Germination properties as marker events characterizing later stages of Bacillus subtilis spore formation

At various stages during spore formation sporangia were shocked by cold treatment or with toluene, and the germination requirements of the prespores were examined. Up to 5 h after induction of sporulation (t5) germination was spontaneous; i.e., it occurred without any added germinants. After t5, during stages V and VI, the capacity for spontaneous germination diminished progressively, and the spores acquired a need for externally added germinants. At t6 this need was satisfied by either L-alanine or a mixture of KCl, glucose, and fructose. By t8, the latter response had disappeared. The spores germinated only with L-alanine, and the response was much slower. Experiments with chloramphenicol showed that the germination properties of the spores appearing between t6 and t8 were the expression of events in protein synthesis that had occurred before t5. Although the germination requirements developed at about the same time as heat resistance, they could be dissociated from heat resistance in wild-type and mutant cells. The germination properties of the developing spores are additional marker events characterizing the later stages of sporulation, as follows: (i) spontaneous germination (up to the end of stage IV); (ii) germination requirements that are satisfied by KCl-glucose-fructose or L-alanine (stage V); and (iii) slow germination response with L-alanine only (stage VI).     

Red-cell amino acid transport. Evidence for the presence of system ASC in mature human red blood cells.

The properties of Na+-dependent L-alanine transport in human erythrocytes were investigated using K+ as the Na+ substitute. Initial rates of Na+-dependent L-alanine uptake (0.2 mM extracellular amino acid) for erythrocytes from 22 donors ranged from 40 to 180 mumol/litre of cells per h at 37 degrees C. Amino acid uptake over the concentration range 0.1-8 mM was consistent with a single saturable component of Na+-dependent L-alanine transport. Apparent Km and Vmax. values at 37 and 5 degrees C measured in erythrocytes from the same donor were 0.27 and 0.085 mM respectively, and 270 and 8.5 mumol/litre of cells per h respectively. The transporter responsible for this uptake was identified as system ASC on the basis of cross-inhibition studies with a series of 42 amino acids and amino acid analogues. Apparent Ki values for glycine, L-alpha-amino-n-butyrate, L-serine and L-leucine as inhibitors of Na+-dependent L-alanine uptake at 37 degrees C were 4.2, 0.12, 0.16 and 0.70 mM respectively. Reticulocytes from a patient with inherited pyruvate kinase deficiency were found to have a 10-fold elevated activity of Na+-dependent L-alanine uptake compared with erythrocytes from normal donors. Separation of erythrocytes according to cell density (cell age) established that even the oldest mature erythrocytes retained significant Na+-dependent L-alanine transport activity. Amino acid transport was, however, a more sensitive indicator of cell age than acetylcholinesterase activity. Erythrocytes were found to accumulate L-alanine against its concentration gradient (distribution ratio approx. 1.5 after 4 h incubation), an effect that was abolished in Na+-free media. Na+-dependent L-alanine uptake was shown to be associated with L-alanine-dependent Na+ influx, the measured coupling ratio being 1:1.     

A gene (sleB) encoding a spore cortex-lytic enzyme from Bacillus subtilis and response of the enzyme to L-alanine-mediated germination.

The Bacillus subtilis sleB gene, which codes for the enzyme homologous to the germination-specific amidase from Bacillus cereus, was cloned and its nucleotide sequence was determined. Sequence analysis showed that it had an open reading frame of 918 bp, coding for a polypeptide of 305 amino acids with a putative signal sequence of 29 residues. Enzyme activity was not found in germination exudate of B. subtilis spores, which differs from the case of B. cereus enzyme. A B. subtilis mutant with an insertionally inactivated sleB gene revealed normal behavior in growth and sporulation. However, the sleB mutant was unable to complete germination mediated by L-alanine.     

苏云金芽孢杆菌gerA操纵子在芽孢萌发中的作用

芽孢萌发的营养诱导剂通过与特异的萌发受体结合激活下游的萌发过程,从而使芽孢经过一系列的遗传变化及生化反应恢复营养生长.从苏云金芽孢杆菌(Bacillus thuringiensis)中克隆到一个与枯草芽孢杆菌(Bacillus subtilis)gerA操纵子和蜡状芽孢杆菌(Bacillus cereus)gerR操纵子同源的gerA操纵子.苏云金芽孢杆菌gerA操纵子含有3个开放读码框:gerAA、gerAC和gerAB,该操纵子在产孢起始3个小时后开始转录.gerA的破坏阻断了L-丙氨酸诱导的芽孢萌发并且延迟了肌苷诱导的萌发.在L-丙氨酸诱导芽孢萌发的过程中D-环丝氨酸能够提高芽孢的萌发率.     

Kinetic and crystallographic studies of Escherichia coli UDP-N-acetylmuramate:L-alanine ligase.

Uridine diphosphate-N-acetylmuramate:L-alanine ligase (EC 6.3.2.8, UNAM:L-Ala ligase or MurC gene product) catalyzes the ATP-dependent ligation of the first amino acid to the sugar moiety of the peptidoglycan precursor. This is an essential step in cell wall biosynthesis for both gram-positive and gram-negative bacteria. Optimal assay conditions for initial velocity studies have been established. Steady-state assays were carried out to determine the effect of various parameters on enzyme activity. Factors studies included: cation specificity, ionic strength, buffer composition and pH. At 37 degrees C and pH 8.0, kcat was equal to 980 +/- 40 min-1, while K(m) values for ATP, UNAM, and L-alanine were, 130 +/- 10, 44 +/- 3, and 48 +/- 6 microM, respectively. Of the metals tested only Mn, Mg, and Co were able to support activity. Sodium chloride, potassium chloride, ammonium chloride, and ammonium sulfate had no effect on activity up to 75 mM levels. The enzyme, in appropriate buffer, was stable enough to be assayed over the pH range of 5.6 to 10.1. pH profiles of Vmax/K(m) for the three substrates and of Vmax were obtained. Crystallization experiments with the enzyme produced two crystal forms. One of these has been characterized by X-ray diffraction as monoclinic, space group C2, with cell dimensions a = 189.6, b = 92.1, c = 75.2 A, beta = 105 degrees, and two 54 kDa molecules per asymmetric unit. It was discovered that the enzyme will hydrolyze ATP in the absence of L-alanine. This L-alanine independent activity is dependent upon the concentrations of both ATP and UNAM; kcat for this activity is less than 4% of the biosynthetic activity measured in the presence of saturating levels of L-alanine. Numerous L-alanine analogs tested were shown to stimulate ATP hydrolysis. A number of these L-alanine analogs produced novel products as accessed by HPLC and mass spectral analysis. All of the L-alanine analogs tested as inhibitors were competitive versus L-alanine.     

L-丙氨酸对海南粗榧悬浮细胞合成三尖杉酯类碱的影响

该研究在海南粗榧悬浮细胞培养的不同阶段(5、10、15、20 d),分别添加不同剂量的L-丙氨酸(10、30、50、100 mg·L~(-1)),测定细胞生长、细胞活力及产物含量,确定L-丙氨酸最佳的添加时间及添加剂量。结果表明:添加L-丙氨酸对细胞生长和细胞活力均有抑制作用;在海南粗榧悬浮培养第15天、添加30 mg·L~(-1)L-丙氨酸时,产物含量最高(4.853 6 mg·L~(-1)),是对照(2.853 8 mg·L~(-1))的1.7倍。同时,为了探讨添加L-丙氨酸对海南粗榧悬浮细胞糖代谢的影响,对培养基糖耗程度、细胞内糖酵解途径(glycolytic pathway,EMP途径)关键酶丙酮酸激酶(Pyruvate kinase,PK)活力、磷酸戊糖途径(hexose monophosphate pathway,HMP途径)关键酶6-磷酸葡萄糖脱氢酶(glucose 6-phosphate dehydrogenase,G6PDH)活力进行了测定,结果显示添加L-丙氨酸后,植物细胞培养液中总耗糖速度与对照相比无明显差异,丙酮酸激酶(PK)活力与对照(25.37 U·g~(-1))相比下降了29.10%,G6DPH活力是对照组(53.49 U·g~(-1))的1.33倍。以上结果说明,糖代谢途径中碳通量在一定程度上由EMP途径转向了HMP途径,三尖杉酯类碱合成的前体物PEP积累,E4P合成量增加,均有利于产物三尖杉酯类碱含量的增加。     

Characterization of LytH,a differentiation-associated peptidoglycan hydrolase of Bacillus subtilis involved in endospore cortex maturation

The cortex peptidoglycan from endospores of Bacillus subtilis is responsible for the maintenance of dormancy. LytH (YunA) has been identified as a novel sporulation-specific component with a role in cortex structure determination. The lytH gene was expressed only during sporulation, under the control of the mother cell-specific sigma factor sigma(K). Spores of a lytH mutant have slightly reduced heat resistance and altered staining when viewed by electron microscopy. Analysis of the peptidoglycan structure of lytH mutant spores shows the loss of muramic acid residues substituted with L-alanine and a corresponding increase in muramic acid residues substituted with tetrapeptide compared to those in the parent strain. In a lytH cwlD mutant, the lack of muramic acid residues substituted with L-alanine and delta-lactam leaves 97% of residues substituted with tetrapeptide. These results suggest that lytH encodes an L-Ala-D-Glu peptidase involved in production of single L-alanine side chains from tetrapeptides in the spore cortex. The lack of di- or tripeptides in a lytH mutant reveals the enzyme is an endopeptidase.     

Role of L-alanine: 4,5-dioxovalerate transaminase in chlorophyll synthesis in Bajra (Pennisetum typhoideum) seedlings

L-alanine:4,5-dioxovalerate transaminase activity and chlorophyll levels were estimated in lead and mercury treated Bajra seedlings. The enzyme activity increased with age upto 2nd day of germination and decreased on consequent days, where as the chlorophyll content increased with age upto 4th day and remained constant on day 5. Both the metals have no effect on L-alanine: 4,5-dioxovalerate transaminase activity but reduced chlorophyll levels. In vitro incubation of the enzyme with metal solutions showed that the enzyme activity was inhibited by mercury, while lead had no effect. Studies on sub-cellular localization of the L-alanine:4,5-dioxovalerate transaminase showed that it is present in all fractions. The non-correlation between L-alanine: 4,5-dioxovalerate transaminase activity and chlorophyll synthesis is evident from different activity profiles with age and response to heavy metal treatment in the seedlings. Hence, our results suggest the non-involvement of L-alanine:4,5-dioxovalerate transaminase in chlorophyll synthesis in bajra seedlings.     

Effects of L-alanine on membrane potential, potassium (86Rb) permeability and cell volume in hepatocytes from Raja erinacea

Isolated hepatocytes from the elasmobranch Raja erinacea were examined for their regulatory responses to a solute load following electrogenic uptake of L-alanine. The transmembrane potential (Vm) was measured with glass microelectrodes filled with 0.5 M KCl (75 to 208 M omega in elasmobranch Ringer's solution) and averaged -61 +/- 16 mV (S.D.; n = 68). L-Alanine decreased (depolarized) Vm by 7 +/- 3 and 18 +/- 2 mV at concentrations of 1 and 10 mM, respectively. Vm did not repolarize to control values during the 5-10 min impalements, unless the amino acid was washed away from the hepatocytes. The depolarizing effect of L-alanine was dependent on external Na+, and was specific for the L-isomer of alanine, as D- and beta-alanine had no effect. Hepatocyte Vm also depolarized on addition of KCN or ouabain, or when external K+ was increased. Rates of 86Rb+ uptake and efflux were measured to assess the effects of L-alanine on Na+/K+-ATPase activity and K+ permeability, respectively. Greater than 80% of the 86Rb+ uptake was inhibited by 2 mM ouabain, or by substitution of choline+ for Na+ in the incubation media. L-Alanine (10 mM) increased 86Rb+ uptake by 18-49%, consistent with an increase in Na+/K+ pump activity, but had no effect on rubidium efflux. L-Alanine, at concentrations up to 20 mM, also had no measurable effect on cell volume as determined by 3H2O and [14C]inulin distribution. These results indicate that Na+-coupled uptake of L-alanine by skate hepatocytes is rheogenic, as previously observed in other cell systems. However, in contrast to mammalian hepatocytes, Vm does not repolarize for at least 10 min after the administration of L-alanine, and changes in cell volume and potassium permeability are also not observed.     

The GerW Protein Is Not Involved in the Germination of Spores of Bacillus Species

Germination of dormant spores of Bacillus species is initiated when nutrient germinants bind to germinant receptors in spores’ inner membrane and this interaction triggers the release of dipicolinic acid and cations from the spore core and their replacement by water. Bacillus subtilis spores contain three functional germinant receptors encoded by the gerA, gerB, and gerK operons. The GerA germinant receptor alone triggers germination with L-valine or L-alanine, and the GerB and GerK germinant receptors together trigger germination with a mixture of L-asparagine, D-glucose, D-fructose and KCl (AGFK). Recently, it was reported that the B. subtilis gerW gene is expressed only during sporulation in developing spores, and that GerW is essential for L-alanine germination of B. subtilis spores but not for germination with AGFK. However, we now find that loss of the B. subtilis gerW gene had no significant effects on: i) rates of spore germination with L-alanine; ii) spores’ levels of germination proteins including GerA germinant receptor subunits; iii) AGFK germination; iv) spore germination by germinant receptor-independent pathways; and v) outgrowth of germinated spores. Studies in Bacillus megaterium did find that gerW was expressed in the developing spore during sporulation, and in a temperature-dependent manner. However, disruption of gerW again had no effect on the germination of B. megaterium spores, whether germination was triggered via germinant receptor-dependent or germinant receptor-independent pathways.     

基于微生物同化作用的D-丙氨酸生产工艺研究

以L-丙氨酸为唯一碳氮源,从采集的若干土壤中初筛出能够降解L-丙氨酸的菌株;再以D-丙氨酸为唯一碳氮源,复筛出降解L-丙氨酸而不降解D-丙氨酸的菌株。依据菌种对DL-丙氨酸的不对称降解活性,筛选出具有最高的L-丙氨酸降解活性的菌株,并对菌株同化L-丙氨酸的反应条件进行了研究。结果表明:编号为ALA-D82的菌株具有最高的降解L-丙氨酸的能力,经鉴定为酵母菌属。在30℃,控制pH6.0,通气比1:1(V/V)和转速900 r.min-1的条件下,L-丙氨酸降解的速度最大。在最适条件下,1500 g DL-丙氨酸分两部分添加入7 L的反应液中。反应72 h后溶液中的L-丙氨酸被完全降解,提取得到D-丙氨酸晶体,产率和光学纯度分别达到92.13%和99%。     

Characterization of chicken liver L-alanine:4,5-dioxovaleric acid aminotransferase

1. A procedure is described for purifying the enzyme L-alanine:4,5-dioxovaleric acid aminotransferase (DOVA transaminase) from chicken liver. The enzyme catalyzes a transamination reaction between L-alanine and 4,5-dioxovaleric acid (DOVA), yielding delta-aminolevulinic acid (ALA). 2. In cell fractionation studies, DOVA transaminase activities were detected in mitochondria and in the post-mitochondrial supernatant fraction from liver homogenates. 3. For the mitochondrial enzyme, any of most L-amino acids could serve as a source for the amino group transferred to DOVA, but L-alanine appeared the preferred substrate. At pH 7.0, the enzyme had an apparent Km of 60 microM for DOVA and of 400 microM for L-alanine. 4. The enzyme was purified from disrupted mitoplasts in three steps: chromatography on DEAE-Sephacel, gel filtration through Sephadex G-150, and chromatography on hydroxyapatite. The yield was approx. 100 micrograms of enzyme protein per 10 g wet wt of liver. 5. The purified enzyme had a subunit mol. wt of 63,000 as determined by gel electrophoresis under denaturing conditions. 6. The activity of DOVA transaminase was also measured in embryonic chicken liver, and based on activity, the enzyme's capacity to produce ALA was significantly greater than that of ALA synthase. Unlike ALA synthase, however, DOVA transaminase activity did not increase in liver mitochondria of chicken embryos exposed for 18 hr to two potent porphyrogenic agents.     

GerN, an antiporter homologue important in germination of Bacillus cereus endospores

A homologue of the grmA spore germination gene of Bacillus megaterium and of a NaH-antiporter gene (napA) of Enterococcus hirae has been identified in Bacillus cereus 569 (ATCC 10876). The putative protein product has 58 and 43% amino acid identity with GrmA and NapA, respectively. Insertional inactivation of this B. cereus gene, named gerN, did not affect vegetative growth or sporulation. The null mutant spores were 30-fold slower to germinate in inosine (5 mM) but germinated almost normally in response to L-alanine (10 mM). The null mutant spores germinated after several hours with inosine as the sole germinant, but germination was asynchronous and the normal order of germination events was perturbed. At a suboptimal germinant concentration (50 microM), inosine germination was completely blocked in the mutant, while the rate of germination in 50 microM L-alanine was reduced to one-third of that of the wild type. The requirement for GerN function in the response to a particular germinant suggests that a germination receptor may have a specifically associated antiporter, which is required at the initiation of germination and which, in the case of the inosine receptor, is GerN. Since germination in suboptimal concentrations of L-alanine shows a delay, additional germination transporters may be required for optimal response at low germinant concentrations.     

Effect of culture conditions on growth and sporulation ofBacillus thuringiensis subsp.israelensis and development of media for production of the protein crystal endotoxin

Summary The influence of medium composition on the inoculum and production stages of theBacillus thuringiensis subsp.israelensis bioinsecticide fermentation was investigated. Media which inhibited sporulation were selected for inoculum development stages. Bioinsecticide production media were designed to produce high cell counts and >90% sporulation in a 48h fermentation. Maximum insecticidal activity occurred at the point of maximum bacterial cell lysis/spore release. A process involving two inoculum stages and a 48h production stage in a 40 l fermenter yielded a viable cell count of 6.5 x 10⁹/ml with greater than 95% sporulation. Good correlation existed between spore counts and bioinsecticide activity.     

Effects of glucosamine on lysis, glycerol formation, and sporulation in Myxococcus xanthus.

Glucosamine (GlcN), which has previously been shown to rescue fruiting body formation, lysis, and sporulation in a developmental mutant (G. Janssen and M. Dworkin, Dev. Biol. 112:194-202, 1985), induced lysis in vegetative and developing wild-type cells and inhibited fruiting body formation. It also resulted in a transient, intracellular increase in the concentration of glycerol, a known sporulation inducer, and sporulation of the surviving cells. Phospholipase activity, which was shown to be normally developmentally regulated, increased 7.6-fold after treatment of vegetative cells with 50 mM GlcN. Likewise, autocidal activity, which normally increased 18 to 24 h after the initiation of development, increased 20% when vegetative or developing cells were exposed to GlcN. Two mutants resistant to GlcN-induced lysis (MD1021 and MD1022) were isolated and showed neither an increase in autocide production nor an increase in phospholipase activity in response to added GlcN. MD1021 was developmentally deficient, and GlcN rescued fruiting body formation as well as phospholipase activity and autocide production. We propose that GlcN exerts its lytic effect by regulating the activity of phospholipase enzymes that release autocides, compounds that are believed to be responsible for developmental autolysis. GlcN-induced sporulation was found to depend on several factors: the initial cell density, the amount of lysis induced by GlcN, and the presence of tan-phase variants. An initial cell density of greater than 2 x 10(5) cells per ml was required to support GlcN-induced sporulation, and sporulation did not occur unless 50 to 75% of these cells had lysed. Mutants that were resistant to GlcN-induced lysis also did not sporulate in the presence of GlcN. The effects of GlcN on developing cells depended on the concentration of GlcN added; the addition of low concentrations of GlcN resulted in enhancement of sporulation, while higher concentrations resulted in the inhibition of sporulation. The ultrastructure of GlcN-induced spores resembled that of spores induced by the exogenous addition of glycerol, in contrast to spores isolated from mature fruiting bodies. A model by which GlcN may regulate both lysis and sporulation is presented.     

Purification and properties of L-alanine dehydrogenase of the phototrophic bacterium Rhodobacter capsulatus E1F1.

In the phototrophic nonsulfur bacterium Rhodobacter capsulatus E1F1, L-alanine dehydrogenase aminating activity functions as an alternative route for ammonia assimilation when glutamine synthetase is inactivated. L-Alanine dehydrogenase deaminating activity participates in the supply of organic carbon to cells growing on L-alanine as the sole carbon source. L-Alanine dehydrogenase is induced in cells growing on pyruvate plus nitrate, pyruvate plus ammonia, or L-alanine under both light-anaerobic and dark-heterotrophic conditions. The enzyme has been purified to electrophoretic and immunological homogeneity by using affinity chromatography with Red-120 agarose. The native enzyme was an oligomeric protein of 246 kilodaltons (kDa) which consisted of six identical subunits of 42 kDa each, had a Stokes' radius of 5.8 nm, an s20.w of 10.1 S, a D20,w of 4.25 x 10(-11) m2 s-1, and a frictional quotient of 1.35. The aminating activity was absolutely specific for NADPH, whereas deaminating activity was strictly NAD dependent, with apparent Kms of 0.25 (NADPH), 0.15 (NAD+), 1.25 (L-alanine), 0.13 (pyruvate), and 16 (ammonium) mM. The enzyme was inhibited in vitro by pyruvate or L-alanine and had two sulfhydryl groups per subunit which were essential for both aminating and deaminating activities.     

Characterization of a novel variant of amino acid transport system asc in erythrocytes from Przewalski's horse (Equus przewalskii).

In thoroughbred horses, red blood cell amino acid transport activity is Na(+)-independent and controlled by three codominant genetic alleles (h, l, s), coding for high-affinity system asc1 (L-alanine apparent Km for influx at 37 degrees C congruent to 0.35 mM), low-affinity system asc2 (L-alanine Km congruent to 14 mM), and transport deficiency, respectively. The present study investigated amino acid transport mechanisms in red cells from four wild species: Przewalski's horse (Equus przewalskii), Hartmann's zebra (Zebra hartmannae), Grevy's zebra (Zebra grevyi), and onager (Equus hemonius). Red blood cell samples from different Przewalski's horses exhibited uniformly high rates of L-alanine uptake, mediated by a high-affinity asc1-type transport system. Mean apparent Km and Vmax values (+/- SE) for L-alanine influx at 37 degrees C in red cells from 10 individual animals were 0.373 +/- 0.068 mM and 2.27 +/- 0.11 mmol (L cells.h), respectively. As in thoroughbreds, the Przewalski's horse transporter interacted with dibasic as well as neutral amino acids. However, the Przewalski asc1 isoform transported L-lysine with a substantially (6.4-fold) higher apparent affinity than its thoroughbred counterpart (Km for influx 1.4 mM at 37 degrees C) and was also less prone to trans-stimulation effects. The novel high apparent affinity of the Przewalski's horse transporter for L-lysine provides additional key evidence of functional and possible structural similarities between asc and the classical Na(+)-dependent system ASC and between these systems and the Na(+)-independent dibasic amino acid transport system y+. Unlike Przewalski's horse, zebra red cells were polymorphic with respect to L-alanine transport activity, showing high-affinity or low-affinity saturable mechanisms of L-alanine uptake. Onager red cells transported this amino acid with intermediate affinity (apparent Km for influx 3.0 mM at 37 degrees C). Radiation inactivation analysis was used to estimate the target size of system asc in red cells from Przewalski's horse. The transporter's in situ apparent molecular weight was 158,000 +/- 2500 (SE).     

Lytic enzymes in sporulating Bacillus subtilis

Two specific lytic enzymes were found in sporulating $\text{B. subtilis}$ cells: a N-acetyl muramyl L-alanine amidase and a $\text{γ-D-glutamyl-(L)}\text{meso}$ diaminopimelyl endopeptidase. Both enzyme activities were measured using radioactive synthetic substrates. They are low in vegetative cells and increase during sporulation. The highest rates of increase are concomitant with cortex formation. In a mutant with delayed sporulation enzyme synthesis is also delayed. We suggest that both enzymes play a role in the synthesis of the specific cortex peptidoglycan.     

The effect of carboxylates and halides on L-lysine 6-aminotransferase-catalyzed reactions

L-Lysine:2-oxoglutarate 6-aminotransferase catalyzes very slow transamination between L-alanine and 2-oxoglutarate. A high concentration of anions such as formate, acetate and halides greatly accelerated this transamination without affecting the affinity of the enzyme for L-alanine. In contrast, the anions strongly inhibited the normal L-lysine 6-transamination in a competitive manner with L-lysine and in a non-competitive manner with 2-oxoglutarate. This result suggests that the enzyme has an anion binding site which normally binds the carboxyl group of L-lysine. The binding of halides or carboxylates to this site probably induces a conformational change of the enzyme, and results in the inhibition of L-lysine 6-transamination, and in the stimulation of L-alanine transamination. Treatment of the enzyme with an arginine-specific dicarbonyl reagent, phenylglyoxal, led to a loss of the enzyme activity for L-lysine. The activity for L-alanine was not affected, but the stimulating effect of anions on L-alanine transamination was impaired. Thus, it is suggested that an arginine residue(s) plays an important role in the anion binding site.