacturonase isozyme in decayed Anjou pear fruit capable of macerating host tissue in vitro

A polygalacturonase (PG) isozyme was isolated from Penicillium solitum-decayed Anjou pear fruit and purified to homogeneity with a multistep process. Both gel filtration and cation exchange chromatography revealed a single PG activity peak, and analysis of the purified protein showed a single band with a molecular mass of 43 kDa, which is of fungal origin. The purified enzyme was active from pH 3.5-6, with an optimum at pH 4.5. PG activity was detectable 0-70 C with 50 C maximum. The purified isozyme was inhibited by the divalent cations Ca(2+), Mg(2+), Mn(2+) and Fe(2+) and analysis of enzymatic hydrolysis products revealed polygalacturonic acid monomers and oligomers. The purified enzyme has an isoelectric point of 5.3 and is not associated with a glycosylated protein. The PG isozyme macerated fruit tissue plugs in vitro and produced ~1.2-fold more soluble polyuronides from pear than from apple tissue, which further substantiates the role of PG in postharvest decay. Data from this study show for the first time that the purified PG produced in decayed Anjou pear by P. solitum, a weakly virulent fungus, is different from that PG produced by the same fungus in decayed apple.     

Purification and characterization of a novel exopolygalacturonase from Fusarium oxysporum f.sp. lycopersici

A novel exopolygalacturonase (EC 3.2.1.15) was purified to apparent homogeneity from cultures of Fusarium oxysporum f.sp. lycopersici on synthetic medium supplemented with polygalacturonic acid, using two steps of purification: preparative isoelectric focusing and cationic exchange chromatography. The enzyme designated PG3 had an apparent M_r of 63 000±3000 Da upon SDS-PAGE and a pI of 7.0. PG3 was active within a broad range of pH from 3.5 to 9. The temperature optimum was 55°C. PG3 hydrolyzed polygalacturonic acid in an exo-manner, as demonstrated by analysis of degradation products. The enzyme was N-glycosylated. The production of PG3 was constitutive at low levels, and synthesis was increased following induction by PGA and partially repressed by glucose.     

Purification of two forms of kanamycin acetyltransferase from Escherichia coli

Kanamycin acetyltransferase acylates aminoglycoside antibiotics using acetyl-CoA, and thereby conveys bacterial resistance to several clinically important antibiotics, notably amikacin. The enzyme was quantitatively and reproducibly released from Escherichia coli W677 harboring plasmid pMH67 by a modified osmotic shock procedure (bacterial cells are incubated overnight in sucrose and again without sucrose before onset of osmotic shock). The enzyme was purified by dye-ligand chromatography on Affi-Gel Blue in addition to antibiotic affinity chromatography on neomycin-Sepharose-4B. The activity did not increase with subsequent chromatography on ion-exchange, hydrophobic, or molecular-exclusion gels. However, both dye-ligand and molecular-exclusion chromatography, as well as disc-gel electrophoresis, separated the purified enzyme equally into two active protein fractions. Based on the more active of the two forms, the purification was 112-fold with a specific activity of 1.9 IU/mg. The less-active form has an unusual absorbance spectrum, with a maximum near 255 nm, which cannot be explained by the amino acid composition. Chromatography of this form alone regenerated both forms, suggesting that the enzyme is noncovalently conjugated to an uncharged chromophore, such as a lipid. The purified enzyme has a very sharp pH optimum at 5.5 with a plateau on the alkaline side, but is most stable between pH 8.5 and 9.5. Data from electrophoresis in the presence of sodium dodecyl sulfate and gel-filtration on Ultrogel AcA 44 are consistent with a tetrameric protein of 60-70,000 Da.