Characterization of a Novel Type II Restriction-Modification System, Sth368I, Encoded by the Integrative Element ICESt1 of Streptococcus thermophilus CNRZ368

A novel type II restriction and modification (R-M) system, Sth368I, which confers resistance to ST84, was found in Streptococcus thermophilus CNRZ368 but not in the very closely related strain A054. Partial sequencing of the integrative conjugative element ICESt1, carried by S. thermophilus CNRZ368 but not by A054, revealed a divergent cluster of two genes, sth368IR and sth368IM. The protein sequence encoded by sth368IR is related to the type II endonucleases R.LlaKR2I and R.Sau3AI, which recognize and cleave the sequence 5′-GATC-3′. The protein sequence encoded by sth368IM is very similar to numerous type II 5-methylcytosine methyltransferases, including M.LlaKR2I and M.Sau3AI. Cell extracts of CNRZ368 but not A054 were found to cleave at the GATC site. Furthermore, the C residue of the sequence 5′-GATC-3′ was found to be methylated in CNRZ368 but not in A054. Cloning and integration of a copy of sth368IR and sth368IM in the A054 chromosome confers on this strain phenotypes similar to those of CNRZ368, i.e., phage resistance, endonuclease activity of cell extracts, and methylation of the sequence 5′-GATC-3′. Disruption of sth368IR removes resistance and restriction activity. We conclude that ICESt1 encodes an R-M system, Sth368I, which recognizes the sequence 5′-GATC-3′ and is related to the Sau3AI and LlaKR2I restriction systems.     

Purification and partial characterization ofd-(−)-lactate dehydrogenase fromLactobacillus helveticus CNRZ 32

Summary d-(–)-Lactate dehydrogenase (LDH) was purified to homogeneity from a cell-free extract ofLactobacillus helveticus CNRZ 32. The native enzyme was determined to have a molecular weight of 152 000 and consisted of four identical subunits of 38 000. This enzyme was NAD dependent fructose 1,6-diphosphate (FDP) and ATP independent. It was most active on pyruvate followed by -hydroxypyruvate as substrates. TheK _m values for pyruvate andd-(–)-lactate were 0.64 and 68.42 mM respectively, indicating that the enzyme has a higher affinity for pyruvate. The enzyme activity was completely inhibited byp-chloromercuribenzoate (1 mM) and partially by iodoacetate, suggesting the involvement of the sulfhydryl group (-SH) in catalysis. Optima for activity by the purified enzyme were pH 4.0 and 50–60°C. Limited inhibition ofd-(–)-LDH was observed with several divalent cations. Additionally, HgCl₂ was observed to strongly inhibit enzyme activity. The purified enzyme was not affected by dithiothreitol or any of the metal chelating agents examined.     

Characterization of a Cell Envelope-Associated Proteinase Activity from Streptococcus thermophilus H-Strains

The production and biochemical properties of cell envelope-associated proteinases from two strains of Streptococcus thermophilus (strains CNRZ 385 and CNRZ 703) were compared. No significant difference in proteinase activity was found for strain CNRZ 385 when cells were grown in skim milk medium and M17 broth. Strain CNRZ 703 exhibited a threefold-higher proteinase activity when cells were grown in low-heat skim milk medium than when grown in M17 broth. Forty-one percent of the total activity of CNRZ 385 was localized on the cell wall. The optimum pH for enzymatic activity at 37°C was around 7.0. Serine proteinase inhibitors, such as phenylmethylsulfonyl fluoride and diisopropylfluorophosphate, inhibited the enzyme activity in both strains. The divalents cations Ca²⁺, Mg²⁺, and Mn²⁺ were activators, while Zn²⁺ and Cu²⁺ were inhibitors. β-Casein was hydrolyzed more rapidly than α_s1-casein. The results of DNA hybridization and immunoblot studies suggested that the S. thermophilus cell wall proteinase and the lactococcal proteinase are not closely related.     

Michaelis constant (K m ) of acid phospatase as affected by montmorillonite,illite, and kaolinite clay minerals

The influence of Ca homoionic clay minerals (montmorillonite, illite, and kaolinite) on the activity,K _m , andV _m values of acid phosphatase was examined in model experiments. At each substrate (p-nitrophenyl phosphate) level tested, the addition of increasing amounts of clays (50, 100, and 150 mg, respectively) decreased the activity and increased theK _m value from 1.43×10^–3 m PNP (in the soluble state) to 82.3×10^–3M (montmorillonite), 8.02×10^–3 m (kaolinite), and 7.65×10^–3 m (illite) at the 150 mg level. The maximum enzyme reaction velocity (V _m ) remained nearly constant at different amounts of kaolinite and illite, but increased remarkably with rising quantities of montmorillonite. Apparently, the substrate affinity of sorbed acid phosphatase is significantly lower with montmorillonite than with kaolinite or illite. This may be ascribed to an intensive sorption of both substrate and enzyme to the surface as well as to interlattice sites of montmorillonite.     

Sth132I,a novel class-IIS restriction endonuclease of Streptococcus thermophilus ST132

The Sth132I restriction endonuclease (R.Sth132I) was detected in Streptococcus thermophilus ST132 and purified to near homogeneity by heparin Sepharose CL-6B affinity chromatography. Fragments from Sth132I digestion of plasmid DNA were subcloned into pUC19 in Escherichia coli DH5α and sequenced. Sequence analysis of inserts and their ligation junction sites revealed that Sth132I is a novel class-IIS restriction endonuclease, which recognizes the non-palindromic sequence5′-CCCG(N)₄-3′3′-GGGC(N)₈-5′.     

Argininosuccinate synthetase activity in cultured human lymphocytes

The activity of argininosuccinate synthetase (E.C. 6.3.4.5), a urea cycle enzyme, was measured in cultured human lymphocytes using a new radioactive assay. Control cells had a maximum specific activity of 15.7±8.7 nmoles per hour per milligram of protein and an apparent K _m for citrulline of 2 × 10^–4 m, whereas cells derived from a patient with citrullinemia had no detectable activity. A nutritional variant, selected out of the citrullinemic lymphocyte population by ability to grow in citrulline, had a maximum specific activity of 10.7±3.8 nmoles/hr/mg and an apparent K _m for citrulline of 2 × 10^–2 m. These measurements confirm the observation that citrullinemia is associated with a defect in argininosuccinate synthetase activity and provide further evidence that citrullinemia is expressed in cultured lymphocytes. The emergence of a nutritional variant with a partial defect in argininosuccinate synthetase enzyme suggests that this citrullinemic patient has a heterogeneous population of cells, some totally defective and others only partially defective in argininosuccinate synthetase. The new activity assay is described in detail.This research was supported by a National Institutes of Health Training Grant (5-TO1-GM-0071) and NIH Program Project Grant (2-PO1-GM-15419).     

Purification and characterization of a thermostable β-galactosidase with high transgalactosylation activity from Saccharopolyspora rectivirgula

We purified an extracellular thermostable -galactosidase of Saccharopolyspora rectivirgula strain V2-2, a thermophilic actinomycete, to homogeneity and characterized it to be a monomeric enzyme with a relative molecular mass of 145 000 and s°_20,w of 7.1 s. In addition to the hydrolytic activity of 1-O-substituted -d-galactopyranosides such as lactose [a Michaelis constant K _m=0.75 mm and molecular activity (k _cat)= 63.1 s^–1 at pH 7.2 and 55° C] and p-nitrophenyl -d-galactopyranoside (K _m=0.04 mm k _cat= 55.8 s^–1), the enzyme had a high transgalactosylation activity. The enzyme reacted with 1.75 m lactose at 70°C and pH 7.0 for 22 h to yield oligosaccharides in a maximum yield (other than lactose) of 41% (w/w). A general structure for the major transgalactosylic products could be expressed as (Gal)_c-Glc, where n is 1, 2, 3, and 4 with a glucose at a reducing terminal. These oligosaccharides could selectively promote the growth of the genus Bifidobacterium found in human intestines. S. rectivirgula -galactosidase was stable at pH 7.2 up to 60°C (for 4 h in the presence of 10 m MnCl₂) or 70°C (for 22 h in the presence of 1.75 m lactose and 10 m MnCl₂). Thus the enzyme is applicable to an immobilized enzyme system at high temperatures (60°C <) for efficient production of the oligosaccharides from lactose. Correspondence to: T. Nakayama     

6-Phosphogluconate dehydrogenase in cell free extracts of Escherichia coli K-12

Summary Investigations into the properties of 6-PG dehydrogenase in cell free extracts of Escherichia coli revealed a pH optimum at pH 9.5 with a sharp decline on both sides of the optimum. The addition of 1.0×10^-2 m MgCl₂ produced maximal activity, whereas higher concentrations caused inhibition. The K _m values were 2.5×10^-4 m for 6-phosphogluconate and 2.5×10^-5 m for NADP⁺ as substrate. The enzyme was extremely stable for at least 5 hours if stored at 4°C in Tris–NaCl–MgCl₂ buffer at pH 7.5. 6-PG dehydrogenase activity was shown to be proportional to cell free extract concentration over the range 0–0.3 mg protein. An assay method based on the new optimal conditions has been established and has been shown to be 33% more sensitive than a number of commonly used methods.Meinem hochverehrten Lehrer Herrn Professor A. Rippel zum 80. Geburtstage.     

Purification and characterization of mouse alcohol dehydrogenase from two inbred strains that differ in total liver enzyme activity

Alcohol dehydrogenase activity in mouse liver homogenate-supernatants is 1.7 times greater in the C57BL/10 strain than in the BALB/c strain, regardless of whether activity is expressed in units per gram liver, total liver, or milligram DNA. The K _m values for ethanol and NAD⁺, approximately 0.4 and 0.03mm, respectively, of enzyme purified from both strains are similar. Moreover, the K _i for NADH, 1 µm, the pH optimum for ethanol oxidation, 10.5, and the V _max for ethanol oxidation, 160 min^–1, for ADH from the C57BL/10 and BALB/c strains are similar. Therefore, the difference in ADH activity in the two strains cannot be due to differences in the catalytic properties of the enzyme. The electrophoretic and isoelectric focusing patterns and two-dimensional tryptic peptide maps of the purified enzyme from both strains are identical. Thus the amino acid sequences of enzyme from C57BL/10 and BALB/c mice must also be identical or very similar. The difference in ADH activity in the two strains is most likely the result of genetic differences in the content of ADH protein in liver.Supported by NIAAA Grant AA 04307.     

Allelic expression in intergeneric fox hybrids (Alopex lagopus × Vulpes vulpes). II. Erythrocyte glucose-6-phosphate dehydrogenase in arctic and silver foxes: Purification and properties

The functional properties of purified glucose-6-phosphate dehydrogenase (G6PD) from the erythrocytes of Arctic foxes (Alopex lagopus) and silver foxes (Vulpes vulpes) were investigated. It was found that pH optima for G6PD range from 8.15 to 8.25 in Arctic foxes and from 10.2 to 10.4 in silver foxes. For G6P, the estimated K _m values were 74×10^–6 m (at pH 8.2) and 166×10^–6 m (at pH 10.2) in Arctic foxes and 58×10^–6 m (at pH 10.2) and 40×10^–6 m (at pH 8.2) in silver foxes. The K _m values for NADP were estimated as 62×10^–6 m (at pH 8.2) and 86×10^–6 m (at pH 10.2) in the Arctic foxes and 15×10^–6 m (at pH 10.2) and 12×10^–6 m (at pH 8.2) in the silver foxes. It was found that Mg²⁺ ions exert a significant activating effect on G6PD in the Arctic fox and do not affect appreciably its activity in the silver fox. The experimental data indicate that slight differences in the electrophoretic mobility of G6PD are associated with considerable functional differences in this enzyme between the two fox species.     

Interactions of lanthanum with purified and intact cell acetylcholinesterase of electrophorus electricus

Summary The effects of lanthanum on the activity of purified preparations of acetylcholinesterase (AChE) from the electric organ ofE. electricus and on the activity of AChE in intact electro-plaques from the same species were studied. 0.1mm LaCl₃ produced an initial inhibition of purified AChE which was followed by a delayed activation of the enzyme. Upon pretreatment of purified enzyme with LaCl₃, initial activity was markedly increased. LaCl₃ exerted a marked, concentration-dependent inhibition of intact cell AChE.La³⁺ and Ca²⁺ appear to interact competitively. In the presence of both 10mm CaCl₂ and 0.1mm LaCl₃, the initial activity of purified AChE was increased at lower ACh concentrations and inhibited at ACh concentrations greater than 3 × 10^–4 m. Inhibition of intact cell enzyme by 0.1mm LaCl₃ was relieved by increasing the CaCl₂ concentration to 10mm at ACh concentrations less than 2 × 10^–4 m.The data were analyzed assuming Michaelis-Menten kinetics and interpreted with reference to the differential binding of divalent and trivalent cations to regulatory anionic sites which are separate and distinct from the anionic site of the active center of the enzyme.     

Cl− channels in basolateral renal medullary membranes: VII. Characterization of the intracellular anion binding sites

A unique property of basolateral membrane Cl^– channels from the mTAL is that the Cl^– concentration facing the intracellular aspects of these channels is a determinant of channel open time probability (P ₀ ). The K _1/2 for maximal activation of P ₀ by Cl^– facing intracellular domains of these channels is 10 mm Cl^–. The present experiments evaluated the nature of these Cl^–-interactive sites. First, we found that the impermeant anion isethionate, when exposed to intracellular Cl^– channel faces, could augment P ₀ with a K _1/2 in the range of 10 mm isethionate without affecting conductance (g _Cl, pS). Second, pretreatment of the solutions facing the intracellular aspects of the channels with either 1 mm phenylglyoxal (PGO), an arginine-specific reagent, or the lysine/terminal amine reagent trinitrobenzene sulfonic acid (TNBS, 1 mm), prevented the activation of P ₀ usually seen when the Cl^– concentration of solutions facing intracellular channel domains was raised from 2 to 50 mm. However, when the Cl^– channel activity was increased by first raising the Cl^– concentration bathing intracellular channel faces from 2 to 50 mm, subsequent addition of either PGO or TNBS to solutions bathing intracellular Cl^– channel faces had no effect on P ₀ . We conclude that the intracellular aspects of these Cl^– channels contain Cl^–-interactive loci (termed [Cl] _i ) which are accessible to impermeant anions in intracellular fluids and which contain arginineand lysine-rich domains which can be inactivated, at low ambient Cl^– or isethionate concentrations, by interactions with PGO or TNBS.We acknoeledge the able technical assistance of Anna Grace Stewart. Clementine M. Whitman provided her customary excellent secretarial assistance. This work was supported by Veteterans Administration Merit Review Grants to T. E.Andreoli and to W. B. Reeves. C. J. Winters is a Veterans Administration Associate Investigator.     

Biochemical and genetic characterization of kynurenine formamidase from Drosophila melanogaster

The molecular weight forms of kynurenine formamidase were studied both genetically and biochemically. Formamidase I (native molecular weight 60,000) was purified using (NH₄)₂SO₄ and pH fractionation, DEAE-cellulose chromatography at two different pH's, hydroxylapatite chromatography, and Sephadex G-100 gel filtration. Its subunit molecular weight, as determined by SDS gel electrophoresis, is 34,000, indicating that formamidase I is a dimer. Its K _m is 1.87×10^–3 m. Its isoelectric point is pH 5.3. Its amino acid composition is reported. Formamidase II (native molecular weight 31,000) was partially purified using techniques similar to those above. Its K _m is 2.31×10^–3 m. The response of formamidase activity to change in gene dosage was measured in segmental aneuploids generated in the second, third, and X chromosomes. Two separate chromosomal regions were identified which when present in extra dosage result in an elevation of the level of formamidase activity close to that predicted for the addition of a structural gene in a two-gene system. These tentative map positions were substantiated by demonstration that addition of one of the regions, 25A–27E, causes a 50% elevation in the relative amount of formamidase II. Addition of the other region, 91B–93F, causes a similar elevation in the relative amount of formamidase I. A model of the evolutionary origin of the two forms is presented, and the significance of these results to this model is discussed.This work was supported by USPHS Grant GM-21286.     

Purification and characterization of a new type of serine carboxypeptidase from<Emphasis Type="Italic"> Monascus purpureus</Emphasis>

Carboxypeptidase produced by Monascus purpureus IFO 4478 was purified to homogeneity. The purified enzyme is a heterodimer with a molecular mass of 132 kDa and consists of two subunits of 64 and 67 kDa. It is an acidic glycoprotein with an isoelectric point of 3.67 and 17.0% carbohydrate content. The optimum pH and temperature were 4.0 and 40 °C, respectively. The enzyme was stable between pH 2.0 and 8.0 at 37 °C for 1 h, and up to 50 °C at pH 5.0 for 15 min. The enzyme was strongly inhibited by piperastatin A, diisopropylfluoride phosphate (DFP), phenylmethylsulfonylfluoride (PMSF), and chymostatin, suggesting that it is a chymotrypsin-like serine carboxypeptidase. Monascus purpureus carboxypeptidase was also strongly inhibited by p-chloromercuribenzoic acid (PCMB) but not by ethylenediaminetetraacetic acid (EDTA) and 1,10-phenanthroline, indicating that it requires cysteine residue but not metal ions for activity. Benzyloxycarbonyl-l-tyrosyl-l-glutamic acid (Z-Tyr-Glu), among the substrates tested, was the best substrate of the enzyme. The K_m, V_max, K_cat, and K_cat/K_m values of the enzyme for Z-Tyr-Glu at pH 4.0 and 37 °C were 0.86 mM, 0.917 mM min^–1, 291 s^–1, and 339 mM^–1 s^–1, respectively.     

Purification and characterization of β-galactosidase from a strain of Bacillus coagulans

-Galactosidase from B. coagulans strain L4 is produced constitutively, has a mol. wt. of 4.3×10⁵ and an optimal temperature of 55°C. The optimal pH at 30°C is 6.0 whereas at 55°C it is 6.5. The energy of activation of enzyme activity is 41.9 kJ/mol (10 kcal/mol). No cations are required. The K_m with ONPG as substrate is 4.2–5.6mm and with lactose is 50mm. The K_i for inhibition by galactose is 11.7–13.4mm and for dextrose is 50mm. Galactose inhibited competitively while dextrose inhibited noncompetitively. The purified and unprotected enzyme is 70% destroyed in 30 min at 55°C whereas in the presence of 2 mg/ml of BSA 42% of the activity is destroyed in 30 min at 55°C. An overall purification of 75.3-fold was achieved.     

A Calcium-activated and nucleotide-sensitive nonselective cation channel in M-1 mouse cortical collecting duct cells

We recently reported that M-1 mouse cortical collecting duct cells show nonselective cation (NSC) channel activity (Proc. Natl. Acad. Sci. USA 89:10262–10266, 1992). In this study, we further characterize the M-1 NSC channel using single-channel current recordings in excised inside-out patches. The M-1 NSC channel does not discriminate between Na⁺, K⁺, Rb⁺, Cs⁺, and Li⁺. It has a linear I-V relation with a conductance of 22.7±0.5 pS (n=78) at room temperature. The P_cation/ P_anion ratio is about 60 and there is no measurable conductance for NMDG, Ca²⁺, Ba²⁺, and Mn²⁺. Cytoplasmic calcium activates the M-1 NSC channel at a threshold of 10^–6 m and depolarization increases channel activity (NP _o ). Cytoplasmic application of adenine nucleotides inhibits the M-1 NSC channel. At doses of 10^–4 m and 10^–3 m, ATP reduces NP _o by 23% and 69%, respectively.Furthermore, since ADP (10^–3 m) reduces NP _o by 93%, the inhibitory effect of adenine nucleotides is not dependent on the presence of a -phosphoryl group and therefore does not involve protein phosphorylation. The channel is not significantly affected by 8-Br-cGMP (10^–4 m) or by cGMP-dependent protein kinase (10^–7 m) in the presence of 8-Br-cGMP (10^–5 m) and ATP (10^–4 m). The NSC channel is not sensitive to amiloride (10^–4 m cytoplasmic and/or extracellular) but flufenamic acid (10^–4 m) produces a voltage-dependent block, reducing NP _o by 35% at depolarizing voltages and by 80% at hyperpolarizing voltages.We conclude that the NSC channel of M-1 mouse cortical collecting duct cells belongs to an emerging family of calcium-activated and nucleotide-sensitive nonselective cation channels. It does not contribute to amiloride-sensitive sodium absorption and is unlikely to be a major route for calcium entry. The channel is normally quiescent but may be activated under special physiological conditions, e.g., during volume regulation.The expert technical assistance of U. Fink and I. Doering-Hirsch is gratefully acknowledged. We thank A. Rabe and Dr. J. Disser for programming the computer software.This work was supported by a grant from the Deutsche Forschungsge-meinschaft (DFG grant Fr 233/9-1) and a grant from the National Institutes of Health (NIH grant DK-17433).     

Production,purification and characterization of an α-l-arabinofuranosidase from Bacteroides xylanolyticus X5-1

Cell-free extracts of L-arabinose- and d-xylose-grown cells of the mesophilic anaerobic bacterium Bacteroides xylanolyticus X5-1 contained high activities [2 units (U)/mg] of an -l-arabinofuranosidase (EC 3.2.1.55). The enzyme was also produced during growth on xylan, but not during growth on glucose or cellobiose. The enzyme was mainly extracellularly attached to the cell when the organism was grown on xylan and was not released into the medium. The enzyme was purified 41-fold to apparent homogeneity. The native enzyme had an apparent molecular mass of 364 kDa and was composed of six polypeptide subunits of 61 kDa. The enzyme displayed a pH optimum of 5.5–6.0, and a pH stability of 5.5–9.0. The temperature optimum was 50° C and the enzyme was stable up to 50° C. Thiol groups were essential for activity, but the enzyme activity was not dependent on divalent cations. The Michaelisconstant (K_m) and maximal reaction velocity (V_max) for p-nitrophenyl--l-arabinofuranoside were 0.5 mm and 155 U/mg protein, respectively. The enzyme was specific for the -linked arabinoside in the furanoside configuration. The enzyme displayed activity with arabinose-containing xylo-oligosaccharides with a polymerization degree of 2–5, but not with the polymeric substrates oat-spelt xylan or arabinogalactan. The enzyme belongs to the Streptomyces purpurascens-type of -l-arabinofuranosidase.     

Purification and some properties of an extracellular l-amino acid oxidase from Cellulomonas cellulans AM8 isolated from soil

Summary The soil isolate Cellulomonas cellulans AM8 produces an extracellular l-amino acid oxidase (L-AAO) with broad substrate specificity. The strain produced up to 0.35 unit (U)/ml of the extracellular L-AAO in a simple medium containing glycerol and yeast extract. The enzyme was easily purified up to 30 U/mg protein using Phenyl-Sepharose fast flow. The purified enzyme migrated as single band on sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) with a molecular mass of 55 kDa. On native PAGE the molecular mass was approx. 300 000 kDa, which may be due to aggregation. With the exception of glycine, proline, and threonine, all the amino acids normally constituting proteins were oxidized. The V _max values from 0.7 to 35.2 U/mg for aspartic acid and lysine, respectively, and the K _m values from 0.007 to 7.1 mm for cysteine and valine, respectively, were obtained at 25° C and pH 7.0 in oxygen-saturated solutions. The L-AAO had a pH optimum of 6.5–7.5. It was stable for several months at — 30° C and for some days at 35° C. Ferricyanide served as an electron acceptor with a V _max of 50 U/mg and K _m for 0.3 mm with phenylalanine as the substrate. Correspondence to: R. D. Schmid     

Pyrimidine biosynthesis in Serratia marcescens: Polypeptide interactions of three nonsequential enzymes

Orotidine-5-monophosphate pyrophosphorylase (OMPppase, E.C. 2.4.2.10) and orotidylate decarboxylase (OMPdecase, E.C. 4.1.1.23) were purified from Serratia marcescens HY. These enzymes required physical association for maximal catalytic activities and formed a fragile complex with dihydroorotase (DHOase, E.C. 3.5.2.3.). OMPppase reversibly lost 50% of its activity upon separation from DHOase. The kinetic characteristics of OMPppase were modified by this separation. In the presence of DHOase, the K _ms for PRPP and orotate were stoichiometric: 2.3×10^–6 m and 2.6×10^–6 m, respectively. Following separation, the K _ms were significantly different: 1.3 × 10^–6 m for PRPP and 4.1×10^–6 m for orotate. OMPppase and OMPdecase could be reversibly separated by acrylamide gel electrophoresis, but the separation was accompanied by a loss of catalytic efficiency for both enzymes. DHOase readily associated into multiple molecular forms and could not be purified. The DHOase-OMPppase-OMPdecase interactions demonstrate that a weakly aggregated, multifunctional enzyme complex participates in the biosynthesis of pyrimidine nucleotides in S. marcescens. This unique association of nonsequential biosynthetic enzymes may represent a larger complex which provides a channeling or regulatory unit.This work was supported by grants from the National Science Foundation (NSF GB 5811) and the Office of Naval Research (Nonr 4413). One of us (J.W.) was a National Science Foundation Graduate Fellow.     

Alkaline serine proteinase and lectin isolation from the culture fluid of Bacillus subtilis

Bacillus subtilis strain 316 M was found to produce extracellular alkaline serine proteinase and lectin. The characteristics of proteinase and lectin accumulation during the growth of the producer organism were found to be similar. The maxima of proteolytic and lectin activities were close and observed at 16 h and 14 h of B. subtilis 316 M batch cultivation, respectively. Alkaline serine proteinase was purified by ion exchange chromatography directly from the culture fluid. Proteinase (eluate) purified 40-fold possessed 60–90 units/ml of caseinolytic activity and 240–320 units/ml of elastolytic activity. Eluate obtained after enzyme sorption on the ion exchanger was used for lectin isolation followed by ammonium sulphate precipiration. Lectin purified 12.3-fold was shown to have a high carbohydrate specificity to N-glycolylneuraminic, N-acetylneuraminic, N-acetylmuramic and d-galacturonic acids with minimal inhibiting concentrations of 2.5–7.5 mm. *** DIRECT SUPPORT *** AG903053 00002