Plant tyrosine decarboxylase can be strongly inhibited by l-α-aminooxy-β-phenylpropionate

The effect of tunicamycin, an inhibitor of N-glycosylation of proteins, on growth and on synthesis of DNA and protein was studied in suspension cultures from Nicotiana tabacum and Catharanthus rosea. In the presence of 0.1–1 g · ml^-1 tunicamycin, cell division and DNA synthesis stopped in cells which had been proliferating logarithmically, but protein formation continued. Cytophotometric determination of the nuclear DNA content in Catharanthus cells showed that a cell-cycle arrest had occurred in G1 phase. Metabolic labelling of cells with the glycoprotein precursors glucosamine or mannose was inhibited, too. The results indicate that one or more glycoproteins are needed for the cell to pass through the G1 phase, as was recently postulated for animal and yeast cells.Abbreviations TCA trichloroacetic acid - TM tunicamycin     

Genetic study of the role of calcium ions in the cell division cycle of Saccharomyces cerevisiae: a calcium-dependent mutant and its trifluoperazine-dependent pseudorevertants

Summary A cal1-1 mutant of the yeast Saccharomyces cerevisiae showing Ca²⁺-dependent growth was isolated. Its growth continued exponentially in Ca²⁺-rich medium, but stopped in Ca²⁺-poor medium at 37°C. Mg²⁺ ions could not replace Ca²⁺ ions. In Ca²⁺-poor medium, the mutant cells stopped growing homogeneously at the stage of cell division cycle with a tiny bud. The nucleus in these arrested cells was in the G2 stage, judging from observation after nuclear staining and determination of the DNA content. Trifluoperazine-dependent pseudorevertants, which could grow in the presence of 20 M to 80 M trifluoperazine in Ca²⁺-poor medium at 37°C, were obtained from this cal1-1 mutant. The suppressor mutation, tfrl, itself conferred trifluoperazine resistance. Other calmodulin inhibitors structurally unrelated to trifluoperazine had similar effects to trifluoperazine on these pseudorevertants. These results suggest that Ca²⁺ ions and a calmodulin play important roles in the yeast cell division cycle at the stage of bud growth and nuclear division.Abbreviations Tfp trifluoperazine - DAP1 46-diamidino-2-phenylindole - EMS ethyl methanesulfonate - PD parental ditype - NPD nonparental ditype - T tetratype     

Degradation of phenol by a coimmobilized entrapped mixed culture

Summary The degradation of phenol by a defined mixed culture, consisting of Pseudomonas putida P8 and Cryptococcus elinovii H1, was studied. The microorganisms were entrapped either in 30 g·l^-1 calcium-alginate or in chitosan-alginate. Chitosan-alginate entrapment was suitable for a continuous culture. The coimmobilized mixed culture of Cryptococcus elinovii H1 which degrades phenol via an ortho pathway and of Pseudomonas putida P8 which uses the meta cleavage pathway was able to degrade high phenol concentrations up to 3.2 g·l^-1 in semicontinuous cultures. The degradation performance in continuous cultures could reach a maximum of 0.41 g·l^-1·h^-1 phenol. The mixed culture could be stored for up to six months without loss of phenol degradation capacity.Dedicated to Professor Dr. Dr. h. c. K. Esser on the occasion of his 65th birthday     

Cloning of the GSH1 and GSH2 Genes Complementing the Defective Biosynthesis of Glutathione in the Methylotrophic Yeast Hansenula polymorpha

The cloning of 7.2- and 9.6-kbp fragments of the methylotrophic yeast Hansenula polymorpha DNA restored the wild-type phenotype Gsh⁺ in the glutathione-dependent gsh1 and gsh2 mutants of this yeast defective in glutathione (GSH) synthesis because of a failure of the -glutamylcysteine synthetase reaction. The 9.6-kbp DNA fragment was found to contain a 4.3-kbp subfragment, which complemented the Gsh^– phenotype of the gsh2 mutant. The Gsh⁺ transformants of the gsh1 and gsh2 mutants, which bear plasmids pG1 and pG24, having the 7.2- and 4.3-kbp DNA fragments, respectively, had a completely restored wild-type phenotype with the ability to synthesize GSH and to grow in GSH-deficient synthetic media on various carbon sources, including methanol, and with acquired tolerance to cadmium ions. In addition, the 4.3-kbp DNA fragment borne by plasmid pG24 eliminated pleiotropic changes in the gsh2 mutants associated with methylotrophic growth in a semisynthetic (GSH-supplemented) medium (poor growth and alterations in the activity of the GSH-catabolizing enzyme -glutamyltransferase and the methanol-oxidizing enzyme alcohol oxidase).     

Expression of the RAD1 and RAD3 genes of Saccharomyces cerevisiae is not affected by DNA damage or during the cell division cycle

Summary The RAD1 and RAD3 genes of Saccharomyces cerevisiae are required for excision repair of UV damaged DNA. In addition, the RAD3 gene is essential since rad3 deletions are recessive lethals. We have examined the induction of the RAD1 and RAD3 genes by DNA damage and during the cell division cycle. We have made fusions of the RAD1 and RAD3 genes with the Escherichia coli lacZ gene encoding -galactosidase. -galactosidase activity was measured in a Rad⁺ yeast strain containing the RAD1-lacZ or the RAD3-lacZ fusion, either in a multicopy replicating plasmid or as a single copy integrant resulting from transformation with an integrating plasmid which transforms yeast by homologous recombination in the yeast genome. No induction of -galactosidase activity occurred after ultraviolet light (UV) or 4-nitroquinoline-1-oxide (NQO) treatment. Haploid cells of mating type a were synchronized by treatment with factor and -galactosidase activity was determined during different cell cycle stages. No change in -galactosidase activity was observed in the strain containing the RAD1-lacZ or the RAD3-lacZ fusion integrated in the yeast genome.     

Variations in chloroplast nucleoid number during the cell cycle in the algaScenedesmus quadricauda grown under different light conditions

Summary Synchronous cultures of the green algaScenedesmus quadricauda were grown at different mean irradiances (ranging from 15 Wm^–2 to 130Wm^–2). At each irradiance, the algae were exposed to illumination regimes which differed in light duration and dark intervals (222 to 240 hours). The cells from these cultures were sampled during their cycles, stained with DAPI and the number of nuclei and chloroplast nucleoids estimated.The nucleoids divided semisynchronously in steps which represented doublings in their number. For each doubling a constant amount of light energy (defined as the product of irradiance and light duration) had to be converted by the cells to become committed to this division. The times to the start of the nucleoid divisions were therefore inversely proportional to the irradiances applied and the final number of nucleoids was proportional to the light duration.Temporal relationships between nuclear and nucleoid divisions were also light dependent. Shortage of light energy caused delay in nucleoid division. The cell division rate was higher than the rate of nucleoid division and consequently, the cells tended to decrease their nucleoid number with decreasing irradiance. With increasing irradiance the start of nucleoid division was gradually shifted toward the beginning of the cell cycle. The rate of nucleoid division exceeded the rate of nuclear and cellular division, thus with increasing irradiance cells with increasing numbers of nucleoids were formed.Abbreviations DAPI 46-diamidino-2-phenylindole - pt-DNA chloroplast DNA     

Stable yeast transformation with chimeric plasmids using a 2 micron-circular DNA-less strain as a recipient.

Summary By using two chimeric plasmids containing yeast URA3 gene as a selection marker and 2 m yeast DNA linked to the bacterial plasmid pCR1, a yeast strain devoid of any 2 m DNA sequence was transformed. Recovery in E. coli of plasmids from yeast transformants showed that the 2 m-less strain was able to maintain the chimeric plasmids as autonomous replicons, with very infrequent plasmid recombination. Hybridization experiments gave no evidence for integration of the URA3 DNA sequence in the chromosomal DNA. The transformed clones showed a high stability of the ura⁺ character during vegetative multiplication, even in the absence of selective pressure. The specific activity of orotidine 5 monophosphate decarboxylase (coded by the URA3 gene) was 5 to 10 fold higher than in the wild type.These features should offer new possibilities for cloning with yeast.     

Production of phenylacetylcarbinol in various yeast species

Summary Production of phenylacetylcarbinol (PAC) was measured in various yeast species. The yeast strains tested were cultivated under submerged conditions in a medium containing corn steep and sucrose as the main components; sucrose, acetaldehyde and benzaldehyde were added to the grown cultures. In a first series of experiments the initial rate of PAC production, i.e. the PAC production determined 30 min after the addition of benzaldehyde was determined in 38 yeast strains, mostly of the generaSaccharomyces andCandida. The amount of PAC produced varied from zero (12 strains) to 1.24 mg ml^–1. In a second series of experiments, 15 strains, which in the first series had shown a higher PAC production, were further tested. Sucrose, acetaldehyde and benzaldehyde were added to the cultures until the PAC production ceased. The highest PAC production (6.3 mg ml^–1) was reached in the strainSaccharomyces carlsbergensis Budvar; the production was slightly lower in 4 strains of the generaSaccharomyces, Candida andHansenula.     

Cell division and DNA synthesis in uvrA recA double mutants of E. coli K12

Summary Cell division and incorporation of ³H-thymidine into acid-insoluble fraction were investigated for three uvrA recA double mutants of E. coli K12 irradiated with UV at 1.5 ergs/mm², producing about ten pyrimidine dimers per genome (about 0.01% survival). Cell division was measured both in M9 medium and in the same medium which was made very viscous by the addition of Metlose (the same product as Methocel used by Lin et al., 1971). It was found that a major fraction of irradiated bacteria continues to divide once or twice and stops thereafter. Incorporation of ³H-thymidine proceeded at a considerable rate for a short period following irradiation and then stopped. During subsequent incubation, the incorporation gradually decreased and after 4 h incubation most of the early incorporated radioactivity disappeared from the acid-insoluble fraction. These results indicate that cell division occurs after irradiation without parallel DNA synthesis as in a recA thy mutant of E. coli K12 deprived of thymine (Inouye, 1971). These results suggest that UV irradiation increases lethal sectoring due to the reckless cell division without parallel DNA synthesis. Since DNA synthesis took place only for a short period after irradiation, it may be assumed that the recA gene normally has at least a dual function; 1. elimination of damage induced by UV to support elongation or initiation of DNA, and 2. maintenance of coordination between DNA synthesis and cell division.     

Induction of phytoalexin formation in crown gall and hairy root culture of Salvia miltiorrhiza by methyl viologen

Methyl viologen (MV) (20–150 M), a generator of superoxide anion (O₂ ^–), but not hydrogen peroxide (H₂O₂) (10 M–2 mM) triggered the formation of cryptotanshinone (a phytoalexin) in cultures of both crown galls and hairy roots of Salvia miltiorrhiza. MV also inhibited the biomass formation and decreased the contents of phenolic acids in both cultures whereas H₂O₂ did not. In addition, MV and yeast elicitor induced cryptotanshinone formation synergistically only in crown gall cultures. Treatment of the cultures with 3.3 M diphenylene iodonium, an inhibitor of NAD(P)H oxidase, did not exhibit any detrimental effect on the yeast elicitor-induced cryptotanshinone formation in hairy root cultures whereas 1 M diphenylene iodonium was inhibitory on yeast elicitor-induced cryptotanshinone formation in crown gall cultures.     

Bildung Zusätzlicher DNS nach Blockierung der Zellteilung von Tetrahymena durch Actinomycin

Summary The effect of 0,4 g of actinomycin per ml medium on DNA synthesis in synchronous cultures of Tetrahymena pyriformis strain HSM was studied. Synchronous cultures were obtained by selecting cells from a stock culture which were all in the same division phase In this concentration actinomycin inhibits cell division but permits the normal doubling of DNA and furthermore another period of macronuclear DNA synthesis. In this additional DNA production phase the rate and the synchrony of DNA synthesis is reduced as revealed by autoradiography. The production of additional DNA was demonstrated by photometric determination of Feulgen stainable material. These findings indicate that the onset of DNA synthesis is independent of a preceding cell division, of a preceding nuclear division, of the average amount of DNA present, and of the main portion of RNA synthesis.

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Herrn Professor Dr. R. Danneel zu seinem 65. Geburtstag.

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Unterstützt durch Sachbeihilfen der Deutschen Forschungsgemeinschaft.     

Callus formation from protoplasts of a sugarbeet cell suspension culture

Protoplasts of sugarbeet (Beta vulgaris L.) were isolated from cell suspension cultures and cultured in modified PGo medium. Conditions required for the efficient division of the protoplasts were investigated.The optimal combination of phytohormones was found to be 1 mg/l NAA, 0.2 mg/l 2,4-D, 0.5 mg/l zeatin. Protoplast division was also considerably stimulated by the addition of 250 mg/l casein hydrolysate, 200 mg/l yeast extract, and 20% v/v conditioned culture medium to the protoplast culture medium. The highest division rate (up to 35% of the protoplasts) was achieved at a density of 4×10⁴- 1×10⁵ protoplasts/ml. From the colonies callus and suspension cultures were readily obtained.Abbreviations BAP 6-Benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA Indole-3-acetic acid - Kin 6-Furfurylaminopurine (kinetin) - NAA -Naphtalenacetic acid - Zea Zeatin     

Mitochondrial DNA from Podospora anserina. II. Properties of mutant DNA and multimeric circular DNA from senescent cultures.

Summary Mitochondrial (Mt) DNA from mitochondrial mutants of race s Podospora anserina and from senescent cultures of races s and A was examined. In mutants, we observed that fewer full length circles (31 ) were present; instead, smaller circles characteristic for each mutant sudied were found. Eco Rl digestion of these mutant MtDNAs indicated that in certain mutants, although specific fragments were absent, the total molecular weight of the fragments was not much different than wild-type.The properties of senescent MtDNA was strikingly different from either wild-type or mutant Mt DNA. First, a multimeric set of circular DNA was observed for both race s and A, with a monomeric repeat size of 0.89 . These circles ranged in size from 0.89 to greater than 20 ; only one molecule out of some 200 molecules was thought to be of full length (31 ). Density gradient analysis showed that there were two density species: a majority were at the same density as wild-type (1.694 g/cm³) and a second at 1.699 g/cm³. Most of the circular molecules from MtDNA isolated by either total DNA extraction or by extraction of DNA from isolated mitochondria were contained in the heavy DNA fraction. Eco R1 enzymatic digestion indicated that the light DNA had several fragments (amounting to about 23×10⁶ daltons) missing, compared with young, wild-type MtDNA. Heavy senescent MtDNA was not cleaved by Eco R1. Analysis with Hae III restriction endonuclease showed also that light senescent MtDNA was missing certain fragments. Heavy MtDNA of average size 20×10⁶ daltons, yielded only one fragment, 2,500 bp long, by digestion with Hae III restriction endonuclease. Digestion of heavy DNA with Alu I enzyme yielded 10 fragments totalling 2,570 bp. By three criteria, electron-microscopy, Eco R1 and Hae digestion, we conclude that the heavy MtDNA isolated from senescent cultures of Podospora anserina consisted of a monomeric tandemly repeating subunit of about 2,600 bp length.These results on the properties of senescent MtDNA are discussed with regard to the published properties of the rho ^- mutation in the yeast, S. cerevisiae.     

Detection of specific DNA sequences in yeast by colony hybridization

Summary A procedure is described for the detection of specific DNA sequences in Saccharomyces cerevisiae. This method allows a rapid screening of a large number of yeast colonies. The yeast cells of each colony, grown on nitrocellulose filters, are converted, in situ, to protoplasts by snail enzyme, and are then lysed and their DNAs are denatured and fixed on the filter. The presence of the specific DNA sequence is detected directly on the filter by hybridization with a radioactive cRNA.We have used successfully this technique to detect the presence or the absence of specific mt DNA sequences, in ⁺, ^- and ⁰ strains, and to detect the presence or the absence of the 2 m DNA sequences in different strains.     

Localization of a cruciform cutting endonuclease to yeast mitochondria

We have found a cruciform cutting endonuclease in the yeast, Saccharomyces cerevisiae, which localizes to the mitochondria. This activity apparently is associated with the mitochondrial inner membrane since the activity is not released into solution by osmolysis, in contrast to the matrix enzyme, isocitrate dehydrogenase. The cruciform cutting activity appears to be encoded by CCE1. This gene has been shown to encode one of the major cruciform cutting endonucleases present in a yeast cell. In ccel strains, which lack CCE1 endonuclease activity, the mitochondrial cruciform cutting endonucleolytic activity is also absent. Since CCE1 is allelic to MGT1, a gene required for the highly biased transmission of petite mitochondrial DNA in crosses between ⁺ and hypersuppressive ^– cells, it seems likely that the CCE1 endonuclease functions within mitochondria.     

Growth of Thermoanaerobium brockii in batch and continuous culture at supraoptimal temperatures

Summary Thermoanaerobium brockii was grown in batch and continuous culture at supraoptimal temperatures (>65° C). Specific growth rates were lower in batch (_max>1.0 h^-1) than in continuous cultures (_max1.2–1.4 h^-1). Acetone addition to the medium did not increase critical dilution rate significantly. The media used contained significantly less organic material and sulfide than previously reported media; however, yeast extract requirements were shown to be exceptionally high (60% of the glucose concentration used). Organic substrates inhibited growth and product formation in chemostat cultures whereas the slow formation of acetic acid was observed in batch cultures, but also with virtually no growth. The inhibiting concentration was found to be approximately 15 g organic carbon·l^-1. The maintenance requirements of T. brockii were in the same range as expected of aerobic extreme thermophiles (m_s0.5 g·g^-1·h^-1) and could be met only by glucose and not by yeast extract. Maintenance was obviously not independent of specific growth rate. Production of the stereospecific alcohol-aldehyde/ketone oxidore-ductase was strictly growth associated and its formation was not affected by acetone added to medium.     

Direct differentiation of tracheary elements in cultured explants of gamma-irradiated tubers of Helianthus tuberosus

Exposure of Jerusalem artichoke (Helianthus tuberosus) tubers to 20 krad doses of -irradiation inhibits mitosis and DNA synthesis in cultures subsequently inititated from such material. When cultures were initiated from immature, developing tubers, tracheary elements differentiated from parenchyma cells in response to auxin in the culture medium. The capacity for direct differentiation in irradiated tissues declined with tuber maturity, and in fully mature tubers xylem differentiation only occurred in non-irradiated controls, following a period of cell division. An hypothesis concerning changes in developmental plasticity of cells in relation to the cell cycle is discussed.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - [³H]TdR tritiated thymidine     

Continuous measurement of ethanol production by aerobic yeast suspensions with an enzyme electrode

Summary An alcohol electrode was constructed which consisted of an oxygen probe onto which alcohol oxidase was immobilized. This enzyme electrode was used, in combination with a reference oxygen electrode, to study the short-term kinetics of alcoholic fermentation by aerobic yeast suspensions after pulsing with glucose. The results demonstrate that this device is an excellent tool in obtaining quantitative data on the short-term expression of the Crabtree effect in yeasts.Samples from aerobic glucose-limited chemostat cultures of Saccharomyces cerevisiae not producing ethanol, immediately (within 2 min) exhibited aerobic alcoholic fermentation after being pulsed with excess glucose. With chemostat-grown Candida utilis, however, ethanol production was not detectable even at high sugar concentrations. The Crabtree effect in S. cerevisiae was studied in more detail with commercial baker's yeast. Ethanol formation occurred only at initial glucose concentrations exceeding 150 mg·l^-1, and the rate of alcoholic fermentation increased with increasing glucose concentrations up to 1,000 mg·l^-1 glucose.Similar experiments with batch cultures of certain non-fermentative yeasts revealed that these organisms are capable of alcoholic fermentation. Thus, even under fully aerobic conditions, Hansenula nonfermentans and Candida buffonii produced ethanol after being pulsed with glucose. In C. buffonii ethanol formation was already apparent at very low glucose concentrations (10 mg·l^-1) and alcoholic fermentation even proceeded at a higher rate than in S. cerevisiae. With Rhodotorula rubra, however, the rate of ethanol formation was below the detection limit, i.e., less than 0.1 mmol·g cells^-1·h^-1.     

A yeast protein analogous to Escherichia coli RecA protein whose cellular level is enhanced after UV irradiation

Summary In Saccharomyces cerevisiae, a protein was recognized by polyclonal antibodies raised against homogeneous Escherichia coli K12 RecA protein. The cellular level of the yeast protein called RecAsc (molecular weight 44 kDa, pI 6.3), was transiently enhanced after UV irradiation. Protease inhibitors were required to minimize degradation of the RecAsc protein during cell lysis. The RecAsc protein exhibited similar basal levels and similar kinetics of increase after UV irradiation in DNA-repair proficient (RAD ⁺) strains carrying mitochondrial DNA or not (rho ⁰). This was also true for the following DNA-repair deficient (rad ^-) strains: rad2-6 rad6-1 rad52-1, a triple mutant blocked in three major repair pathways; rad6-, a mutant containing an integrative deletion in a gene playing a central role in mutagenesis; pso2-1, a mutant that exhibits a reduced rate of mutagenesis and recombination after exposure to DNA cross-linking agents.