Nutritional requirements of Plasmodium falciparum in culture. III. Further observations on essential nutrients and antimetabolites

In a semi-defined minimal medium for cultivation of Plasmodium falciparum, ribose, mannose, fructose, galactose, and maltose could not replace glucose. Hypoxanthine was the preferred purine source for the parasite over adenine, guanine, inosine, adenosine and guanosine although all supported growth equally. Inhibitors of nucleoside uptake had low potency in killing the parasites but depressed incorporation of [3H]adenosine more than [3H]hypoxanthine. Glutamate could not be replaced by 5-oxoproline, indicating that the gamma-glutamyl transferase pathway for amino acid uptake is probably not found in this organism. Adenine, nicotinamide, and orotic acid could not supplement glutamine-deficient medium. The pyridoxine antagonists isoniazid and 4-deoxypyridoxine were reversed by amino acid supplementation, suggesting that transaminases may be targets of these drugs. Orotic acid, but not glutathione or its amino acid components, partially reversed the effects of 8-methylamino-8-desmethyl riboflavin. Thus, the flavin enzyme, dihydroorotic acid dehydrogenase, but not glutathione reductase, appears to be a target of this riboflavin antagonist. Five biotin antagonists had no significant activity. The choline antagonist 2-(tert-butylamino)ethanol and thiamin uptake inhibitors had nonspecific inhibitory effects, which were not reversed by the respective target vitamin. Buthionine sulfoximine and methionine sulfoximine, inhibitors of glutathione synthesis, had significant oxygen-dependent toxicity. Six sulfonamides showed marked variation in potency and efficacy. Sulfathiazole and sulfadoxine were reversed differentially by p-aminobenzoic acid, folic acid, and folinic acid. Folinic acid was more effective than folic acid at reversing the toxicity of the dihydrofolate reductase inhibitors aminopterin and pyrimethamine; p-amino-benzoic acid had no effect.     

Effect of water soluble vitamins and their analogues on growth of candida albicans. III. Para-aminobenzoic acid,nicotinic acid,inositol and their analogues

Summary By using high concentrations of vitamins in biotin basal synthetic mineral medium,Candida albicans was shown to possess a partial dependency forp-aminobenzoic acid, nicotinic acid and inositol. Sodium gantrisin [N¹-3,4-dimethyl-5-isoxazolyl sulfanilamide)] was growth inhibitory in the absence ofp-aminobenzoic acid and its effect was reversed byp-aminobenzoic acid. Similarly, pyridine-3-sulfonic acid was growth inhibitory to the organism in the absence of nicotinic acid and its effect was reversed by nicotinic acid. Additions of biotins, thiamine, vitamin B₁₂, nicotinic acid,p-amino-benzoic acid and inositol to basal synthetic medium showed clear-cut growth stimulation for each vitamin. Parallel omission type experiments on the other hand, demonstrated a masking effect of one vitamin on another. Ascorbic acid, riboflavin, calcium pantothenate choline, folic acid and thioctic acid were without effect. A new procedure for the determination of microbial vitamin requirements was outlined.     

In Vitro Susceptibility of Acanthamoeba Culbertsoni to Inhibitors of Folate Biosynthesis1

ABSTRACT. The effects of different sulphonamides, dihydrofolate reductase inhibitors and other inhibitors of folate metabolism on growth of Acanthamoeba culbertsoni in a chemically defined medium are reported. Among the sulphonamides, sulphamethoxazole and sulphadiazine were most effective followed by sulphanilamide and sulphaguanidine. Inhibition by each sulphonamide was reversed by p-aminobenzoic acid as well as folic acid. 7-Methylguanosine, a pteridine synthesis-inhibitor, did not inhibit multiplication of A. culbertsoni. Among the dihydrofolate reductase inhibitors, pyrimethamine blocked the amoebic growth at 100 μg/ml, while trimethoprim and cycloguanil palmoate failed to cause significant inhibition of growth even at 250 μg/ml. Metoprine inhibited amoebic growth completely at 50 μg/ml. Methotrexate and a thymidylate synthetase inhibitor 5-fluorouracil inhibited growth strongly, with IC₅₀ values (the concentration of the drug which causes 50% inhibition of the growth at 72 h) of 1.97 and 2.45 μg/ml, respectively. Inhibition by methotrexate, metoprine or 5-fluorouracil could not be reversed by folic acid, folinic acid, thymidine, or folinic acid plus thymidine. the results indicate unusual features in A. culbertsoni folate metabolism.     

γ-Glutamylcysteinylserine — A New Homologue of Glutathione in Plants of the Family Poaceae*

In addition to glutathione (γ-GluCysGly), many species of the family Poaceae have another tripeptide which has the amino acid sequence γ-GluCysSer. This thiol was isolated from etiolated leaves of wheat (Triticum aestivum L. cv. Star). Its structure was elucidated by quantitative amino acid analysis after total hydrolysis and by partial hydrolysis with carboxypeptidase A and γ-glutamyltranspeptidase. The content of γ-GluCysSer in the leaves of T. aestivum is increased by incubation with sulfate and is severely diminished by incubation with buthionine sulfoximine, a specific inhibitor of γ-glutamylcysteine synthetase. Oxidized γ-GluCysSer is reduced by yeast glutathione reductase with a rate somewhat lower than for glutathione, but the new tripeptide is not a substrate of glutathione-S-transferase from equine liver. Besides homoglutathione (γ-GluCysßAla), a tripeptide found in plants of the order Fabales, the tripeptide γ-GluCysSer is the second homologue of glutathione detected in plants.     

Uptake and metabolism of adenosine mediate a meiosis‐arresting action on mouse oocytes

This study was carried out to evaluate the possible role of adenosine uptake and metabolism in mediating the inhibitory actions of this nucleoside on spontaneous mouse oocyte maturation. Uridine blocked ³H‐adenosine uptake by oocyte–cumulus cell complexes (OCCs) and cumulus cell–enclosed oocytes (CEOs) by 82–85%, whereas uptake by denuded oocytes (DOs) was suppressed by 97%. Uridine had no effect on germinal vesicle breakdown (GVB) in CEOs when meiotic arrest was maintained with hypoxanthine or hypoxanthine plus adenosine but reversed the combined inhibitory action of these purines in DOs. Five of six adenosine analogs that bind to purinoceptors demonstrated meiosis‐arresting activity but not in relation to their relative affinities for inhibitory or stimulatory adenosine receptors and only at high concentrations. Moreover, in DOs, uridine reversed the inhibitory effect of 2‐chloroadenosine and 5′‐N‐ethylcarboxamidoadenosine, two receptor agonists that are poor substrates for adenosine‐metabolizing enzymes. Results of experiments with adenosine kinase inhibitors showed that methylmercaptopurine riboside (MMPR) and tubercidin, but not 5′‐amino‐5′‐deoxyadenosine, reversed meiotic arrest maintained by hypoxanthine ± adenosine, but this required an additional inhibitory action on de novo purine synthesis. Inhibition of de novo purine synthesis alone was not sufficient because azaserine failed to reverse meiotic arrest. MMPR was a very potent meiosis‐inducing agent, completely reversing meiotic arrest in CEOs and DOs in the presence of a variety of meiotic inhibitors. The adenosine deaminase inhibitor deoxycoformycin had opposite effects on oocyte maturation depending on the presence or absence of adenosine: the inhibitory action of hypoxanthine alone was bolstered, but the meiosis‐arresting action of adenosine was reversed. These data therefore indicate that at low adenosine concentrations phosphorylation predominates, but at higher adenosine concentrations deaminated products contribute to the meiotic inhibition. This idea was borne out by the ability of inosine to mimic the synergistic interaction of adenosine with hypoxanthine. The action of adenosine is not due to deamination to inosine and conversion to nucleotides through the hypoxanthine salvage pathway because adenosine‐mediated inhibition was not compromised in oocytes from mutant mice unable to salvage hypoxanthine. Mol. Reprod. Dev. 53:208–221, 1999. © 1999 Wiley‐Liss, Inc.     

Effects of chelating agents on the initial interaction of phytohemagglutinin with lymphocytes and the subsequent stimulation of amino acid uptake

The chelating agents, ethylene glycol bis-(β-aminoethyl ether)-N,N′-tetraacetic acid (EGTA) and EDTA, had no effect on the initial interaction of phytohemagglutinin with lymphocytes at concentrations which have been shown previously to inhibit the development of the phytohemagglutinin response completely. However, they had a marked inhibitory effect on uptake of the amino acid analog, α-aminoisobutyric acid in both unstimulated and phytohemagglutinin-stimulated cells. The inhibition of amino acid uptake by EGTA could be reversed by adding Ca²⁺ but not Mg²⁺. These results demonstrated that Ca²⁺ is not essential to the initial interaction of phytohemagglutinin with the cell, but does influence amino acid transport which may be a critical preparatory event for later increased protein synthesis.     

Amino Acid interactions in the regulation of nitrate reductase induction in cotton root tips

Glycine, asparagine, and glutamine inhibited the induction by nitrate of nitrate reductase activity in root tips of cotton (Gossypium hirsutum L.). This inhibition was partially or entirely prevented when the inhibitor was applied in combination with any of several other amino acids. Studies of ¹⁴C-labeled amino acid uptake showed that, in most cases, the apparent antagonism resulted simply from competition for uptake. However, certain antagonists did not curtail uptake. The most effective of these were leucine (against all three inhibitors), and isoleucine and valine (against asparagine or glutamine, but not glycine). These results show that interactions among amino acids in the regulation of nitrate reductase induction result from at least two mechanisms, one acting on uptake of inhibitory amino acids, and the other involving true antagonism.     

gamma-Glutamyl amino acids. Transport and conversion to 5-oxoproline in the kidney

Transport of gamma-glutamyl amino acids, a step in the proposed glutathione-gamma-glutamyl transpeptidase-mediated amino acid transport pathway, was examined in mouse kidney. The transport of gamma-glutamyl amino acids was demonstrated in vitro in studies on kidney slices. Transport was followed by measuring uptake of 35S after incubation of the slices in media containing gamma-glutamyl methionine [35S]sulfone. The experimental complication associated with extracellular conversion of the gamma-glutamyl amino acid to amino acid and uptake of the latter by slices was overcome by using 5-oxoproline formation (catalyzed by intracellular gamma-glutamyl-cyclotransferase) as an indicator of gamma-glutamyl amino acid transport. This method was also successfully applied to studies on transport of gamma-glutamyl amino acids in vivo. Transport of gamma-glutamyl amino acids in vitro and in vivo is inhibited by several inhibitors of gamma-glutamyl transpeptidase and also by high extracellular levels of glutathione. This seems to explain urinary excretion of gamma-glutamylcystine by humans with gamma-glutamyl transpeptidase deficiency and by mice treated with inhibitors of this enzyme. Mice depleted of glutathione by treatment with buthionine sulfoximine (which inhibits glutathione synthesis) or by treatment with 2,6-dimethyl-2,5-heptadiene-4-one (which effectively interacts with tissue glutathione) exhibited significantly less transport of gamma-glutamyl amino acids than did untreated controls. The findings suggest that intracellular glutathione functions in transport of gamma-glutamyl amino acids. Evidence was also obtained for transport of gamma-glutamyl gamma-glutamylphenylalanine into kidney slices.     

Biosynthesis of folic acid

Summary The influence of various vitamins on the biogenesis of folic acid has been studied in microorganisms requiring these as growth factors. In L. arabinosus, the folic acid synthesised was directly proportional to the availability of both riboflavin and pantothenic acid. The influence of cyanocobalamin on folic synthesis varied radically in different organisms. In case of the B₁₂/methionine auxotroph of E. coli there was an inverse relationship of vitamin B₁₂ to folic acid synthesis, while in Euglena the folic acid elaborated was in proportion to cyanocobalamin supplied. Synthesis of both folic acid and vitamin B₁₂ was depressed when thymine supply was adequate in the nutrition of E. coli 15 T ^-, a thymine auxotroph.     

Differentiating Adenosine Receptors and Adenosine Uptake Sites in Brain

Abstract

The characteristics of adenosine receptors and adenosine uptake sites in brain are presented. High affinity adenosine receptors of the A₁ type bind [³H]cyclohexyladenosine ([³H]CHA) and [³ H]diethyl-phenyl-xanthine ([³H]DPX) with 10^?9 potency while adenosine uptake sites are labeled 10^?10 potency with [³ H]nitrobenzyl-thioinosine ([³H]NBI). NBI does not inhibit either [³H]CHA (agonist) or [³H]DPX (antagonist) binding to adenosine receptors in brain cortical membranes and conversely CHA and other adenosine receptor ligands are very poor inhibitors of [³H]NBI binding to adenosine uptake sites. A number of other differences between the receptor and uptake site are discussed which provide rather strong evidence that these two sites are quite distinct and that the labeled ligands used represent specific probes for each site.     

Isolation and characterization of a <Emphasis Type="Italic">Mastigocladus</Emphasis> species capable of growth,N<Subscript>2</Subscript>-fixation and N-assimilation at elevated temperature

A Mastigocladus species was isolated from the hot spring of Jakrem (Meghalaya) India. Uptake and utilization of nitrate, nitrite, ammonium and amino acids (glutamine, asparagine, arginine, alanine) were studied in this cyanobacterium grown at different temperatures (25°C, 45°C). There was 2–3 fold increase in the heterocyst formation and nitrogenase activity in N-free medium at higher temperature (45°C). Growth and uptake and assimilation of various nitrogen sources were also 2–3 fold higher at 45°C indicating that it is a thermophile. The extent of induction and repression of nitrate uptake by NO₃ ⁻ and NH₄ ⁺, respectively, differed from that of nitrite. It appeared that Mastigocladus had two independent nitrate/nitrite transport systems. Nitrate reductase and nitrite reductase activitiy was not NO₃ ⁻-inducible and ammonium or amino acids caused only partial repression. Presence of various amino acids in the media partially repressed glutamine synthetase activity. Ammonium (methylammonium) and amino acid uptake showed a biphasic pattern, was energy-dependent and the induction of uptake required de novo protein synthesis. Ammonium transport was substrate (NH₄ ⁺)-repressible, while the amino acid uptake was substrate inducible. When grown at 25°C, the cyanobacterium formed maximum akinetes that remained viable upto 5 years under dry conditions.     

The Effect of Phosphinothricin (Glufosinate) on Glutathione Synthesis in Plants

The inhibitory effect of DL-phosphinothricin (glufosinate) on glutathione synthesis was studied in vivo and in vitro. The influence of phosphinothricin on γ-glutamylcysteine synthetase was compared with the already known effects of l -buthionine sulfoximine and l -methionine sulfoximine. The results showed that phosphinothricin and buthionine sulfoximine are inhibitors of γ-glutamylcysteine synthetase of plants. With both substances the enzyme was inhibited by 50 % at a concentration of 7 . 10^?4M (pI₅₀ = 3.15). Methionine sulfoximine reduced the enzyme activity by 50% at 5 . 10^?2 M (pI₅₀ = 1.30). It is discussed that the target enzyme of phosphinothricin is the glutamine synthetase whereas the γ-glutamylcysteine synthetase is only an accessory target.     

Amino Acid Metabolism of Lemna minor L. : I. Responses to Methionine Sulfoximine

When Lemna minor L. is supplied with the potent inhibitor of glutamine synthetase, methionine sulfoximine, rapid changes in free amino acid levels occur. Glutamine, glutamate, asparagine, aspartate, alanine, and serine levels decline concomitantly with ammonia accumulation. However, not all free amino acid pools deplete in response to this inhibitor. Several free amino acids including proline, valine, leucine, isoleucine, threonine, lysine, phenylalanine, tyrosine, histidine, and methionine exhibit severalfold accumulations within 24 hours of methionine sulfoximine treatment. To investigate whether these latter amino acid accumulations result from de novo synthesis via a methionine sulfoximine insensitive pathway of ammonia assimilation (e.g. glutamate dehydrogenase) or from protein turnover, fronds of Lemna minor were prelabeled with [¹⁵N]H₄⁺ prior to supplying the inhibitor. Analyses of the ¹⁵N abundance of free amino acids suggest that protein turnover is the major source of these methionine sulfoximine induced amino acid accumulations. Thus, the pools of valine, leucine, isoleucine, proline, and threonine accumulated in response to the inhibitor in the presence of [¹⁵N]H₄⁺, are ¹⁴N enriched and are not apparently derived from ¹⁵N-labeled precursors. To account for the selective accumulation of amino acids, such as valine, leucine, isoleucine, proline, and threonine, it is necessary to envisage that these free amino acids are relatively poorly catabolized in vivo. The amino acids which deplete in response to methionine sulfoximine (i.e. glutamate, glutamine, alanine, aspartate, asparagine, and serine) are all presumably rapidly catabolized to ammonia, either in the photorespiratory pathway or by alternative routes.     

Artificial diet for continuous maintenance of the maritima earwig Anisolabis maritima (Bonelli) (Dermaptera: Carcinophoridae)

Anisolabis maritima is an important predator for the eggs of the red palm weevil Rhynchophorous ferrugineus. It could be successfully reared in the laboratory, on an artificial diet composed of dry kidney beans, Brewers yeast, chicken, egg yolk, agar, ascorbic acid, mould inhibitors, vitamin B₁₂, folic acid and riboflavin.     

Sodium-dependent uptake of taurine in encapsulated Staphylococcus aureus strain M

A novel uptake system for the unusual sulfonated amino acid taurine was discovered in the prokaryote, encapsulated Staphylococcus aureus strain M. This strain has been shown previously to contain taurine in its capsular polysaccharide. Taurine uptake by whole cells incubated in buffer showed a saturable dependency upon Na⁺ and taurine uptake was itself a saturable process, stimulated by glucose, and markedly affected by temperature. No evidence was found for the inducibility of taurine uptake. In the presence of 10 mM NaCl Lineweaver-Burk plots revealed a K_m of 42 μM and V_max of 4.6 nmol/min per mg dry weight for taurine uptake at 37°C. Increasing concentrations of Na⁺ decreased the K_m of the system and appeared to increase the V_max. Of various other cations tested only Li⁺ supported marked taurine uptake. Excess unlabelled taurine did not cause efflux of radioactivity taken up. Taurine was taken up into cold trichloroacetic acid-soluble material and did not chromatograph as taurine, indicating rapid metabolism during or closely following uptake. Taurine uptake appeared to occur via a highly specific system because amino acids representing the major known groups of amino acid transport systems in S. aureus did not inhibit taurine uptake, and uptake was only slightly diminished by the structurally closely related compounds hypotaurine and 3-amino-1-propane sulfonic acid. Sulfhydryl group reagents, electron transport inhibitors, an uncoupler and inhibitors of Na⁺-linked transport processes inhibited taurine uptake. A variety of other metabolic inhibitors had little effect on taurine uptake.     

Effect of some potent adenosine uptake inhibitors on benzodiazepine binding in the CNS

A series of nucleoside transport inhibitors has been tested for their ability to displace [³H]diazepam binding to CNS membranes. No correlation between their potency as [³H]adenosine uptake blockers and as inhibitors of [³H]diazepam binding was found, either in rat or guinea-pig brain tissue. Dipyridamole, a potent adenosine transport inhibitor interacted strongly (K_i = 54 nM) with peripheral-type benzodiazepine binding sites (“acceptor sites”) and was 4–5 fold weaker in displacing [³H]methylclonazepam and [³H]Ro15-1788, ligands selective for the specific central benzodiazepine “receptor”. Unlike the benzodiazepines, dipyridamole had no anticonvulsant action against metrazole-induced convulsions in mice. Ro5-4864, a benzodiazepine which selectively interacts with the peripheral-type benzodiazepine binding site, was approximately equipotent with diazepam in inhibiting [³H]adenosine uptake in brain tissue. These results do not support the idea of a very close link between high-affinity central binding sites for clinically-active benzodiazepines and the adenosine uptake site. The possibility of a connection between benzodiazepine “acceptor” sites and the membrane nucleoside transporter is discussed.     

Adenosine and Glutamate Modulate Each Other's Release from Rat Hippocampal Synaptosomes

Abstract: In rat hippocampal synaptosomes, adenosine decreased the K⁺ (15 mM) or the kainate (1 mM) evoked release of glutamate and aspartate. An even more pronounced effect was observed in the presence of the stable adenosine analogue, R-phenylisopropyladenosine. All these effects were reversed by the selective adenosine A₁ receptor antagonist 8-cyclo-pentyltheophylline. In the same synaptosomal preparation, K⁺ (30 mM) strongly stimulated the release of the preloaded [³H]adenosine in a partially Ca²⁺-dependent and tetrodotoxin (TTX)-sensitive manner. Moreover, in the same experimental conditions, both l -glutamate and l -aspartate enhanced the release of [³H]adenosine derivatives ([³H]ADD). The gluta-mate-evoked release was dose dependent and appeared to be Ca²⁺ independent and tetrodotoxin insensitive. This effect was not due to metabolism because even the nonmetabolizable isomers d -glutamate and d -aspartate were able to stimulate [³H]ADD release. In contrast, the specific glutamate agonists N-methyl-d -aspartate, kainate, and quisqualate failed to stimulate [³H]ADD release, suggesting that glutamate and aspartate effects were not mediated by known excitatory amino acid receptors. Moreover, NMDA was also ineffective in the absence of Mg²⁺ and l -glutamate-evoked release was not inhibited by adding the specific antagonists 2-amino-5-phosphonovaleric acid or 6–7-dinitroquinoxaline-2, 3-dione. The stimulatory effect did not appear specific for only excitatory amino acids, as γ-anunobutyric acid stimulated [³H]ADD release in a dose-related manner. These results suggest that, at least in synaptosomal preparations from rat hippocampus, adenosine and glutamate modulate each other's release. The exact mechanism of such interplay, although still, unknown, could help in the understanding of excitatory amino acid neurotoxicity.     

Enhancement of glutathione production by altering adenosine metabolism of Escherichia coli in a coupled ATP regeneration system with Saccharomyces cerevisiae

Aims: Adenosine triphosphate (ATP) during the enzymatic production of glutathione is necessary. In this study, our aims were to investigate the reason for low glutathione production in Escherichia coli coupled with an ATP regeneration system and to develop a new strategy to improve the system. Methods and Results: Glutathione can be synthesized by enzymatic methods in the presence of ATP and three precursor amino acids (l ‐glutamic acid, l ‐cysteine and glycine). In this study, glutathione was produced from E. coli JM109 (pBV03) coupled with an ATP regeneration system, by using glycolytic pathway of Saccharomyces cerevisiae WSH2 as ATP regenerator from adenosine and glucose. In the coupled system, adenosine used for ATP regeneration by S. cerevisiae WSH2 was transformed into hypoxanthine irreversibly by E. coli JM109 (pBV03). As a consequence, S. cerevisiae WSH2 could not obtain enough adenosine for ATP regeneration in the glycolytic pathway in spite of consuming 400 mmol l^?1 glucose within 1 h. By adding adenosine deaminase inhibitor to block the metabolism from adenosine to hypoxanthine, glutathione production (8·92 mmol l^?1) enhanced 2·74‐fold in the coupled system. Conclusions: This unusual phenomenon that adenosine was transformed into hypoxanthine irreversibly by E. coli JM109 (pBV03) revealed that less glutathione production in the coupled ATP regeneration system was because of the poor efficiency of ATP generation. Significance and Impact of the Study: The results presented here provide a strategy to improve the efficiency of the coupled ATP regeneration system for enhancing glutathione production. The application potential can be microbial processes where ATP is needed.     

Cloning,Nucleotide Sequence,and Disruption of Streptococcus mutans Glutathione Reductase Gene (gor)

We cloned and sequenced the glutathione reductase gene (gor) of an oxygen-tolerant Streptococcus mutans, and constructed a gor-disruption mutant by homologous recombination. The gor gene consisted of 1,350 bp, coding for a protein of 450 amino acid residues. The deduced amino acid sequence of the S. mutans gor gene product showed extensive similarity with those of glutathione reductases from prokaryotes and eukaryotes. Although the mutant could grow aerobically, it showed no growth in the presence of 2 mM diamide, a thiol-specific oxidant. In contrast, growth of the wild-type strain was not significantly inhibited by 2 mM diamide, and glutathione reductase activity was increased 2.2-fold under these conditions. In addition, the level of glutathione reductase activity in the wild-type strain was increased 3.6-fold upon exposure to air, and the elevated level of the enzyme was retained throughout the aerobic growth. Thus, glutathione reductase may be important in protection of S. mutans against oxidative stress.     

Untersuchungen zur Rolle der Folsäure im Stoffwechsel autotropher Zellen

Zusammenfassung In Massenkulturen von Chlorella pyrenoidosa wurde die Rolle der Folsäure im Stoffwechsel, besonders im Hinblick auf deren mögliche Beteiligung an frühen Vorgängen des photosynthetischen Kohlenstoffeinbaues, untersucht. Als spezifische Antimetaboliten der Folsäure-Biosynthese wurden Sulfonamide (Sulfanilamid, Sulfathiazol) eingesetzt.Bereits nach 24 Std Einwirkungsdauer ist eine deutliche Abnahme der Teilungsintensität zu verzeichnen. Parallel damit läßt sich eine etwas geringere Abnahme des Pigment-und Nucleinsäure-Gehaltes (Ges.-NS, RNS, DNS) der Zellen nachweisen. Demgegenüber liegt eine deutliche Blockierung der Substanzproduktion erst nach 48 Std Hemmdauer vor. Aus diesem unterschiedlich starken Hemmeffekt auf Teilungsintensität und Substanzproduktion resultiert eine beachtliche Zunahme der Zell-größe, die nach 96 Std Versuchsdauer beinahe den doppelten Wert der Ausgangsgröße erreicht.Bei gleichzeitiger Gabe von p-Aminobenzoesäure (10^-6 Mol/l) oder Folsäure (10^-5 Mol/l) zum sulfanilamidhaltigen Kulturmedium ist keine Hemmwirkung des Antimetaboliten auf den Stoffwechsel der Algenzellen nachweisbar.Die schädigende Wirkung des Sulfonamids ist reversibel; der Rückgang der Hemmung wird anfangs durch unterschiedliche PAB-Konzentrationen in abgestufter Weise gefördert. ¹⁴C-Fixierungsexperimente lassen eine Beteiligung von Folsäure-Coenzymen an primären Vorgängen der photosynthetischen C-Einlagerung als fraglich erscheinen, da die Fixierung, bezogen auf die Substanzproduktion, nur langsam zurückgeht. Die Abnahme der Fixierung wird als sekundäre Veränderung des für die Photosynthese notwendigen Enzymapparates gedeutet.

---

Investigations concerning the role of folic acid in the metabolism of autotrophic cells

Summary The role of folic acid in metabolism was studied in mass cultures of Chlorella pyrenoidosa, especially with respect to its possible participation in early stages of photosynthetic CO₂-fixation. Sulfonamides (sulfanilamide, sulfathiazole) were used as specific antimetabolites in the biosynthesis of folic acid.After 24 hours the number of cell divisions was much more diminished than the pigment and nucleic acid content of the cells. Significant inhibition of mass production did not occur before 48 hours. This difference in the sensitivity of cell division and mass production towards the antimetabolite leads to a definite increase in cell size.Antimetabolites administered together with (10^-6 mol/l) p-aminobenzoic acid or (10^-5 mol/l) folic acid cause no inhibition.The harmful effect of the sulfonamide is strictly reversible; the speed of recovery depends on the p-aminobenzoic acid concentration. ¹⁴C-Fixation experiments gave no evidence for the participation of folic acid enzymes in primary processes of photosynthetic carbon uptake. The decline of the fixation rate may be interpreted as a secondary effect on the enzyme apparatus necessary for photosynthesis.The enormous increase of the sugar content in the individual cells indicates a general disturbance of the metabolism.

---

---

Dissertation der Mathematisch-naturwissenschaftlichen Fakultät der Universität Tübingen.