Biochemical and histochemical studies on p-nitrophenyl phosphate and beta-glycerophosphate hydrolysis at acid pH by rabbit parotid tissue.

Synopsis A biochemical and histochemical study has been made of the characteristics and distribution of acid phosphatases in the parotid gland of the rabbit. The substratesp-nitrophenyl phosphate and -glycerophosphate have been used. Homogenate studies showed that substantial hydrolysis ofp-nitrophenyl phosphate occurred in the presence of tartrate and fluoride ions but that -glycerophosphate hydrolysis was almost abolished by these additives. The pH optima usingp-nitrophenyl phosphate and -glycerophosphate were found to be around pH 5.0 and pH 4.0 respectively. Studies on subcellular fractions revealed that maximalp-nitrophenyl phosphate hydrolysis occurred in the microsomal fraction whereas maximal hydrolysis of -glycerophosphate occurred in the mitochondrial fraction. The histochemical staining patterns produced by the two substrates differed in several respects. Whenp-nitrophenyl phosphate was used heavy plasmalemmal staining occurred, while reactions using -glycerophosphate as substrate produced heavy staining of the acinar cell cytoplasm including many of the zymogen granules. Both substrates resulted in the staining of lysosomes and certain vesicles associated with the Golgi complex. Formaldehyde fixation resulted in an overall reduction in staining intensity and glutaraldehyde fixation used in electron microscopic studies heavily inhibited much of the extralysosomal activity. The conclusion is reached that significant extralysosomal acid hydrolase activity is present in the rabbit parotid gland, much of which is located on smooth microsomes. The data is discussed in the context of the distribution of extralysosomal acid hydrolases and the staining patterns are considered in the light of the limitations inherent in the techniques employed.     

Evidence for two K+ currents activated upon hyperpolarization ofParamecium tetraurelia

Summary Hyperpolarization of voltage-clampedParamecium tetraurelia in K⁺ solutions elicits a complex of Ca²⁺ and K⁺ currents. The tail current that accompanies a return to holding potential (–40 mV) contains two K⁺ components. The tail current elicited by a step to –110 mV of 50-msec duration contains fast-decaying (3.5 msec) and slow-decaying (20 msec) components. The reversal potential of both components shifts by 55–57 mV/10-fold change in external [K⁺], suggesting that they represent pure K⁺ currents. The dependence of the relative amplitudes of the two tail currents on duration of hyperpolarization suggests that the slow K⁺ current activates slowly and is sustained, whereas the fast current activates rapidly during hyperpolarization and then rapidly inactivates. Iontophoretic injection of a Ca²⁺ chelator, EGTA, specifically reduces slow tail-current amplitude without affecting the fast tail component. Both K⁺ currents are inhibited by extracellular TEA⁺ in a concentration-dependent, noncooperative manner, whereas the fast K⁺ current alone is inhibited by 0.7mm quinidine.     

The skeletal isotopic composition as an indicator of ecological and physiological plasticity in the coral genus<Emphasis Type="Italic"> Madracis</Emphasis>

Three species of the reef coral genus Madracis display skeletal isotopic characteristics that relate to depth, colony topography, and consequently to coral physiology. The joint interpretation of skeletal ¹³C and ¹⁸O provides information on the ecological plasticity and adaptation to depth of a coral species. Isotopic results are most easily understood in terms of kinetic effects, which reduce both ¹⁸O and ¹³C below isotopic equilibrium values, and metabolic effects, which only influence the skeletal ¹³C. Madracis mirabilis is adapted to depths shallower than 20 m, and shows the greatest range in kinetic effects and the strongest metabolic ¹³C enrichments caused by symbiont photosynthesis. Madracis formosa lives deeper than 40 m, and shows a reduced range of kinetic effects and relatively weak metabolic ¹³C enrichments. Madracis pharensis inhabits depths from 5 to >60 m, and does not attain the strength of kinetic effects of either of the other two species, apparently because it is not quite as well adapted to rapid growth at either extreme.     

Oligonucleotide formation catalyzed by divalent metal ions. The uniqueness of the ribosyl system

Summary Polymerization of various nucleoside-5-phosphorimidazolides has been conducted in neutral aqueous solution using divalent metal ions as catalysts. Oligonucleotide formation took place from each of the ribonucleoside-5-phosphorimidazolides, ImpC, ImpU, ImpA, ImpG, and ImpI. The yields and distributions of the resulting oligonucleotides varied depending on the difference of the nucleic acid base and the metal ions used. The catalytic effect of divalent metal ions on the formation of oligocytidylates occurred in the following order: Pb²⁺>Zn²⁺>Co²⁺, Mn²⁺>Cd²⁺>Cu²⁺>Ni²⁺>Ca²⁺, Mg²⁺, none >Hg²⁺. The order changes slightly for other types of oligoribonucleotide formation. Oligoribonucleotides up to hexamers were obtained in 35–55% overall yield, when Pb²⁺ ion was used as a catalyst. Zn²⁺ ions yielded oligoribonucleotides up to tetramers in 10–20% overall yield. The resulting oligonucleotides contained mainly 2–5 internucleotide linkages.Little or no oligonucleotide was obtained from nucleoside-5-phosphorimidazolides modified in the sugars, Imp(3-dA), Imp(2-dA), Imp(Ara), Imp(Aris), and Imp(Nep). The results indicate that a ribosyl system is required for the metal ion-catalyzed synthesis of oligonucleotides. Abbreviations. EDTA, ethylenediaminetetraacetic acid; Versenol,N-hydroxyethylethylenediaminetriacetic acid; Tris, tris-(hydroxymethyl)aminomethane; pN (N is A, C, G, U, I, 3-dA, 2-dA, AraA, Aris, or Nep), nucleoside-5-phosphate; Np, nucleoside-2(3)-phosphate; I, inosine; 3-dA, 3-deoxyadenosine; 2-dA, 2-deoxyadenosine; AraA, arabinosyladenine; Aris, aristeromycin; Nep, neplanocin A; ImpN, nucleoside-5-phosphorimidazolide; NppN, P₁,P₂-dinucleoside-5,5-pyrophosphate; (pN)_n (n=2, 3, ...), oligomers of pN, numbers given between a nucleoside and a phosphate indicate the type of internucleotide linkage, e.g., pC₂ p₅C is 5-phosphorylcytidyl-(2–5)-cytidine; , cyclic dimers of pN; BAP, bacterial alkaline phosphatase; N.Pl, nuclease Pl; VPDase, venom phosphodiesterase; HPLC, high pressure liquid chromatography     

Inhibitory ca2+-control of movement of beads coated withphysarum myosin along actin-cables inChara internodal cells

Summary The actin-activated ATPase activityPhysarum myosin was shown to be inhibited of M levels of Ca²⁺. To determine if Ca²⁺ regulates ATP-dependent movement ofPhysarum myosin on actin, latex beads coated withPhysarum myosin were introduced intoChara cells by intracellular perfusion. In perfusion solution containing EGTA, the beads moved along the parallel arrays ofChara actin filaments at a rate of 1.0–1.8 m/sec; however, in perfusion solution containing Ca²⁺, the rate reduced to 0.0–0.7 m/sec. The movement of beads coated with scallop myosin, whose actin-activated ATPase activity is activated by Ca²⁺, was observed only in the perfusion solution containing Ca²⁺, indicating that myosin is responsible for the inhibitory effect of Ca²⁺ onPhysarum myosin movement. The involvement of this myosin-linked regulation in the inhibitory effect of Ca²⁺ on the cytoplasmic streaming observed inChara internodal cell andPhysarum plasmodium was discussed.Abbreviations ATP adenosine 5-triphosphate - DTT dithiothreitol - EDTA ethylenediaminetetraacetic acid - EGTA ethyleneglycolbis(-aminoethylether) N,N,N,N-tetraacetic acid - PIPES piperazine-N,N-bis(2-ethanesulfonic acid)     

Cellular redox state and activating protein-1 are involved in ascorbate effect on calcitriol-induced differentiation

Summary Ascorbate has been related to the differentiation of several mesenchymal cells including haematopoietic cells. We have previously demonstrated that ascorbate enhances the activity of 1,25-dihydroxyvitamin D₃ (1,25(OH)₂D₃) on monocytic differentiation of HL-60 cells. Here, we show that ascorbate-mediated modification of cellular redox state and AP-1 (activating protein-1) DNA binding during early phases are related to the enhancing effect of ascorbate on differentiation. Ascorbate, but not its fully oxidized form, dehydroascorbate, or an ascorbate analogue with a low rate of oxidation, ascorbate-2-phosphate, enhanced the differentiation induced by 1,25(OH)₂D₃, modified cytosolic reactive oxygen species levels and mitochondrial redox potential (_m), and modulated AP-1 DNA binding in HL-60 cells. Ascorbate itself increased AP-1 binding to DNA in noninduced cells, whereas it inhibited AP-1 binding in 1,25(OH)₂D₃-induced cells. However, ascorbate increased the mRNA levels ofc-jun, junB. andc-fos in 1,25(OH)₂D₃-induced cells. Taken together, these results suggest that the enhancing effect of ascorbate on HL-60 differentiation induced by 1,25(OH)₂D₃ is related to its effect on the cellular redox state and the modulation of AP-1 activity.Abbreviations 1,25-(OH)₂D₃ 1,25-dihydroxyvitamin D₃ - _m mitochondrial transmembrane potential - AP-1 activating protein-1 - Asc-2-P ascorbate-2-phosphate - DHA dehydroascorbate - DiOC₆(3) 3,3-dihexyloxacarboxyanine iodide - EMSA electromobility shift assay - NBT nitroblue tetrazolium - ROS reactive oxygen species     

Stereochemistry of protected ornithine side chains in gramicidin S derivatives and their resistance to N-methylation

Derivatives of gramicidin S (GS) and its mono- and di-d-cyclohexylalanine (d-Cha) analogs possessing various protecting groups on Orn side chains were prepared. ¹H NMR spectra of the unsymmetrically protected analogs [Orn(X)²,Orn(X)²,d-Cha⁴]GS were similar to the composites of the spectra of the symmetrical derivatives [Orn(X)²,2,d-Cha⁴,4]GS and [Orn(X)²,2]GS, revealing the proximity of the protecting groups of NH of Orn residues at the 2 and 2 positions to the side chains of d-Phe (or d-Cha) residues at the 4 and 4 positions, respectively. The results indicated the presence of H-bonds between the NH of Orn and the carbonyl of d-Phe residues in the i i + 2 sense and not in i i – 3, which was also supported by the ROESY analysis. The substantially strong H-bonds can explain the observed resistance of the urethane NH of the Orn side chains in the GS derivatives to the N-methylation with CH³I–Ag²O in DMF.     

Molecular organization of the human CD3 gene family on chromosome 11q23

The genes encoding three invariant components of the human T-cell antigen receptor, the CD3 , , and chains, are located on human chromosome 11 at band q23. We isolated cosmid clones containing the human CD3 and chain genes in vectors designed for rapid and efficient chromosome walking. The human CD3 gene was located in the region immediately downstream of the CD3 and genes using synthetic oligonucleotide probes and the localization of this gene confirmed by DNA sequencing. Detailed restriction mapping of the CD3 locus demonstrated that all three CD3 subunits are encoded within 60 kb of DNA with the CD3 gene located 26 kb downstream of the CD3 and genes. Analysis of genomic DNA on pulsed field gels using probes isolated from these cosmid clones defined a physical map of 750 kb spanning the CD3 locus on human chromosome 11g23. The CD3 genes thus comprise a multigene family encoding cell surface components important for transmembrane signaling on T lymphocytes. The arrangement of these genes suggest that they may share common regulatory elements for the control of gene expression during T-cell ontogeny.     

Improved production of ginseng polysaccharide by adding conditioned medium to Panax notoginseng cell cultures

By adding 50% (v/v) filtered culture broth to fresh MS medium, the specific growth rate of Panax notoginseng was increased from 0.046 d–1 to 0.068 d–1, and the polysaccharide production and productivity reached 1.21 g l–1 and 61 mg/(ld), respectively, which were 1.3- and 2.3-fold of the control. Further supplementation of the conditioned medium with sucrose, ammonium, nitrate and phosphate gave a cell density of 13.7 g l–1 and a specific growth rate of 0.086 d–1. Polysaccharide production was 1.65 g l–1 and the productivity was 78 mg/(ld).     

Fractionation of phosphate in sediments of four representative mangrove stages (French Guiana)

Phosphate was fractionated in Guianese mangrove sediments. Fe(OOH)P was extracted using a Ca-EDTA + Na-dithionite solution buffered at pH 8. CaCO₃P was extracted using Na₂-EDTA solution at pH 4.5. Next, Acid Soluble Organic Phosphate (ASOP) was extracted by H₂SO₄ 0.5 N. Finally, Residual Organic Phosphate (ROP) was digested with H₂SO₄ + H₂O₂. Four representative mangrove stages have been studied: sea edge pioneer mangroves, mature coastal mangroves, mixed riverine mangroves, and declining to dead mangroves. The sum of the P-fractions varied between 638 to 804 g g^-1 in pioneer and mixed mangroves respectively. In all the stages, the percentage of inorganic phosphate was larger than 50% of the total P. Fe(OOH)P varied between 221 (pioneer mangrove) to 426 g g^-1 (dead mangrove). CaCO₃P varied between 75 to 102 g g^-1 in mixed, dead or mature mangroves and attained 125 g g^-1 in pioneer mangrove. The sum of the concentrations of organic phosphate (ASOP + ROP) increased markedly from the dead mangrove (189 g g^-1) to the mixed mangrove (380 g g^-1). Guianese mangroves, are relatively rich in total phosphate, possibly because they are narrowly related to the 'Amazon dispersal system. Each mangrove stage can be characterised by a prevailing form of phosphate. The concentrations of these different forms were ascribed to the marked relations with the seawater which controls import or export of suspended matters and to the wave action which controls the resuspension of the sediments and subsequently exchange of phosphate between the suspended matter and the water column.     

Isolation and characterization of internalized glioma cell membranes

Summary A method for isolating plasma membranes based on the ability of cultured C6-glioma cells to phagocytize inert material such as polystyrene (latex) beads is described. The beads (Ø 1.1 m) were incubated for 16 h or 5 h. After several washings and homogenization of the cells, the beads with the surrounding membranes were isolated by use of a sucrose density gradient. The membranes were analyzed morphologically and biochemically. Morphological studies by means of light- and electron microscopy confirmed the intracellular localization of the beads. Enzymatic studies revealed that the specific activity of acid phosphatase decreased with shorter incubation periods (from 268.00±38.56 U x mg protein^-1 x min^-1 after 16 h to 125.12 ± 9.10 after 5 h), whereas that of Na, K-ATPase showed the opposite trend (3.63±0.41 and 4.73±0.78 moles phosphate x mg protein^-1 x h^-1, respectively), indicating a lesser contamination with lysosomes. The main advantages of this procedure for membrane studies lie in purity and definite orientation (inside-out) of the membranes.     

Enzymatic studies on ninhydrin-positive compounds exuded by root tips of pea seedlings

Summary The action of L-amino-acid oxydase, D-amino-acid oxydase and L-glutamic decarboxylase on ninhydrin-positive compounds present in root-tip exudates and root-scraping extracts of pea seedlings, is described. Results of Fukuda et al. are confirmed as to the presence of D-alanine in -glutamyl-alanine.The possible inhibitory effects of -L-glutamyl-D-alanine and of Unknown Y (most probably 2-alanyl-isoxazolin-5-one) on bacterial growth are discussed. re]19760809     

The effect of some glycolytic intermediates and long-chain acyl-CoA esters on rat skeletal muscle mitochondrial α-glycerophosphate dehydrogenase

Summary -Glycerophosphate dehydrogenase (sn-glycerol-3-phosphate: acceptor oxidoreductase, EC 1.1.99.5) activity in mitochondria isolated from rat skeletal muscle has been studied. The pH optimum of the enzyme activity was about 7.4 and the apparent K_m value for DL--glycerophosphate was approxinately 1.6mm. The activity of this enzyme was found to be inhibited by DL-glyceraldehyde-3-phosphate, phosphoenolpyruvate and 3-phosphoglycerate in a competitive manner: the apparent K_i values at pH 7.4 being 0.3mm, 1.5mm and 4.0mm respectively. The enzyme was found to be more sensitive to phosphoenolpyruvate at pH 7.0 than 7.6.The activity of -glycerophosphate dehydrogenase in rat skeletal muscle was also inhibited by palmitoyl-CoA and stearoyl-CoA in a competitive manner. The K_i values being about 9.0 m for both metabolites. This inhibition was partly reversed by Ca²⁺ and Mg²⁺ ions. Palmitoylcarnitine also exerted inhibitory effect on -glycerophosphate dehydrogenase activity but palmitate, carnitine and CoA added alone was without effect. It is proposed that the activity of -glycerophosphate dehydrogenase in rat skeletal muscle mitochondria may be controlled by changes of the cytosolic levels of some glycolytic intermediates and long-chain acyl-CoA esters. These results are discussed with respect to the regulation of -glycerophosphate shuttle activity in skeletal muscle.     

Cytochemical localization of nicotinamide adenine dinucleotide phosphatase (NADPase) in bovine Leydig cells

Summary The ultrastructural localization of nicotinamide adenine dinucleotide phosphatase (NADPase) in bovine Leydig cells has been studied and compared with the pattern of thiamine pyrophosphatase (TPPase) and acid phosphatase distribution in these cells. Using -nicotinamide adenine dinucleotide phosphate (-NADP⁺) as substrate, a marked staining is observed in the intermediate Golgi saccules with some focal extension to the trans aspect. Cisternae on the cis side and associated vesicles yielded only slightly positive reactions. The pattern of NADPase localization is clearly different from that of TPPase which consistently stains only the trans Golgi elements. The specifity of NADPase for its substrate, -NADP⁺, was clearly demonstrated by using substrates modified in either the nicotinamide region e.g. -nicotinamide adenine dinucleotide phosphate (-NADP⁺), -thionicotinamide adenine dinuclcotide phosphate (Thio-NADP⁺), in the attachment site of the monoester phosphate group to the molecule (e.g. 2 monophospho-adenosine 5-diphosphoribose (ATP-ribose) or adenosine-5-monophosphate (5AMP). With these substrates only weak or negative reactions were obtained in the Golgi apparatus of the bovine Leydig cell.     

Ecto-ATPase/phosphatase activity in the olfactory sensilla of the spiny lobster,Panulirus argus: localization and characterization

Summary Electrophysiological studies have shown that the olfactory organ (antennule) of the spiny lobster, Panulirus argus, has chemoreceptors that are selectively excited by adenine nucleotides in seawater. Biochemical studies have revealed that these same nucleotides can be rapidly dephosphorylated by ectoenzymes associated with the olfactory sensilla (aesthetascs). In this study the distribution of ecto-ATPase/phosphatase activity within aesthetascs was determined cytochemically and the nature of the adenine-nucleotide dephosphorylating activity was dissected biochemically. Cytochemically, the distribution of ATP-dephosphorylating activity was similar to that shown previously for AMP and -glycerol phosphate; i.e., cerium phosphate reaction product was specifically localized to the transitional zone where the sensory dendrites develop cilia and branch to form the outer dendritic segments. Unlike the dephosphorylation of AMP and -glycerol phosphate, Mg²⁺ or Ca²⁺ was required for ecto-ATPase/phosphatase activity. Biochemical measures of both AMP-and ATP-dephosphorylating activity within aesthetascs corroborated the cytochemical evidence that these activities are localized to the transitional zone. A major portion of the AMP dephosphorylation (about 67%) derives from nonspecific alkaline phosphatase activity that is insensitive to levamisole and L-bromotetramisole. In contrast, nonspecific phosphatase activity accounted for a much smaller part of the ATP dephosphorylation (about 15%). Ectoenzymatic activity in the transitional zone may be an important means of removing excitatory/inhibitory nucleotides from this region.Abbreviations ADP Adenosine 5-diphosphate - AMP adenosine 5-monophosphate - AMPCP , -methylene ADP - ASW artificial seawater - ATP adenosine 5-triphosphate - -GP -glycerol phosphate - EM electron microscopy     

Contrasting leaf and ‘ecosystem’ CO2 and H2O exchange in Avena fatua monoculture: Growth at ambient and elevated CO2

Elevated CO₂ (ambient + 35 Pa) increased shoot dry mass production in Avena fatua by 68% at maturity. This increase in shoot biomass was paralleled by an 81% increase in average net CO₂ uptake (A) per unit of leaf area and a 65% increase in average A at the ecosystem level per unit of ground area. Elevated CO₂ also increased ecosystem A per unit of biomass. However, the products of total leaf area and light-saturated leaf A divided by the ground surface area over time appeared to lie on a single response curve for both CO₂ treatments. The approximate slope of the response suggests that the integrated light saturated capacity for leaf photosynthesis is 10-fold greater than the ecosystem rate. Ecosystem respiration (night) per unit of ground area, which includes soil and plant respiration, ranged from-20 (at day 19) to-18 (at day 40) mol m^-2 s^-1 for both elevated and ambient CO₂ Avena. Ecosystem below-ground respiration at the time of seedling emergence was -10 mol m^-2 s^-1, while that occuring after shoot removal at the termination of the experiment ranged from -5 to-6 mol m^-2 s^-1. Hence, no significant differences between elevated and ambient CO₂ treatments were found in any respiration measure on a ground area basis, though ecosystem respiration on a shoot biomass basis was clearly reduced by elevated CO₂. Significant differences existed between leaf and ecosystem water flux. In general, leaf transpiration (E) decreased over the course of the experiment, possibly in response to leaf aging, while ecosystem rates of evapotranspiration (ET) remained constant, probably because falling leaf rates were offset by an increasing total leaf biomass. Transpiration was lower in plants grown at elevated CO₂, though variation was high because of variability in leaf age and ambient light conditions and differences were not significant. In contrast, ecosystem evapotranspiration (ET) was significantly decreased by elevated CO₂ on 5 out of 8 measurement dates. Photosynthetic water use efficiencies (A/E at the leaf level, A/ET at the ecosystem level) were increased by elevated CO₂. Increases were due to both increased A at leaf and ecosystem level and decreased leaf E and ecosystem ET.     

Isolation and characterization of β-glucosidases from Aspergillus nidulans mutant USDB 1183

Two extracellular -glucosidases (cellobiase, EC 3.2.1.21), I and II, from Aspergillus nidulans USDB 1183 were purified to homogeneity with molecular weights of 240,000 and 78,000, respectively. Both hydrolysed laminaribiose, -gentiobiose, cellobiose, p-nitrophenyl--L-glucoside, phenyl--L-glucoside, o-nitrophenyl--L-glucoside, salicin and methyl--L-glucoside but not -linked disaccharides. Both were competitively inhibited by glucose and non-competitively (mixed) inhibited by glucono-1,5-lactone. -Glucosidase I was more susceptible to inhibition by Ag⁺ and less inhibited by Fe²⁺ and Fe³⁺ than -glucosidase II.     

Formation of P1, P2-dinucleoside 5′-pyrophosphates under potentially prebiological conditions

Summary Organic pyrophosphates such as UppA and NAD are formed when a solution containing a nucleotide, a nucleoside 5-polyphosphate, Mg²⁺ and imidazole are allowed to dry out. We suggest that this synthesis may have occured concurrently with oligonucleotide formation.Abbreviations Im Imidazole - CDI 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride - EDTA ethylenediaminetetraacetic acid - A adenosine - U uridine - p_nA adenosine 5-poly-phosphate containing n phosphate residues - pU uridine 5-phosphate - AppA P₁,P₂-diadenosine 5-pyrophosphate - UppA P₁-(uridine 5)-P₂-(adenosine 5)-pyrophosphate - ImpA adenosine 5-phosphorimidazolide - NMN nicotinamide mononucleotide - NAD nicotinamide-adenine dinucleotide     

Calcium and tip growth inNeurospora crassa

Summary We examined the ionic regulation of tip growth inNeurospora crassa by a combination of electrophysiology and confocal microscopy. To determine if transmembrane ionic fluxes are required for tip growth, we voltage clamped the membrane from –200 to +50 mV. In this voltage range, transmembrane ionic fluxes would either reverse (e.g., K⁺) or change dramatically (e.g., Ca²⁺ influx) but had no effect on hyphal growth rates. Therefore, ionic fluxes (including Ca²⁺ influx) may not be required for tip growth. However, intracellular Ca²⁺ may still play an obligatory role in tip growth. To assess this possibility, we first increased cytosolic Ca²⁺ directly by ionophoresis. Elevated Ca²⁺ induced subapical branch initiation, often multiple tips. At hyphal tips, fluorescence ratio imaging using fluo-3 and fura-red revealed a pronounced tip-high Ca²⁺ gradient within 10 m of the tip in growing hyphae which was not observed in nongrowing hyphae. Injection of the Ca²⁺ chelator 1,2-bis(ortho-aminophenoxy)ethane-N,N,N,N-tetrapotassium acetate consistently inhibited growth concomitantly with a depletion of intracellular Ca²⁺ and dissipation of the tip-high gradient. We conclude that Ca²⁺ plays a regulatory role in tip initiation and the maintenance of tip growth. Because plasma membrane ionic fluxes do not play a role in tip growth, we suggest that the tip-high Ca²⁺ gradient is generated from intracellular Ca²⁺ stores in the ascomyceteN. crassa.Abbreviations BAPTA 1,2-bis(ortho-aminophenoxy)ethane-N,N,N,N-tetrapotassium acetate - [Ca²⁺]_i intracellular Ca²⁺ concentration - fluo-3 2,7-dichloro-6-hydroxy-3-oxo-9-xanthenyl-4-methyl-2,2-(ethylenedioxy)dianiline-N,N,N,N-tetraacetic acid