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.     

Na−K−2Cl cotransport in winter flounder intestine and bovine kidney outer medulla: [3H] bumetanide binding and effects of furosemide analogues

Summary The effects of several sulfamoyl benzoic acid derivatives on Na–K–Cl cotransport were investigated in winter flounder intestine. The relative efficacy (IC₅₀ values) and order of potency of these derivatives were benzmetanide, 5×10^–8 m> bumetanide 3×10^–7 m>piretanide 3×10^–6 m>furosemide 7×10^–6 m> amino piretanide 1×10^–5 3-amino-4-penoxy-5-sulfamoyl benzoic acid. Binding of [³H] bumetanide was studied in microsomal membranes from winter flounder intestine and compared to that in bovine kidney outer medulla. Binding was also studied in brush-border membranes from winter flounder intestine. The estimated values forK _d and number of binding sites (n) were: bovine kidney,K _d =1.6×10^–7,n=10.5 pmol/mg protein; winter flounder intestine,K _d 1.2×10^–7,n=7.3 pmol/mg protein, and brush-border membranes from winter flounder,K _d =5.3×10^–7,n=20.4 pmol/mg protein. The estimatedK _d for bumetamide binding to winter flounder brush-border membranes derived from association and dissociation kinetics was 6.8×10^–7 m. The similarity in magnitudes of IC₅₀ andK _d for bumetanide suggests that the brush-border cotransporter is ordinarily rate-limiting for transmural salt absorption and that bumetanide specifically binds to the cotransporter. Measurement of bumetanide binding at various concentrations of Na, K and Cl showed that optimal binding required all three ions to be present at about 5mm concentrations. Higher Na and K concentrations did not diminish binding but higher Cl concentrations (up to 100mm Cl) inhibited bumetanide binding by as much as 50%. Still higher Cl concentrations (500 and 900mm) did not further inhibit bumetanide binding. Scatchard analysis of bumetanide binding at 5 and 100mm Cl concentrations showed that bothK _d andn were lower at the higher Cl concentration (5mm Cl:K _d =5.29×10^–7 m,n=20.4 pmol/mg protein; 100mm Cl:K _d =2.3×10^–7 m,n=8.8 pmol/mg protein). These data suggest two possibilities: that bumetanide and Cl binding are not mutually exclusive (in contrast to pure competitive inhibition) and that they each bind to separate sites or that two distinct bumetanide binding sites exist, only one of which exhibits Cl inhibition of binding. This inhibition would then be consistent with a competitive interaction with Cl.     

Properties of fructose-1,6-diphosphate phosphatase and fructose-1,6-diphosphate aldolase fromPseudomonas putida

The fructose-1,6-P₂ (FDP) phosphatase, (FDPase) and FDP aldolase fromPseudomonas putida were partially purified by a combination of (NH₄)₂SO₄ fractionation and DEAE-Sephadex column chromatography. Michaelis-Menten kinetics were observed with, respect to FDP in both FDPase and FDP aldolase. TheK _m for FDP at pH 8.0 was 1.2×10⁻⁵M for FDPase and 3.0×10⁻⁵M for FDP aldolase. The specific activities of these two enzymes (assayed under optimal conditions in cell-free extracts ofP. putida grown ond-fructose), as well as their kinetic properties, are consistent with the suggestion that during growth ond-fructose most, of the FDP generated is converted to fructose-6-P (F-6-P), which is subsequently utilized via the Entner-Doudoroff pathway (EDP).     

Hormonal control of FAT cells adenylate cyclase

Summary Fat cells were preincubated for 2 h in the presence and absence of growth hormone (GH) and Dexamethasone (Dex) before the addition of increasing concentrations of either epinephrine, theophylline or glucagon and final incubation of the cells for an additional 5 minutes. GH and Dex increased by 85%, 28% and 72%, respectively, the cAMP levels reached in the sole presence of 10^–5 m epinephrine, 10^–2 m theophylline or 5 × 10^–5 m glucagon. An adenylate cyclase particulate preparation shows that epinephrine decreases Km from 2mm to 0.6mm and increases V_max and the strength of interaction value (n) from 0.91 to 1.75.     

Dissociation of cellular K+ accumulation from net Na+ transport by toad urinary bladder

Summary A number of published data suggest a variable stoichiometry between the rates of cellular potassium uptake and net sodium transport (J _Na) across the urinary bladder of the toad. This problem was examined by simultaneously studying the intracellular chemical activity of potassium (a _K) with open-tip K⁺-selective microelectrodes and micropipets, and monitoringJ _Na by measuring the short-circuit current (SCC). When bathed in the short-circuited state with solutions containing ana _K of 2.7mm, the mean ±sem values for intracellulara _K were 43±0.6mm.Ouabain, at a concentration of 10^–2 m, reduced intracellulara _K by 56–67% and SCC by 96–100%. At 5×10^–4 m, ouabain reversibly reduced intracellulara _K by 40–55%, and SCC by 63–68%; the inhibition of SCC was only partly reversible during the period of observation.Removal of external potassium reduced intracellulara _K by 69–80% and SCC by 51–76%. Restoration of external potassium entirely returned intracellulara _K to its control value, but only partially reversed the inhibition of SCC during the period of study. Furthermore, recovery ofa _K began 19–43 min before that of SCC; recovery ofa _K was 90–97% complete before any increase in SCC could be measured. Although other interpretations are possible, the simplest interpretation of the data is that the processes responsible for potassium accumulation and transepithelial sodium transport are not identical. We propose the existence of a separate transfer mechanism at the basolateral cell membrane, responsible for accumulating intracellular potassium, and not directly coupled to active sodium transport.     

Effects of certain cadmium species on pure and litter populations of microorganisms

Cadmium inhibition of microorganisms was found to be bacterial and chemical species dependent. E. coli inhibition was a function of the cadmium-ion concentration irregardless of the presence of citrate, a chelator for cadmium that it could not metabolize. Whereas with a Pseudomonas sp. able to metabolize citrate, cadmium inhibition was a function of both the cadmium ion and the presence of citrate. With no citrate, inhibition of this organism occurred only at relatively high cadmium-ion concentrations (above 10^–4 m); when citrate was added to the same cadmium-containing growth medium, inhibition was observed at a 1000 times lower cadmium-ion concentration (i.e., 10^–7 m). This observation is contrary to the classical understanding where a chelate reduces the toxic form of a metal allowing increased growth of the organism.The species of cadmium also differentially inhibited the Douglas fir litter respiration and nitrogen-fixing community activities.     

Diffusion in immobilized-cell agar layers: influence of microbial burden and cell morphology on the diffusion coefficients ofl-malic acid and glucose

Summary The diffusivities ofl-malic acid and glucose in an agar membrane entrapping small amounts ofEscherichia coli orRhodospirillum rubrum whole cells were measured using time lag (TL) and steady state (SS) methods. Diffusivities were overestimated by the SS method. For concentrations of immobilizedR. rubrum cells ranging between 10⁴ and 10⁹ organisms cm^–3 agar (20 ng-2 mg dry weight cm^–3 agar), the diffusion coefficient ofl-malic acid, determined by both methods, was related to the logarithm of the membrane cell content by a decreasing linear relationship. The diffusion coefficient of glucose obtained by TL analysis was not significantly affected by the presence in the membrane of 3 ng-0.3 mg dry wt.E. coli cm^–3 agar. However, values arising from the SS method decreased linearly as a function of the amount of immobilized organisms. Membranes containingR. rubrum cells offered higher diffusional resistance tol-malic acid and glucose than those loaded with the same amount ofE. coli cells.     

Spironolactone antagonism of aldosterone action on Na+ transport and RNA metabolism in toad bladder epithelium

Summary In earlier studies, aldosterone increased the incorporation of precursors into a class of cytoplasmic RNA with the characteristics of messenger RNA (mRNA), in toad bladder epithelium. In the present studies, this effect was analyzed further with a competitive antagonist, spironolactone (SC-9420). Paired hemibladders were labeled with³H-uridine (30 min pulse–140 min chase), with or without aldosterone (3.5×10^–8 m, 7×10^–8 m) in the presence or absence of SC-9420 (7×10^–6 m, 2.5×10^–5 m) at molar ratios of 2001 to 2801. Cytoplasmic RNA, either the total phenol-SDS extract or polyadenylated-RNA (poly(A)(+)-RNA) obtained by oligo-deoxythymidylate-cellulose (oligo(dT)-cellulose) chromatography was analyzed in linear 5–20% sucrose gradients. Eight sets of experiments were completed in which the short-circuit current (scc) was monitored for 180 min and the incorporation of³H-uridine (30 min pulse–150 min chase) was simultaneously determined on pools of epithelia from 5 to 10 hemibladders. The fractional change inscc correlated linearly with the fractional change in³H-uridine of 12S cytoplasmic RNA (r=0.95,p<0.001). The poly(A)(+)-RNA fraction had no detectable rRNA or tRNA and gave a heterogeneous pattern, typical of mRNA, in the sucrose gradients. In the presence of exogenous aldosterone, SC-9420 inhibited the incorporation of³H-uridine into poly(A)(+)-RNA (particularly 12S). These results support the inference that induction of mRNA mediates the action of aldosterone on Na⁺ transport.     

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.     

Methionine-repressible homoserine dehydrogenase of serratia marcescens: Purification and properties

Summary Serratia marcescens Sa-3 possesses two homoserine dehydrogenases and neither has any aspartokinase activity unlike the case ofEs-cherichia coli enzymes. The two enzymes have been separated. One of them is active with either NAD^– or NADP⁺ and has been purified about 180-fold to homogeneity. This enzyme is completely repressed by the presence of 1mm methionine or homoserine in the growth medium, but its activity is unaffected by any amino acid of the aspartate family either singly or together. In many of its properties (such as pH optimum, K_m for substrate and cofactors), it resembles its counterpart inE. coli K₁₂. Potassium ions stabilize the enzyme but are not essential for activity. Its molecular weight is around 155,000 as determined by gel filtration and approximately 76,000 by SDS-polyacrylamide gel electrophoresis. This suggests that the enzyme has two subunits (polypeptide chains) in the molecule: 8m urea has no effect on enzyme activity. This enzyme represents approximately 30% of the total homoserine dehydrogenase activity ofS. marcescens unlike inSalmonella typhimurium andE. coli K₁₂ where it is a minor or a negligible component.     

Communicating junctions and calmodulin: Inhibition of electrical uncoupling inXenopus embryo by calmidazolium

Summary This paper reports the inhibitory effects of calmidazolium (CDZ), a calmodulin inhibitor, on electrical uncoupling by CO₂. Membrane potential and coupling ratio (V ₂/V₁) are measured in two neighboring cells ofXenopus embryos (16 to 64 cell stage) for periods as long as 5.5 hr. Upon exposure to 100% CO₂, control cells consistently uncouple even if the CO₂ treatments are repeated every 15 min for 2.5 hr. CDZ (5×10^–8–1×10^–7 m) strongly inhibits uncoupling. The inhibition starts after 30, 50 and 60 min of treatment with 1×10^–7, 7×10^–8 and 5×10^–8 m CDZ, respectively, is concentration-dependent and partially reversible. In the absence of CO₂, CDZ also improves electrical coupling. CDZ has no significant effect on membrane potential and nonjunctional membrane resistance. These data suggest that calmodulin or a calmodulin-like protein participates in the uncoupling mechanism.     

Alpha and beta adrenergic agonists stimulate water absorption in the rat proximal tubule

Summary Simultaneous capillary and luminal microperfusion studies were performed in the rat proximal tubule to determine the effects of the beta agonist isoproterenol and the alpha agonist phenylephrine on water absorption. Capillary and luminal perfusion solutions were composed such that organic solutes were not present, no bicarbonate was present in the lumen, and no chloride gradient was imposed. Under such conditions, water absorption (Jv) averaged 0.36±0.11 nl·min^–1·mm^–1. The addition of isoproterenol to the capillary solution in concentrations of 10^–6 and 10^–4 m resulted in significantly higherJv's of 0.68±0.10 and 0.71±0.11 nl·min^–1·mm^–1, respectively. The enhancing effect of isoproterenol was inhibited by the beta blocker propranolol (10^–4 m), but not by the alpha blocker phentolamine (10^–7 m). The addition of phenylephrine (10^–6 m) to the capillary perfusion solution also resulted in a significantly higherJv of 0.84±0.14 nl·min^–1·mm^–1, an effect inhibited by phentolamine (10^–7 m), but not by propranolol (10^–4 m). Neither phentolamine nor propranolol alone in the concentrations indicated had an effect on water absorption. These experiments indicate that both alpha and beta agonists stimulate water absorption in the superficial proximal tubule of the rat. This effect appears to be relatively specific for each class of agonist, as demonstrated by the effects of the specific antagonists.     

The kinetics of anion equilibrium exchange across the red blood cell membrane as measured by means of35S thiocyanate

Summary Up to a SCN^– concentration of about 110mm, the concentration dependence of SCN^– equilibrium exchange in human red cell ghosts can be represented by the superimposition of two flux components. One component shows saturation kinetics, the other does not. The saturable component has an activation enthalpy of 105 kJ/mole, exhibits arans acceleration by Cl^– and can be inhibited by H₂DIDS. The nonsaturable component has a much lower activation enthalpy of 33 kJ/mole, is slightly reduced intrans acceleration experiments with Cl^– and insensitive to H₂DIDS but susceptible to inhibition by phloretin. At SCN^– concentrations exceeding 110mm, the saturable component undergoes irreversible self inhibition while the nonsaturable component remains unaltered.The half saturation concentration of the saturable flux component increases with decreasing pH from 3.0mm at pH 7.4 to 13.3mm at pH 6.0. Over this pH range, the maximal flux is only slightly increased from 19×10^–12 to 22×10^–12 moles×cm^–2×sec^–1. The nonsaturable flux component also increases slightly.In accordance with previous observations of Wieth (J. Physiol. (London) 207:563–580, 1970), we find that SCN^– increases K⁺ and Na⁺ permeability. The induced cation-permeability is considerably smaller than the SCN^– exchange and the latter does not show the paradoxical temperature dependence that is known to pertain to the former.     

Anion specificity of the jejunal folate carrier: Effects of reduced folate analogues on folate uptake and efflux

Summary We previously reported that³H-folate uptake by rabbit jejunal brush-border membrane (BBM) vesicles was markedly stimulated by an outwardly directed OH^– gradient (pH_in 7.7, pH_out 5.5), inhibited by anion exchange inhibitors (DIDS, SITS, furosemide), and saturable (folateK _m=0.19 m) suggesting carrier-mediated folate/OH^– exchange (or H⁺/folate cotransport). In the present study, the anion specificity of this transport process was examined. Under conditions of an outwardly directed OH^– gradient, DIDS-sensitive folate uptake wascis inhibited (>90%) by reduced folate analogues: dihydrofolate (IC₅₀=0.40 m), folinic acid (IC₅₀=0.50 m), 5-methyltetrahydrofolate (IC₅₀=0.53 m), and (+)amethopterin (IC₅₀=0.93 M). In contrast, 10 m (–)amethopterin had only a modest effect on folate uptake (18% inhibition) suggesting stereospecificity of the folate/OH^– exchanger. The nonpteridine compounds which are transported by the folate carrier in L1210 leukemic cells (phthalate, thiamine pyrophosphate, and PO ₄ ^–3 ) did not inhibit jejunal folate uptake. Furthermore, folate uptake was not inhibited by SO ₄ ^–2 (4mm) or oxalate (4mm) thereby distinguishing this carrier from the previously described intestinal SO ₄ ^–2 /OH^– and oxalate/Cl^– exchangers. After BBM vesicles were loaded with³H-folate, the initial velocity of³H-folate efflux was stimulated by unlabeled folate in the efflux medium. The transstimulation of³H-folate efflux by unlabeled folate was furosemide (or DIDS) inhibitable and temperature sensitive. Half-maximal stimulation of furosemide-sensitive³H-folate efflux was observed with 0.25±0.05 m unlabeled folate, a concentration similar to theK _m for folate uptake. These data suggest that folate-stimulated³H-folate efflux is mediated by the folate/OH^– exchanger. With the exception of (–) amethopterin, reduced folate analogues also transstimulated furosemide-sensitive³H-folate efflux in a concentration-dependent manner suggesting stereospecific transport of these analogues by the folate/OH^– exchanger. In summary, folate transport by the jejunal folate/OH^– exchanger demonstrates bothcis inhibition and transstimulation by reduced folate analogues, but not by other inorganic or organic anions suggesting bidirectional transport of folate and a high degree of anion specificity.     

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.     

Evidence for a Na+/K+/Cl− cotransport system in basolateral membrane vesicles from the rabbit parotid

Summary Sodium (²²Na) transport was studied in a basolateral membrane vesicle preparation from rabbit parotid. Sodium uptake was markedly dependent on the presence of both K⁺ and Cl^– in the extravesicular medium, being reduced 5 times when K⁺ was replaced by a nonphysiologic cation and 10 times when Cl^– was replaced by a nonphysiologic anion. Sodium uptake was stimulated by gradients of either K⁺ or Cl^– (relative to nongradient conditions) and could be driven against a sodium concentration gradient by a KCl gradient. No effect of membrane potentials on KCl-dependent sodium flux could be detected, indicating that this is an electroneutral process. A KCl-dependent component of sodium flux could also be demonstrated under equuilibrium exchange conditions, indicating a direct effect of K⁺ and Cl^– on the sodium transport pathway. KCl-dependent sodium uptake exhibited a hyperbolic dependence on sodium concentration consistent with the existence of a single-transport system withK _m =3.2mm at 80mm KCl and 23°C. Furosemide inhibited this transporter withK _0.5=2×10^–4 m (23°C). When sodium uptake was measured as a function of potassium and chloride concentrations a hyperbolic dependence on [K] (Hill coefficient =1.31±0.07) were observed, consistent with a Na/K/Cl stoichiometry of 112. Taken together these data provide strong evidence for the electroneutral coupling of sodium and KCl movements in this preparation and strongly support the hypothesis that a Na⁺/K⁺/Cl^– cotransport system thought to be associated with transepithelial chloride and water movements in many exocrine glands is present in the parotid acinar basolateral membrane.     

Effect of poly-L-lysine on potassium fluxes in red beet tissue

Summary Poly-L-lysine concentrations (10^–6 m) which cause slight leakage of pigment from beet cells completely disrupt the kinetics of^*K (labeled) absorption at 25°C in the range 0.01 to 50mm KCl. Lower concentrations of polylysine (10^–7 to 10^–9 m) interfere with potassium fluxes at both cell membranes, initially increasing efflux across the plasma membrane and decreasing the capacity of the cytoplasm to retain ions during flux experiments at 2°C. At 25°C, these concentrations of polylysine increase^*K (labeled) absorption from 0.2mm KCl, but not from 10mm KCl. These responses are discussed in relation to ion transport via the three-compartment in-series model proposed for plant cells. Particular emphasis is placed on the role of the plasma membrane in K transport from solutions of low concentration.     

Chemotaxis towards sugars inChlamydomonas reinhardtii

Chemotaxis ofChlamydomonas reinhardtii 137c cells towards maltose and sucrose was observed by capillary assay. The threshold concentration was approximately 10^–5 m for maltose and 10^–3 m for sucrose. The peak accumulation of cells occurred at 10^–3 m for maltose and 10^–2 m for sucrose. A selection procedure for chemotaxis mutants was developed. Mutant strain CHE-1 was not attracted by maltose; mutant strain CHE-2 was not attracted by sucrose. Addition of attractant fully inhibited photoaccumulation of cells. After a period of time the photoresponse of cells recovered. Under the conditions of our experiments the period of adaptation lasted 15–20 min in wild-type cells and 4–5 min in mutant cells on the given sugar. Glucose and acetate did not attract cells ofChlamydomonas. Added to the medium, these compounds had no effect on the photoaccumulation of cells.     

Electrical effects of potassium and bicarbonate on proximal tubule cells ofNecturus

Summary The effects of stepwise concentration changes of K⁺ and HCO ₃ ^– in the basolateral solution on the basolateral membrane potential (V _bl) of proximal tubule cells of the doubly-perfusedNecturus kidney were examined using conventional microelectrodes. Apparent transference numbers were calculated from changes inV _bl after alterations in external K⁺ concentration from 1.0 to 2.5mm (t _{K, 1.0–2.5}), 2.5 to 10, and in external HCO ₃ ^– concentration (at constant pH) from 5 to 10mm (t _{HCO3, 5–10}), 10 to 20, or 10 to 50.t _{K, 2.5–10} was 0.38±0.02 under control conditions but was sharply reduced to 0.08±0.03 (P>0.001) by 4mm Ba⁺⁺. This concentration of Ba⁺⁺ reducedV _bl by 9±1 mV (at 2.5 external K⁺). Perfusion with SITS (5×10^–4 m) for 1 hr hyperpolarizedV _bl by 10±3 mV and increasedt _{K, 2.5–10} significantly to 0.52±0.01 (P<0.001). Ba⁺⁺ application in the presence of SITS depolarizedV _bl by 22±3 mV. In control conditionst _{HCO3, 10–50} was 0.63±0.05 and was increased to 0.89±0.07 (P<0.01) by Ba⁺⁺ but was decreased to 0.14±0.02 (P<0.001) by SITS. In the absence of apical and basolateral chloride, the response ofV _bl to bicarbonate was diminished but still present (t _{HCO3, 10–20} was 0.35±0.03). Intracellular pH, measured with liquid ion-exchange microelectrodes, increased from 7.42±0.19 to 7.57±0.17 (P<0.02) when basolateral bicarbonate was increased from 10 to 20mm at constant pH. These data show that the effects of bicarbonate onV _bl are largely independent of effects on the K⁺ conductance and that there is a significant current-carrying bicarbonate pathway in the basolateral membrane. Hence, both K⁺ and HCO ₃ ^– gradients are important in the generation ofV _bl, and their relative effects vary reciprocally.     

Antifungal action of alkoxy ethyl mercuric acetates

The fungitoxic action of alkoxy ethyl mercuric acetates and phenyl mercuric acetate was studied withAspergillus niger, Penicillium italicum andUstilago maydis as test moulds. Concentrations of mercurials from 10^–3 m to 10^–5 m were used in each experiment. The inhibitory action was about the same for each of the compounds tested.