Purification and properties of a F420-nonreactive,membrane-bound hydrogenase from Methanosarcina strain Gö1

The distribution of the F₄₂₀-reactive and F₄₂₀-nonreactive hydrogenases from the methylotrophic Methanosarcina strain Gö1 indicated a membrane association of the F₄₂₀-nonreactive enzyme. The membrane-bound F₄₂₀-nonreactive hydrogenase was purified 42-fold to electrophoretic homogeneity with a yield of 26.7%. The enzyme had a specific activity of 359 mol H₂ oxidized · min^-1 · mg protein^-1. The purification procedure involved dispersion of the membrane fraction with the detergent Chaps followed by anion exchange, hydrophobic and hydroxylapatite chromatography. The aerobically prepared enzyme had to be reactivated anaerobically. Maximal activity was observed at 80°C. The molecular mass as determined by native gel electrophoresis and gel filtration was 77000 and 79000, respectively. SDS gel electrophoresis revealed two polypeptides with molecular masses of 60000 and 40000 indicating a 1:1 stoichiometry. The purified enzyme contained 13.3 mol S^2-, 15.1 mol Fe and 0.8 mol Ni/mol enzyme. Flavins were not detected. The amino acid sequence of the N-termini of the subunits showed a higher degree of homology to cubacterial uptake-hydrogenases than to F₄₂₀-dependent hydrogenases from other methanogenic bacteria. The physiological function of the F₄₂₀-nonreactive hydrogenase from Methanosarcina strain Gö1 is discussed.Abbreviations transmembrane electrochemical gradient of H^- - CoM-SH 2-mercaptoethanesulfonate - F₄₂₀ (N-l-lactyl--l-glutamyl)-l-glutamic acid phospodiester of 7,8-didemethyl-8-hydroxy-5-deazariboflavin-5-phosphate - F₄₂₀H₂ reduced F₄₂₀ - HTP-SH 7-mercaptoheptanoylthreonine phosphate - Mb. Methanobacterium - PMSF phenylmethyl-sulfonylfluoride - Cl₃AcOH trichloroacetic acid     

Nickel dependence of factor F430 content in Methanobacterium thermoautotrophicum

Factor F₄₃₀ is a yellow compound of unknown structure present in methanogenic bacteria. It has recently been shown to contain nickel. In this communication the influence of the nickel concentration in the growth medium on the factor F₄₃₀ content of Methanobacterium thermoautotrophicum and on the nickel content of factor F₄₃₀ was studied. It was found: (1) The content of factor F₄₃₀ in the cells was strongly dependent on the nickel concentration of the growth medium. Cells grown on media with 2.5 M NiCl₂ contained 28 times as much factor F₄₃₀ per g as those grown on media with 0.075 M NiCl₂; (2) factor F₄₃₀ was synthesized in nickel deprived cells only upon the addition of nickel Nickel uptake paralleled factor F₄₃₀ synthesis; (3) independent of the nickel concentration in the growth medium, the extinction coefficient at 430 nm of factor F₄₃₀ per mol nickel was always near 22,500 cm^-1 (mol Ni)^-1. These findings indicate that nickel is an essential component of factor F₄₃₀.Dedicated to Professor Otto Kandler on the occasion of his 60th birthday     

Hydrogenase from Acetobacterium woodii

Hydrogenase from fructose-grown cells of Acetobacterium woodii has been purified 70-fold to a specific activity of 3,500 mol hydrogen oxidized per min per mg of protein measured at 35°C and pH 7.6 with methyl viologen as electron acceptor. At the same conditions with reduced methyl viologen as electron donor the enzyme catalyzes the evolvement of 440 mol of H₂ per min per mg of protein. The enzyme was found in the soluble portion of the cell, indicating that it is either not membrane-bound or is loosely associated with the membrane. The purified enzyme, which does not contain nickel, exhibits spectroscopic properties similar to the iron-sulfur hydrogenase of Clostridium pasteurianum. The enzyme is strongly inhibited by carbon monoxide, with 50% inhibition occurring at approximately 7 nM CO. Ferredoxin, flavodoxin, and carbon monoxide dehydrogenase are reduced in hydrogen-dependent reaction by the A. woodi hydrogenase.Abbreviations CO dehydrogenase carbon monoxide dehydrogenase - MV methyl viologen - SDS sodium dodecyl sulfate This paper is dedicated to Professor Dr. Hans G. Schlegel on the occasion of his 60-years birthday. Hans' contributions to the field of microbiology are many and it is a pleasure for us to commemorate him in this way. One of us, L. G. L., had the fortune as a Humboldt-Preis recipient to spend a year at the Institut für Mikrobiologie der Universität Göttingen. Besides the best possible working conditions memories involve pleasant evenings with a glass of Rhine-wine in the Schlegels' home to strenuous back-packing in the Austrian Alps.     

Stachyose synthesis in mature leaves of Cucumis melo. Purification and characterization of stachyose synthase (EC 2.4.1.67)

Galactinol: raffinose-6-galactosyltransferase (EC 2.4.1.67), a stachyose synthase, was extracted from mature leaves of Cucumis melo cv. Ranjadew and was purified to homogeneity by (NH₄)₂SO₄ precipitation, ion-exchange chromatography, gel-filtration and non-denaturing polyacrylamide gel electrophoresis. A specific activity of 516 kat · mg^-1 and a 160-fold purification was achieved. The pH optimum of the enzyme reaction was found to be 6.8 in sodium-phosphate buffer, and the temperature optimum 32° C. The purified enzyme was very sensitive towards SH-poisons but its reaction was hardly affected by changes in the ion composition of the assay medium. The two-substrate enzyme was specific for galactinol and raffmose; uridine-diphosphate galactose and p-nitrophenyl--d-galactoside as well as melibiose were not accepted by the purified enzyme. Stachyose synthesis was competitively inhibited by concentrations >4 mM raffinose as well as 2.5 mM galactinol. The K _m values determined under non-saturating conditions were 3.3 mM for raffinose and 7.7 mM for galactinol. Myoinositol was a strong competitive inhibitor with a K _i of 1.8mM. Galactinol was hydrolyzed in the absence of raffinose with a K _m of 0.8 mM. The pure enzyme is a protein with a molecular weight of at least 95 kDa and an isoelectric point of 5.1. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed the presence of two subunits of 45 and 50 kDa. Polyclonal antibodies from rabbit were obtained which were specific for the native enzyme but cross-reacted with other proteins separated under denaturing conditions.Abbreviations DEAE diethylaminoethyl - DTT dithiothreitol - FPLC fast protein liquid chromatography - HPLC high-performance liquid chromatography - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate This work was supported by Deutsche Forschungsgemeinschaft. The gift of galactinol by Dr. T. Schweizer (Nestlé, Switzerland) is gratefully acknowledged.     

Purification and Properties of Catechol 1,2-Dioxygenase from Rhizobium leguminosarum biovar viceae USDA 2370

The catechol 1,2-dioxygenase of Rhizobium leguminosarum biovar viceae USDA 2370 was purified 296-fold, yielding a homogeneous preparation with a specific activity of 51.1 U mg of protein^-1. The molecular weight of the native protein was 70,000, with two identical subunits of 34,500 and 1 g-atom of iron per mol. The optimum pH for catalytic activity was 9.0 to 9.5.     

d-Ribulose 1,5-bisphosphate carboxylase and polyhedral inclusion bodies in Nitrosomonas spec

Polydedral inclusion bodies were isolated from exponentially grown cells of Nitrosomonas spec. The bodies contained d-ribulose, 1,5-bisphosphate carboxylase. The specific activity of the enzyme was 0.0122 mol CO₂ fixed per min per mg of protein.     

Characterization of urease from Sporosarcina ureae

Alkaline stable (pH 7.75–12.5) urease from Sporosarcina ureae was purified over 400-fold by ion exchange and hydrophobic interaction chromatography. The cytoplasmic enzyme was remarkably active with a specific activity of greater than 9300 μmol urea degraded min^-1 mg protein^-1 at pH 7.5, where it has optimal activity. Although S. ureae is closely related to Bacillus pasteurii, known to posses a homopolymeric urease containing 1 nickel per subunit [M _r=65000], the S. ureae enzyme is comprised of three subunits [apparent M _r=63100 (α), 14500 (β), and 8500 (γ)] in an estimated ∝βγ stoichiometry and contains 2.1±0.6 nickel ions per ∝βγ unit as measured by atomic absorption spectrometry. Stationary phase cultures sometimes possessed low levels of urease activity, but the specific activity of cell extracts of partially purified urease preparations from such cultures could be elevated by heat treatment, dilution, or dialysis to values comparable to those observed in samples from exponentially grown cells.     

Production of thermostable α-galactosidase from thermophilic fungusHumicola sp

The thermophilic fungus,Humicola sp isolated from soil, secreted extracellular -galactosidase in a medium cotaining wheat bran extract and yeast extract. Maximum enzyme production was found in a medium containing 5% wheat bran extract as a carbon source and 0.5% beef extract as a carbon and nitrogen source. Enzyme secretion was strongly inhibited by the presence of Cu²⁺, Ni²⁺ and Hg²⁺ (1mM) in the fermentation medium. Production of enzyme under stationary conditions resulted in 10-fold higher activity than under shaking conditions. The temperature range for production of the enzyme was 37° C to 55°C, with maximum activity (5.54 U ml^–1) at 45°C. Optimum pH and temperature for enzyme activity were 5.0 and 60° C respectively. One hundred per cent of the original activity was retained after heating the enzyme at 60°C for 1 h. At 5mM Hg²⁺ strongly inhibited enzyme activity. TheK _m andV _max forp-nitrophenyl--d-galactopyranoside were 60M and 33.6 mol min^–1 mg^–1, respectively, while for raffinose those values were 10.52 mM and 1.8 mol min^–1 mg^–1, respectively.     

Purification and characterization of membrane-bound hydrogenase from Methanosarcina barkeri MS

Hydrogenase was solubilized from the membrane of acetate-grown Methanosarcina barkeri MS and purification was carried out under aerobic conditions. The enzyme was reactivated under reducing conditions in the presence of H₂. The enzyme showed a maximal activity of 120±40 mol H₂ oxidized · min^–1 · min^–1 with methyl viologen as an electron acceptor, a maximal hydrogen production rate of 45±4 mol H₂ · min^–1 · mg^–1 with methyl viologen as electron donor, and an apparent K _m for hydrogen oxidation of 5.6±1.7 M. The molecular weight estimated by gel filtration was 98,000. SDS-PAGE showed the enzyme to consist of two polypeptides of 57,000 and 35,000 present in a 1:1 ratio. The native protein contained 8±2 mol Fe, 8±2 mol S^2–, and 0.5 mol Ni/mol enzyme. Cytochrome b was reduced by hydrogen in a solubilized membrane preparation. The hydrogenase did not couple with autologous F₄₂₀ or ferredoxin, nor with FAD, FMN, or NAD(P)⁺. The physiological function of the membrane-bound hydrogenase in hydrogen consumption is discussed.Abbreviation CoM-S-S-HTP the heterodisulfide of 7-mercaptoheptanoylthrconine phosphate and coenzyme M (mercaptoethanesulfonic acid)     

A fluoride-insensitive inorganic pyrophosphatase isolated from Methanothrix soehngenii

An inorganic pyrophosphatase [E.C. 3.6.1.1] was isolated from Methanothrix soehngenii. In three steps the enzyme was purified 400-fold to apparent homogeneity. The molecular mass estimated by gelfiltration was 139±7 kDa. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis indicated that the enzyme is composed of subunits with molecular masses of 35 and 33 kDa in an _{2 2} oligomeric structure. The enzyme catalyzed the hydrolysis of inorganic pyrophosphate, tri-and tetrapolyphosphate, but no activity was observed with a variety of other phosphate esters. The cation Mg²⁺ was required for activity. The pH optimum was 8 at 1 mM PP _i and 5 mM Mg²⁺. The enzyme was heat-stable, insensitive to molecular oxygen and not inhibited by fluoride. Analysis of the kinetic properties revealed an apparent K _m for PP _i of 0.1 mM in the presence of 5 mM Mg²⁺. The V _max was 590 mol of pyrophosphate hydrolyzed per min per mg protein, which corresponds to a K _cat of 1400 per second.The enzyme was found in the soluble enzyme fraction after ultracentrifugation, when cells were disrupted by French Press. Upto 5% of the pyrophosphatase was associated with the membrane fraction, when gentle lysis procedyre were applied.Abbreviation PMSF phenylmethylsulfonyl fluoride     

Uptake and release of63Ni2+ byXenopus embryos during early cleavage stages

Summary Uptake and release of⁶³Ni was studied in dejelliedXenopus laevis embryos exposed to⁶³Ni²⁺ (0.3–30 mol/1) for 0.5-h intervals during the period 1–4.5 h post-fertilization (i.e. from first cleavage to early blastula stage). At first cleavage, the mean uptake of⁶³Ni by embryos was 12-17 times that by non-fertilized eggs, suggesting that conversion of the vitelline envelope to the fertilization envelope enhanced integumental permeability to⁶³Ni²⁺. 63 Ni uptake by embryos at the 1-2-cell stage averaged 1.8–2.5 times that at the early blastula stage. An average of 5% of total⁶³Ni in washed embryos was recovered in isolated fertilization envelopes, indicating that⁶³Ni²⁺ passed through the envelope into internal compartments. Progressive increases of⁶³Ni uptake were seen with increasing exposure levels; after exposure during 1–1.5 h post-fertilization to the highest concentration of⁶³Ni²⁺ (30 mol/1),⁶³Ni uptake averaged 11.4 (SD±5.1) pmol/embryo. Rapid efflux of⁶³Ni was noted after⁶³Ni²⁺-exposed embryos were transferred to nickel-free medium; mean⁶³Ni contents at 0.25 h and 2 h post-exposure diminished to 50% and 15% of the initial values, regardless of the exposure level. The finding thatXenopus embryos are permeable to⁶³Ni²⁺ during early cleavage stages provides a convenient experimental system to investigate the embryotoxicity and teratogenicity of nickel.     

L-Phenylalanine ammonia-lyase fromPhaseolus vulgaris: Modulation of the levels of active enzyme bytrans-cinnamic acid

The extractable activity ofl-phenylalanine ammonia-lyase (PAL; EC 4.3.1.5) in cell suspension cultures of bean (Phaseolus vulgaris) is greatly induced following exposure to an elicitor preparation from the cell walls of the phytopathogenic fungusColletotrichum lindemuthianum. Following exogenous application oftrans-cinnamic acid (the product of the PAL reaction) to elicitor-induced cells, the activity of the enzyme rapidly declines. Loss of enzyme activity is accompanied by inhibition of the rate of synthesis of PAL subunits, as determined by [³⁵S]methionine pulse-labelling followed by specific immunoprecipitation; this is insufficient to account for the rapid loss of PAL enzyme activity. Pulse-chase and immune blotting experiments indicate that cinnamic acid does not affect the rate of degradation of enzyme subunits, but rather mediates inactivation of the enzyme. A non-dialysable factor from cinnamicacid-treated bean cells stimulates removal of PAL activity from enzyme extracts in vitro; this effect is dependent on the presence of cinnamic acid. Such loss of enzyme activity in vitro is accompanied by an apparent loss or reduction of the dehydroalanine residue of the enzyme's active site, as detected by active-site-specific tritiation, although levels of immunoprecipitable enzyme subunits do not decrease. Furthermore, cinnamic-acid-mediated loss of enzyme activity in vivo is accompanied, in pulse-chase experiments, by a greater relative loss of³⁵S-labelled enzyme subunits precipitated by an immobilised active-site affinity ligand than of subunits precipitated with anti-immunoglobulin G. It is therefore suggested that a possible mechanism for cinnamic-acid-mediated removal of PAL activity may involve modification of the dehydroalanine residue of the enzyme's active site.Abbreviations AOPP l--aminoxy--phenylpropionic acid - CA trans-cinnamic acid - PAGE polyacrylamide gel electrophoresis - PAL l-phenylalanine ammonia-lyase - SDS sodium dodecyl sulphate     

2-Hydroxyglutaryl-CoA dehydratase from Fusobacterium nucleatum (subsp. nucleatum): an iron-sulfur flavoprotein

Anaerobically prepared cell-free extracts from Fusobacterium nucleatum contain 2-hydroxyglutaryl-CoA dehydratase with a specific activity of 20 nkat mg^-1. The enzyme was purified 24-fold to a specific activity of 480 nkat mg^-1 by anion exchange chromatography, gel filtration and chromatography on Blue-Sepharose. The activity of the purified enzyme was strictly dependent on the reductant Ti(III)citrate and stimulated 25-fold by 0.15 mM ATP and 5 mM MgCl₂. ATP is hydrolysed to ADP during incubation with 2-hydroxyglutaryl-CoA dehydratase in the presence or absence of the substrate. The enzyme is extremely sensitive towards oxygen and is inhibited by 10 M chloramphenicol, 10 M 2,4-dinitrophenol or 0.15 mM hydroxylamine. The pure enzyme consists of three subunits (49 kDa), (39 kDa) and (24 kDa) in approximately equal amounts. In this respect the enzyme differs from the related 2-hydroxy-glutaryl-CoA dehydratase from Acidaminococcus fermentans and lactyl-CoA dehydratase from Clostridium propionicum both of which are composed of only two subunits with sizes comparable to those of and but require an additional protein for activity. The relative molecular mass of the native enzyme of about 100 kDa suggests a trimeric -structure. The homogeneous enzyme contains riboflavin (0.5 mol/112 kDa), iron and sulfur (3.5 mol/112 kDa each). Polyclonal antibodies directed against the 2-hydroxyglutaryl-CoA dehydratase from A. fermentans did not crossreact with cell free extracts or purified dehydratase from F. nucleatum. A comparison of the N-terminal amino acid sequences of the dehydratase subunits from A. fermentans and F. nucleatum, however, showed some similarities in the -subunits.Non-standard abbreviations DTT dithiothreitol - PAGE polyaccrylamide gel electrophoresis - VIS visible     

Adsorption and uptake of nickel in Methanothrix concilii

During growth of the aceticlastic methanogen Methanothrix concilii, ⁶³Ni was incorporated primarily into two soluble proteins, methylcoenzyme M reductase and carbon monoxide dehydrogenase. During short-term studies, an uptake system for nickel was present which saturated, with kinetic constants of apparent K _m=91 M and V _max=23 nmol/min·mg^-1 dry wt. Nickel specificity was demonstrated in competition studies, in which magnesium, calcium, or manganese had little influence on ⁶³Ni uptake; cobalt, however, did compete. Although the uptake of nickel was blocked by extreme temperatures (6°C or 100°C) and by air, the complete abolition of methanogenesis by various ionophores, N,N-dicyclohexylcarbodiimide, bromoethanesulfonate, or pre-treatment of the cells at 80°C, had little effect on uptake. The kinetic characteristics of short-term nickel uptake in cells could be reproduced in purified sheath preparations, indicating that the predominant mechanism for nickel uptake in short-term studies was an energy-independent, semi-specific cell-surface absorption.National Research Council publication No. 29033     

Purification and characterization of ferredoxin from Peptostreptococcus productus (strain Marburg)

Ferredoxin was purified to apparent homogeneity from cell extracts of the homoacetogen Peptostreptococcus productus (strain Marburg). The yield was 70 g ferredoxin per g wet cells of P. productus. The UV-vis spectrum exhibited characteristics of a typical clostridial ferredoxin spectrum with a molar extinction coefficient ₃₈₅ of 30000 M^-1 cm^-1 and an A₃₈₅/A₂₈₀ ratio of 0.76. The molecular weight M_r was near 5700 as calculated from the amino acid composition. The protein contained per mol 9.9 mol iron, 8.2 mol acid-labile sulfide, and near 7 mol cysteine indicating the presence of two 4 Fe/4 S clusters. The redox potential was determined to be-410 mV. The purified ferredoxin was reduced with carbon monoxide by the carbon monoxide dehydrogenase from crude extracts and by the partially enriched enzyme of P. productus.     

Siroheme sulfite reductase isolated from Chromatium vinosum. Purification and investigation of some of its molecular and catalytic properties

Cells of the phototrophic bacterium Chromatium vinosum strain D were shown to contain a siroheme sulfite reductase after autotrophic growth in a sulfide/bicarbonate medium. The enzyme could not be detected in cells grown heterotrophically in a malate/sulfate medium. Siroheme sulfite reductase was isolated from autotrophic cells and obtained in an about 80% pure preparation which was used to investigate some molecular and catalytic properties of the enzyme. It was shown to consist of two different types of subunits with molecular weights of 37,000 and 42,000, most probably arranged in an ₄₄-structure. The molecular weight of the native enzyme was determined to 280,000, 51 atoms of iron and 47 atoms of acid-labile sulfur were found per enzyme molecule. The absorption spectrum indicated siroheme as prosthetic group; it had maxima at 280 nm, 392 nm, 595 nm, and 724 nm. The molar extinction coefficients were determined as 302×10³ cm²xmmol^-1 at 392 nm, 98×10³ cm² xmmol^-1 at 595 nm and 22×10³ cm²x-mmol^-1 at 724 nm. With reduced viologen dyes as electron donor the enzyme reduced sulfite to sulfide, thiosulfate, and trithionate. The turnover number with 59 (2 e^-/enzyme moleculexmin) was low. The pH-optimum was at 6.0. C. vinosum sulfite reductase closely resembled the corresponding enzyme from Thiobacillus denitrificans and also desulfoviridin, the dismilatory sulfite reductase from Desulfovibrio species. It is proposed that C. vinosum catalyses anaerobic oxidation of sulfide and/or elemental sulfur to sulfite in the course of dissimilatory oxidation of reduced sulfur compounds to sulfate.Non-common abbreviations APS adenylyl sulfate - SDS sodium dodecyl sulfate     

d-(-)-Mandelic acid dehydrogenase from Lactobacillus curvatus

Summary Production, purification and characterization of the NAD(H)-dependent d-mandelate dehydrogenase from Lactobacillus curvatus was studied. An enzyme level of about 150 U/1 could be obtained by anaerobic cultivation in liquid broth. The specific enzyme activity in the crude extract was 1—3 U/mg. Purification by liquidliquid extraction and ion exchange chromatography led to a preparation of 2100 U/mg. The molecular weight of the enzyme was determined to be 60000 (gel filtration on Superose S12) containing two subunits of 30000. A variety of aliphatic and aromatic -keto acids are accepted as substrates by the mandelate dehydrogenase, for the substrate benzoylformate a Michaelis constant of 2·10^-4M was measured. Cu²⁺-ions and mercury compounds such as HgCl₂ or p-chloromercuribenzoate are strong inhibitors at concentrations of 0.1 mM. An unoptimized continuous conversion in an enzyme-membrane-reactor demonstrated that the enzyme could be applied for the stereospecific synthesis of d-mandelic acid.Abbreviations FDH formate dehydrogenase - PEG polyethylenglycol - SDS sodiumdodecylsulfate - MRS growth medium according to deMan, Rogosa and Sharpe (deMan et al. 1960)     

Site-directed mutagenesis of cysteine to threonine in Proteus vulgaris urease active site increases enzyme activity and stability

Cysteine-319 belongs to the flexible flap at the active site of Proteus vulgaris urease. Replacing this cysteine by threonine resulted in a 20-fold increase of specific activity. Temperature stability increased, susceptibility to inhibition by dipyridyl disulfide decreased, and pH optimum shifted from 8 to 6.9. K _m (35 to 12 mM) and V_max (47.4 to 1.8 mol min^–1) were substancially altered. Both variants of the enzyme were irreversibly inhibited by phenylmethanesulfonyl fluoride.     

Biochemical characterisation of extracellular phytase (myo-inositol hexakisphosphate phosphohydrolase) from a hyper-producing strain of Aspergillus niger van Teighem

Aspergillus niger van Teighem, isolated in our laboratory from samples of rotten wood logs, produced extracellular phytase having a high specific activity of 22,592 units (mg protein)^–1 . The enzyme was purified to near homogeneity using ion-exchange and gel-filtration chromatography. The molecular properties of the purified enzyme suggested the native phytase to be oligomeric, with a molecular weight of 353 kDa, the monomer being 66 kDa. The purified enzyme exhibited maximum activity at pH 2.5 and 52–55°C. The enzyme retained 97% activity after a 24-h incubation at 55°C in the presence of 10 mM glycine, while 87% activity was retained when no thermoprotectant was added. Phytase activity was not affected by most metal ions, inhibitors and organic solvents. Non-ionic and cationic detergents (0.1–5%) stabilise the enzyme, while the anionic detergent (SDS), even at a 0.1% level, severely inhibited enzyme activity. The chaotropic agents guanidinium hydrochloride, urea, and potassium iodide (0.5–8 M), significantly affected phytase activity. The maximum hydrolysis rate (V_max) and apparent Michaelis-Menten constant (K_m) were 1,074 IU/mL and 606 M, respectively, with a catalytic turnover number of 3×10⁵ s^–1 and catalytic efficiency of 3.69×10⁸ M^–1 s^–1.     

Nickel requirement in Chlorella emersonii

The dependence of growth on nickel supply was studied in Chlorella emersonii 211-8b. After transfer to Ni²⁺ deficient medium containing only 0.5±0.2 g/l of Ni²⁺, production of biomass or daughter cells dropped to 55±5% of the controls, and the cells became chlorotic. These symptoms of deficiency disappeared completely by supplying adequate amounts of nickel. They were, however, only partially reversible by cobalt. It is concluded that nickel is an essential micronutrient for C. emersonii, although this organism lacks the nickel enzyme, urease.Gratefully dedicated to Prof. Hans Adolf von Stosch on the occasion of his 70th birthday