Effects of colchicine on nucleic acid metabolism during metamorphosis of Tenebrio molitor L. and in some mammalian tissues

1. Administration of 10mug. of colchicine/pupa of the beetle Tenebrio molitor L. arrests its differentiation, the pupa remaining alive for 2-3 weeks. 2. The same concentration of colchicine inhibits DNA synthesis and stimulates RNA synthesis (as shown by incorporation into the nucleic acids of labelled adenine, labelled uridine and labelled thymidine). The effects of colchicine on nucleic acid metabolism are first detected 3 days after its administration to first-day pupae. 3. No effects of colchicine are seen on [1-(14)C]glycine incorporation into protein in vivo. 4. Relatively high concentrations of colchicine (e.g. 10mm) suppress incorporation of [8-(14)C]adenine into RNA in dorsal abdominal wall in vitro. Such concentrations have no effect on its incorporation into acid-soluble nucleotides. 5. Colchicine (1mm) suppresses incorporation of [8-(14)C]adenine into DNA to a greater extent than into RNA in various mammalian tissues in vitro (e.g. rat spleen, regenerating rat liver, rat embryo, guinea-pig intestinal mucosa, Ehrlich ascites cells). Colchicine (1mm) has no effect on the rate of respiration of, or on incorporation of radioactivity into acid-soluble nucleotides in, the mammalian tissues tested. 6. Further evidence indicates complex-formation between colchicine and DNA, and it is suggested that the effect of colchicine in suppressing DNA synthesis is due to its combination with the DNA primer (template).     

Protein and nucleic acid synthesis during imbibition of dormant and after-ripened Vaccaria pyramidata seeds.

The regulation of nucleic acid and protein synthesis in dormant, thermodormant, and after-ripened embryos of Vaccaria pyramidata (Caryophyllaceae) has been studied. Germination of after-ripened V. pyramidata seeds is prevented by inhibitors of protein, RNA, and DNA synthesis. The synthesis of both protein and RNA is activated at the beginning of imbibition, whereas [³H]thymidine incorporation does not start until the second period of the imbibition phase. [³H]Thymidine incorporation is greatly reduced in embryos treated with cycloheximide or 6-methylpurine. There is no correlation between the level of [³H]uracil and l-[¹⁴C]leucine incorporation into macromolecules and the physiological state of the seeds: tRNA, ribosomal RNA, and poly(A)-containing RNA (probably mRNA) as well as proteins are synthesized at the same rate in both dormant and thermodormant embryos as in after-ripened embryos. The protein patterns of dormant and after-ripened embryos are similar, as shown by electrophoresis and electrofocusing of double-labeled proteins. The level of DNA synthesis, measured as [³H]thymidine incorporation, may, on the other hand, indicate the physiological activity of the seeds: [³H]Thymidine is incorporated at a high rate in after-ripened embryos only and remains at a low level in dormant or thermodormant embryos. This correlation is, however, observed only in the axes. DNA synthesis in the cotyledons does not show any relation to the developmental stage of the seeds. These results are discussed in relation to the regulation of dormancy and after-ripening of seeds.     

Adenine uptake in Neurospora crassa mycelium]

The uptake of 8-C14-adenine in N. crassa strain Lindegren (+) was studied. The ability of N. crassa cells to uptake adenine from the medium reaches maximum at the very beginning of the logarithmic stage of growth. Adenine enters the mycelium against the concentration gradient. The uptake of adenine is maximal at 25-30 degrees C, pH 4,6-4,8, and adenine concentration in the medium about 2-15X10(-6) M. The entry of adenine into the cells follows normal Michaelis-Menten kinetics, the apparent Km=0.83+/-0.02 micron. The uptake is inhibited at higher concentrations (10(-3)-10(-4) M) of adenine. 2,6-Diaminopurine, hypoxanthine, guanine, 8-azaadenine and 8-azaguanine inhibit the transport of adenine into the cell. Xanthine and cytosine do not affect the uptake of adenine. Adenine taken up into the cell is rapidly metabolized to AMP, ADP and ATP.     

N^7＋重离子注入和贯穿后小麦种胚的期外DNA合成效应

用＾３ＨＴｄＲ掺入法研究了经Ｎ＾７＋重离子注入贯穿处理的８２５７９小麦和８８１２小麦种胚的ＤＮＡ合成动态。结果发现,未经Ｎ＾７＋重离子任何处理的两个小麦品种的对照种胚,在萌发早期（２０ｈ内）仅存在一个ＤＮＡ合成峰（于萌发的第１４ｈ）,而经过Ｎ＾７＋重离子注入和贯穿处理的小麦种胚则存在两个ＤＮＡ合成峰（分别于萌发的８－１０ｈ和１４－１６ｈ）,该种子经ＤＮＡ修复合成的抑制剂咖啡因处理后,第一个ＤＮＡ合     

Effect of pyridoxine deficiency on nucleic acid metabolism in the rat

1. The nucleic acid metabolism in the pyridoxine-deficient rat has been investigated through studies on the incorporation of radioactivity from various isotopically labelled compounds into liver and spleen DNA and RNA. 2. In pyridoxine deficiency, the incorporation of radioactivity from sodium [¹⁴C]formate was apparently increased. The magnitude of this effect on incorporation into liver RNA and DNA and spleen RNA was approximately the same. The incorporation into spleen DNA was enhanced to a much greater degree. Administration of pyridoxine 24hr. before the rats were killed reversed the changes in incorporation of radioactivity from [¹⁴C]formate. 3. In pyridoxine deficiency, the incorporation of radioactivity from dl-[3-¹⁴C]serine, [8-¹⁴C]adenine, [Me-³H]thymidine and [2-¹⁴C]deoxyuridine was decreased. The incorporation of radioactivity from l-[Me-¹⁴C]methionine was not affected. No noteworthy differences in the effect of pyridoxine deficiency on the incorporation of radioactivity from dl-[3-¹⁴C]serine into DNA and RNA were observed, whereas the effect of the deficiency on the incorporation of radioactivity from [8-¹⁴C]adenine into spleen DNA was somewhat greater than that into spleen RNA. Administration of pyridoxine 24hr. before the rats were killed reversed the changes in incorporation of radioactivity from [3-¹⁴C]serine and [8-¹⁴C]adenine. 4. The adverse effects of pyridoxine deficiency on the biosynthesis of nucleic acids and cell multiplication are discussed in relation to the role of pyridoxal phosphate in the production of C₁ units via the serine-hydroxymethylase reaction.     

Effects of urinary proteins from certain leukemics upon macromolecular synthesis and enzyme levels in bone marrow cultures.

Urinary proteins from human leukemic patients have been found to alter quantitatively macromolecular synthesis in primary mouse bone marrow cultures. Urinary protein-stimulated incorporation of [3H]uridine into RNA was found after 1 day of culture. Increased levels of adenine phosphoribosyltransferase and lysozyme were demonstrable at 3 and 5 days, respectively, with urinary protein-supplemented cultures. The incorporation of 3H-labeled deoxynucleosides into DNA was higher in the presence of urinary proteins after 2 days of culture. The rate of incorporation of [3H]deoxyuridine into DNA was strongly inhibited by 10(-5) M Methotrexate and 10(-6) M 5-fluorodeoxyuridine, however, the effect of urinary proteins on incorporation of [3H]uridine into RNA and lysozyme accumulation were not inhibited. Urinary proteins also stimulated the formation of "colonies" (groups of at least 30 cells) in media containing methylcellulose. This latter phenomenon was also not inhibited by 10(-5) M Methotrexate or 10(-6) M 5-fluorodeoxyuridine. The results of these studies are consistent with the postulate that in the presence of human urinary proteins, mouse bone marrow cells in culture proceed to a phenotype characteristic of circulating peripheral white cells.     

Metabolism of nicotinamide, adenine and inosine in developing microspore-derived canola (Brassica napus) embryos

The metabolic fate of [carbonyl-(14)C]nicotinamide, [8-(14)C]adenine and [8-(14)C]inosine was examined in microspore-derived canola (Brassica napus) embryos at different developmental stages: globular stage (day 10, stage 1), early cotyledonary stage (day 20, stage 2), late cotyledonary stage (day 25, stage 3), and fully developed stage (day 35, stage 4). Uptake of [8-(14)C]nicotinamide by the embryos was always rapid. A lower uptake rate was found for [8-(14)C]adenine and [8-(14)C]inosine, especially at stages 1 and 2. [Carbonyl-(14)C]nicotinamide was converted to nicotinic acid and further metabolized to pyridine nucleotides (NAD/NADP). Some radioactivity was also associated to nicotinic acid glucoside. [8-(14)C]adenine was efficiently utilized for the synthesis of adenine nucleotides and RNA. A small fraction of adenine was degraded to CO(2) via ureides. Up to 40% of [8-(14)C]inosine was salvaged to nucleotides and RNA, although degradation of [8-(14)C]inosine to CO(2) was pronounced. At stage 1, highest salvage activities of nicotinamide, adenine and inosine were observed. In contrast, the lowest purine salvage and highest purine catabolism were found in stage 3 embryos. These results suggest that both nicotinamide and purine salvage for NAD/NADP and purine nucleotides synthesis are extremely high in the globular stage (stage 1). These activities decrease gradually until the late cotyledonary stage (stage 3), before increasing again in the fully developed embryos (stage 4). Overall it appears that nicotinamide and purine salvage are required in support of active growth during the initial phases of embryogenesis and at the end of the maturation period, in preparation for post-embryonic growth.     

Eremothecium ashbyii mutants resistant to 8-azaguanine. II. Mutants with different degrees of resistance to 8-azaguanine]

Guanine, unlike adenine and hypoxanthine, can not eliminate the inhibitory effect of adenine analogues on the growth and flavinogenesis of Eremothecium ashbyii. Guanine does not restore riboflavin synthesis inhibited with 5-10(-3) M 8-azaguanine. Low adenine concentrations (10(-4)-3-10(-4) M), which do not influence the inhibitory effect of 5.-10(-3) M 8-azaguanine, restore the riboflavin synthesis in combination with guanine. On the basis of the data obtained as well as the data of biochemical analysis it is concluded that the riboflavin producer studied lacks guanosinemonophosphate reductase. The mutants resistant to various concentrations of 8-azaguanine have been obtained. In all mutants resistant to 8-azaguanine the efficiency of the incorporation of 14C-guanine and 14C-adenine into mycelium is decreased as compared with the susceptible strain. The mutant Azg-R 10 resistant to high (3-10(-3) M) concentrations of 8-azaguanine, 8-azaadenine and 2,6-diaminopurine secretes inosine-like compounds when grown in a synthetic medium. The stepwise increase of the mutant resistance to 8-azaguanine from 10(-4) M TO 3-10(-3) M did not result in further enhancement of riboflavin synthesis.     

Uptake and utilization of S-adenosyl-L-methionine and S-adenosyl-L-homocysteine in an adenine mutant of Saccharomyces cerevisiae

An adenine mutant of Saccharomyces cerevisiae was able to utilize S-adenosyl-l-methionine (SAM), S-adenosyl-l-homocysteine (SAH), or adenine as sources for growth and ribonucleic acid (RNA) synthesis. Exogenous SAM or SAH was degraded after entering the cell, and the adenine moiety was reutilized in the endogenous synthesis of the thionium compounds. Part of this endogenous synthesis proceeds from an undetermined de novo system of purine synthesis which contributes significantly to the synthesis of SAM and less so to the RNA purines. Some of the methyl groups of exogenous SAM-methyl-(3)H were incorporated into ribosomal and transfer RNA. Methionine partially antagonized this incorporation. The uptake of SAM-adenine-8-(14)C was not affected by the presence of equal quantities of SAH or adenine in the medium. Exogenous SAM affected the uptake of exogenous SAH-adenine-8-(14)C or adenine-8-(14)C. Exogenous SAH inhibited the uptake of exogenous adenine-8-(14)C.     

The Biosynthesis of Cytokinins in Germinating Lupin Seeds

Imbibed intact seeds, and excised embryos and cotyledons ofyellow lupin (Lupinus luteus L. cv. Weiko III) have been incubatedwith [¹⁴C]-adenine to investigate cytokinin biosynthesis duringthe early stages of germination. Following incubation the tissueswere extracted and purified by solvent partition and chromatographyon cellulose phosphate, diethylaminoethyl cellulose and SephadexLH-20 columns. Using a variety of thin layer chromatographic,high performance liquid chromato-graphic and chemical procedures,incorporation of ¹⁴C into dihydrozeatin riboside and its nucleotidewas demonstrated in extracts of intact embryos, intact cotyledonsand excised embryos. However, radioactivity was not found associatedwith cytokinins in fractions derived from the isolated cotyledons.This is the first direct demonstration of cytokinin biosynthesisin germinating seeds and the results indicate that the capacityfor cytokinin biosynthesis is probably confined to the embryonicaxes. If this is so, the levels of [¹⁴CJ-dihydrozeatin ribosideassociated with intact embryo and intact cotyledon fractionsindicate that the synthesized cytokinin is transported to andaccumulates in the cotyledons. Key words: Lupinus luteus, cytokinin biosynthesis, seed germination     

Nutrient media for plant-parasitic nematodes. VI. Nucleic acids content and nucleotide synthesis in Aphelenchoides rutgersi

The nucleic acids content of Aphelenchoides rutgersi, Hooper and Myers, was 0.9% DNA and 2.6% RNA dry weight. The DNA contained 29.5% adenine, 29.3% thymine, 22.5% guanine, and 18.8% cytosine, while the RNA was composed of 22.8% adenine, 23.0% uracil, 31.4% guanine, and 22.9% cytosine on a molar basis.The nematodes needed folic acid for reproduction regardless of the presence or absence of nucleic acid supplements in the culture medium. This was shown by including aminopterin, a folic acid antagonist in the culture medium. A 2-hr incubation of nematodes with glycine-¹⁴C (U) and orotic-5-³H acid resulted in the incorporation of ³H-label into both DNA and RNA. Only the RNA fraction contained a significant amount of ¹⁴C-label. When this RNA was fractionated, the adenine and guanine accounted for the ¹⁴C-label, while cytidylic and uridylic acids contained the ³H-label, thereby demonstrating purine and pyrimidine synthesis by A. rutgersi. The incorporation of orotic acid into the pyrimidines was 8 times higher than that of glycine into purines.     

Impairment of DNA formation is an early event in Aspergillus niger under manganese starvation

Summary The effect of managanese on Aspergillus niger ATCC 11414 was studied during the trophophase in a citric acid-accumulating sucrosemineral medium. The absence of manganese ions restricted growth and caused characteristic morphological aberrations. Labelling with (8¹⁴-C) adenine in-vivo revealed a reversible inhibition of DNA synthesis, but not of RNA synthesis in mycelia starved of manganese. A strong inhibition of DNA synthesis in the presence of 0.2 M Mn²⁺ was observed upon addition of 200 mM hydroxyurea (HU) which is known as specific inhibitor of the ribonucleotide reductase.The hypothesis is proposed that inhibition of DNA formation in A. niger may be traced back to an impairment of manganese dependent ribonucleotide reduction which provides the monomeric precursors for DNA replication.     

Changes in protein synthesis during stratification and dormancy release in embryos of sugar maple (Acer saccharum)

Protein synthesis in dormant embryos of sugar maple ( Acer saccharum ) was investigated in seeds stratified at 4°C or incubated at 15°C. Seeds stratified at 4°C germinated after 27 days; seeds incubated at 15°C failed to germinate. Stratification increased the embryo's capacity for protein synthesis by day 11 as measured by in vivo incorporation of [³⁵S]-methionine into purified protein. At 4°C protein synthesis in the embryonic axis rose in a linear fashion prior to germination, whereas in cotyledons it increased until day 20 and then declined. Analysis of radiolabelled proteins by two-dimensional gel electrophoresis revealed that the levels of specific proteins were altered by temperature, primarily in the cotyledons. Several proteins were expressed in the cotyledons at 15°C but were absent in unstratified embryos and in embryos stratified at 4°C. That is, the expression of these proteins was repressed during stratification and release from dormancy. Levels of other proteins in the cotyledons declined at 4°C during stratification. We suggest that one or more of these proteins may be associated with the inhibition of growth of the embryonic axis imposed by the cotyledons.     

Biosynthesis, accumulation and degradation of theobromine in developing Theobroma cacao fruits

We have studied the purine alkaloid content and purine metabolism in Theobroma cacao fruits at differing growth stages: Stage A (young small fruit, fresh weight, ca. 2 g); stage B (medium size fruit, fresh weight, ca. 100 g) and stage C (large size, fresh weight, ca. 500 g). The major purine alkaloid in stage A fruits (mainly pericarp) was theobromine (0.7 micromol g(-1) fresh weight), followed by caffeine (0.09 micromol g(-1) fresh weight). The theobromine content of the pericarp decreased sharply with tissue age, and the caffeine content decreased gradually. A large amount of theobromine (22 micromol g(-1) fresh weight) had accumulated in seeds (mainly cotyledons) of stage C fruits. Theobromine was found also in the seed coat and placenta. Tracer experiments with [8-(14)C]adenine show that the major sites of theobromine synthesis are the young pericarp and cotyledons of T. cacao fruits. Limited amounts of purine alkaloids may be transported from the pericarp to seed tissue, but most purine alkaloids that accumulated in seeds appeared to be synthesised in cotyledons. Degradation of [8-(14)C]theobromine and [8-(14)C]caffeine to CO2 via 3-methylxanthine and ureides (allantoin and allantoic acid) was detected only in the pericarp of stage C fruits.     

The polyadenylate polymerases from yeast.

Poly(A) polymerase activity was first detected in yeast extracts, primarily in association with the ribosomal fraction, by Twu and Bretthauer in 1971 (Twu, J. S., and Bretthauer, RK. (1971) Biochemistry 10, 1576-1582). This activity has now been separated into three distinct enzymes by chromatography on DEAE-cellulose. Each of the three enzymes can catalyze the incorporation of adenylate residues from ATP into a polyadenylate (poly(A)) tract at the 3' terminus of a primer RNA. Enzyme I elutes at 0.07 M ammonium sulfate from the DEAE-cellulose column, utilizes the mixed polynucleotide poly(A,G,C,U) or ribosomal RNA most efficiently in vitro, and may be responsible in vivo for the initiation of the poly(A) tracts found on yeast messenger RNA. Enzyme II elutes from the column at 0.20 M ammonium sulfate, requires poly(A) itself or an RNA primer containing a 3'-oligo(A) tract, and may be responsible in the nucleus for the elongation of tracts initiated by enzyme I. Enzyme III elutes from the column at 0.56 M ammonium sulfate and is present in low amounts in nuclear extracts. It may be involved in adding poly(A) tracts to messenger RNA in mitochondria. These enzymes also have the intrinsic capacity for the incorporation of cytidylate residues from CTP, which correlates with the finding of cytidylate residues in the poly(A) tracts present in the yeast RNA which is rapidly labeled in vivo. About 75% of the total poly(A) polymerase activity of yeast is enzyme I, most of which is present in the soluble protein fraction of the whole yeast extract. About 20% of the total poly(A) polymerase is enzyme II, and 1 to 5% is enzyme III. All three of the yeast poly(A) polymerases require an RNA primer with a free 3'-hydroxyl group, show no requirement for a DNA template, require Mn-2+ for optimal activity, have pH optima of 8.5, and are inhibited by GTP, CTP, UTP, and native yeast DNA. Polymerases I and II have similar molecular weights by gel filtration.     

Metabolism, Macromolecular Synthesis, and Nuclear Behavior of Cryptococcus albidus at 37 C

The temperature-sensitive events which prevent Cryptococcus albidus from growing at 37 C were investigated. Cultures incubated at 37 C immediately after inoculation did not increase in optical density nor in cell numbers, and by 24 h 90% of cells in such cultures were deformed and dead. When cultures in log phase were shifted from 23 to 37 C the optical density increased but the cell numbers did not. Morphological observations revealed that the increase in turbidity at 37 C represented enlargement and distortion of cells without appreciable replication. Uptake and incorporation of (14)C-leucine were similar at 23 and 37 C. There was no difference in (14)CO(2) evolution from cells at either temperature. Uptake and incorporation of adenine-8-(14)C into RNA was slightly lower in cells incubated at 37 C. There was, however, a 60% reduction in incorporation of adenine-8-(14)C into DNA after 3 hr at 37 C. Nuclear staining revealed that nuclear migration did not occur in cells incubated at 37 C. Thus the data indicate that both adenine incorporation into DNA and nuclear migration prior to nuclear division by C. albidus are temperature sensitive.     

Occurrence of mRNA for storage protein in dry soybean seeds

Poly(A)-containing RNA has been isolated from the cotyledons of soybean seeds by adsorption on a poly(U)-Sepharose column. Approximately 0.15% of the total soybean RNA applied bound to the column. The bound RNA (poly(A)-containing RNA) was shown to be mRNA by its ability to serve as template in a cell-free system derived from wheat germ. Poly(A)-containing RNA was polydisperse, migrating from approximately 50,000 to 700,000 daltons with a mean of 150,000 daltons in polyacrylamide gel electrophoresis. The size of the poly(A) portion of this RNA was in the range of 55 to 290 nucleotides. The adenylic acid content of the presumed poly(A) fragment was about 95%. The radioactive products of translation directed by the poly(A)-containing RNA in the wheat germ cell-free system were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and by immunoprecipitation using antisera against beta-conglycinin and glycinin. The results of this investigation show that mRNAs for the subunit proteins of the major components of a soybean storage protein exist in the poly(A)-containing RNA preparation obtained from the cotyledons of dry soybean seeds.     

The effect of epinephrine and serotonin on hepatic poly(A)+ RNA synthesis

In vivo administration of epinephrine or serotonin has been shown to stimulate the incorporation of 14C-orotic acid into Poly(A)+ RNA. However, only epinephrine and not serotonin could stimulate DNA dependent RNA polymerase activity of isolated hepatic nuclei in in vitro experiments.     

Metabolic fate of 14C-labelled nicotinamide and adenine in germinating propagules of the mangrove Bruguiera gymnorrhiza

We studied the metabolic fate of [carbonyl-14C]nicotinamide and [8-(14)C]adenine in segments taken from young and developing leaves, stem, hypocotyls, and roots of a shoot-root type emerging propagule of the mangrove plant Bruguiera gymnorrhiza. Thin-layer chromatography was used together with a bioimaging analyser system. During 4 h of incubation, incorporation of radioactivity from [carbonyl-14C]nicotinamide into NAD and trigonelline was found in all parts of the propagules; the highest incorporation rates into NAD and trigonelline were found in newly emerged stem and young leaves, respectively. Radioactivity from [8-(14)C]adenine was distributed mainly in the salvage products (adenine nucleotides and RNA), and incorporation was less in catabolites (allantoin, allantoic acid, and CO2). Adenine salvage activity was higher in young leaves and stem than in hypocotyls and roots. Over a short time, the effect of 500 mM NaCl on nicotinamide and adenine metabolism indicated that NaCl inhibits both salvage and degradation activities in roots.     

Kinetics of the interaction of methylene diphosphonic acid and inorganic pyrophosphate with DNA-dependent RNA-polymerase from calf thymus

The kinetics of interaction of PPi and its diphosphonic analog, methylenediphosphonic acid (MDPA), with nucleoside triphosphates, DNA and Mg2+ binding sites of DNA-dependent RNA polymerase II from calf thymus was investigated. The values of apparent Km in the NTP polymerization reaction for ATP and CTP equal to 2.7 X 10(-4) and 1.8 X 10(-4) M, respectively, were determined. It was shown that MDPA and PPi competitively inhibited the RNA polymerase reaction with respect to nucleoside triphosphate. The inhibition constants (Ki) of ATP and CTP incorporation for MDPA were 2.2 X 10(-4) and 3.3 X 10(-4) M, respectively, while those of the nucleoside triphosphate incorporation for PPi were equal to 1.4 X 10(-4) and 2.0 X 10(-4) M, respectively. MDPA and PPi were incompetitive inhibitors of template (DNA) and Mn2+. A possible mechanism of inhibition of the RNA polymerase reaction by MDPA is proposed.