INFLUENCE OF AGE IN THE INCORPORATION OF [14C]GLYCINE INTO ISOLATED RAT NERVE SEGMENTS IN VITRO

—(1) Sciatic nerves of young rats have been shown to incorporate [¹⁴C]glycine in vitro into the protein fraction at a higher rate than nerves from adult rats under the same conditions. (2) Whilst there is little change in the DNA content of the sciatic nerve of rats with age, there is a is noticeable decline in the RNA content with age. (3) There a linear relationship between the specific activity of the protein fraction and the RNA content of the sciatic nerve under in vitro conditions. (4) There is a decline in the specific activity of the protein fraction with age when expressed against DNA. (5) A linear relationship exists between the logarithm of the specific activity and the length of the femur.     

PATTERN OF RNA SYNTHESIS IN THE SCIATIC NERVE OF THE HEN DURING WALLERIAN DEGENERATION

The pattern of synthesis of rapidly-labelled RNA of hen sciatic nerve was studied during Wallerian degeneration. At 2,4,8, 16 and 30 days of degeneration the proximal and distal stumps of the severed nerve as well as the intact contralateral sciatic nerve (functional control) were excised and incubated with either [5-³H]uridine or [2-¹⁴C]uridine for 0.5 h. The electrophoretic pattern of RNA from the normal adult sciatic nerve showed that most of the radioactivity was incorporated into RNA species migrating between the 18 S and 4 S components of the bulk RNA. The synthesis of RNA was sensitive to actinomycin-D, an indication that it was directed by a DNA template. The electrophoretic patterns of the rapidly-labelled RNA in the proximal and distal nerve stumps demonstrated a change following nerve section. After 2–4 days of Wallerian degeneration the degenerating distal nerves incorporated more radioactivity in the 4 S region than the corresponding controls, but at 8 and 16-days after degeneration relatively more label appeared in higher molecular weight RNA species. In the intact sciatic nerve of the operated hens progressively more radioactivity was detected in the 4 S region with increasing time after the contralateral nerve section. At each stage of Wallerian degeneration the specific radioactivities of RNA in the control nerves from experimental hens were higher than those of the normal adult sciatic nerve. These results indicated a change of RNA metabolism in increased functional activity and during Wallerian degeneration.     

RNA/DNA ratio as a growth indicator of stream periphyton

相似文献   

CHANGES IN POLYSOMES OF THE DEVELOPING RAT BRAIN

Abstract— Rat brain polysomes were prepared from a deoxycholate-treated postmito-chondrial supernatant in the presence of 2% bentonite and 1 mg/ml of yeast RNA to prevent partial degradation during preparation.

• 1 The polysomal preparations had an absorption maximum at 260 mμ and an absorption minimum at 235 mμ. The ratio of absorption maximum to minimum and the RNA to protein ratio were 1·58 and 1·06 respectively in 6-day-old rat brain polysomes. The sedimentation patterns showed six distinct peaks with sedimentation coefficients of 235S, 185S, 173S, 135S, 100S and 80S, indicating that these preparations have the characteristics of pure heavy polysomes.

• 2 The rate of [¹⁴C]phenylalanine incorporation into brain polysomal protein was maximal at approximately 10 days of age and decreased thereafter. A similar progressive reduction with increasing age was found in the stimulation of phenylalanine incorporation by the addition of 60 μg/tube of polyuridylic acid. However, the incorporation of phenylalanine into young rat brain polysomes was usually greater even with the addition of polyuridylic acid than in the older animals.

• 3 The comparative studies on sucrose density gradient centrifugation of polysomes between young and adult rat brains showed a considerable decrease of heavy polysomes in the older animals.

• 4 The effect of various factors on the stability of brain polysomes from both ages has been studied. The rates of RNA, protein and acid-soluble phosphorus release from polysomes of the adult rat brains were usually greater in the presence of high salt concentration, ethylenediaminetetra-acetic acid and urea than those from the corresponding preparations of younger animals. On the basis of evidence obtained from the above results it suggested that the adult brain polysomes were more unstable than those of younger animals.

• 5 The amount of polysomal RNA linearly increased up to the first 20 days after birth and then levelled off. The ratio of G + C/A + U of polysomal RNA was less in the young rat brains, falling to 1·30 as compared to 1·50 in older animals. The differences were statistically significant at less than a 1% level of confidence.

• 6 Polysomal preparations also contained RNase, phosphomonoesterase, phospho-diesterase and 5′-nucleotidase activities which cannot be washed off. The specific activities of these enzymes were generally higher in young rat brains than those in the adult.

     

AMINO ACID INCORPORATION INTO PROTEIN IN NEURONAL CELL BODY AND NEUROPIL FRACTIONS IN VITRO

Abstract—

• 1 The incorporation of radioactivity from [³H]lysine into acid-insoluble material in vitro in mixed cell suspensions and isolated neuronal and neuropil fractions has been followed.
• 2 In the mixed cell suspension, incorporation was linear in fresh preparations for up to 60 min. In cold stored preparations, incorporation began to fall off after 30 min. Incorporation, at 4-11 pmol/mg protein/h, was intermediate between that in the tissue slice and in a cell-free preparation. Addition of a mixture of non-labelled amino acids at 1 mM produced a 30-40 per cent inhibition of incorporation. Molar rates of incorporation of glutamate and tryptophan into the mixed cell fractions were respectively 73 and 1-4 times that of lysine.
• 3 Only 8 per cent of the incorporated radioactivity could be recovered in soluble as opposed to particulate material. After hydrolysis of the protein, followed by paper chromatography and autoradiography, radioactivity was detected only in the position corresponding to lysine.
• 4 Incorporation in the separated cell fractions was not markedly reduced by the centri-fugation procedure. Incorporation into the neuronal fraction was 2-2-6 times that into the neuropil fraction, depending on the amino acid used. Incorporation into both was reduced by some 40 per cent by addition of an amino acid mixture.
• 5 Comparison of in vivo and in vitro data suggest that the differences in rate of incorporation are characteristic of neurons and neuropil in situ.

     

The relationship between DNA synthesis and the synthesis of nuclear proteins in rat brain during development

—The incorporation of [³H]thymidine into nuclear DNA of rat brain progressively increased from birth until the 8th postnatal day and it was lowest in the adult brain. When isolated nuclei from brain cells were separated into a neuronal- and a glial-rich fraction (composed of glial and neuroblast nuclei in young animals), the specific radioactivity of the DNA was higher in the glial-rich fraction at all ages investigated. The incorporation of [³H]leucine into proteins of rat brain was considerably higher in the 8-than in the 1-day-old rat. The greatest difference in the rate of protein synthesis between 8- and 1-day-old brain occurred in the nuclear proteins, especially those associated with DNA. There was an accumulation of protein and RNA in nuclei from brain cells from birth to the 8th postnatal day. The increased content of proteins occurred primarily in the fraction soluble in buffered saline (nuclear sap).     

INCORPORATION OF [14C]GLYCINE INTO PROTEIN OF THE ADULT RAT PERIPHERAL NERVE: EFFECTS OF INHIBITORS

—(1) The rate of incorporation in vitro of [¹⁴C]glycine into adult rat peripheral nerve protein was studied and found to be linear up to a concentration of 4.5 μc/ml. It was also linear with time of incubation up to at least 6 hr. (2) Anaerobiosis, potassium cyanide, dinitrophenol and diphtheria toxin inhibited the incorporation of [¹⁴C]glycine into protein, in a manner comparable to other tissues.     

Correlation of nonspecific macromolecular labeling with environmental parameters during [3H]Thymidine incorporation in the waters of southwest florida

During routine [³H]thymidine incorporation measurements of environmental samples, significant amounts of radioactivity are often incorporated into macromolecules other than DNA. Although the percentage of nonspecific labeling varies both temporally and spatially, the cause(s) of these variations remain unknown. Correlations between the percent incorporated radioactivity in DNA and a variety of experimental and environmental parameters measured in the Alfia River, Crystal River, Medard Reservoir, and Bayboro Harbor were examined. The amount of radioactivity incorporated into DNA ranged from 6 to 95% ( ; n=121). Nonspecific labeling began immediately upon the addition of [³H]thymidine and was linear over time. Labeling patterns were independent of both the amount of thymidine added and cell-size fraction. A two year study of Bayboro Harbor indicated no conclusive relationship between nonspecific labeling and seasonality. The amount of radioactivity incorporated into DNA was inversely correlated with total rates of thymidine incorporation and a strong diurnal pattern was observed in the Crystal River. No consistent relationship was observed between labeling patterns and primary productivity, chlorophylla, particulate DNA, dissolved DNA, bacterial cell numbers, temperature, salinity, and dissolved organic carbon. The only relationship with dissolved inorganic nutrients (N and P) occurred in the Crystal River. In this phosphate limited river, the percent of radioactivity incorporated into DNA was positively correlated with phosphate concentrations. These results indicate that nonspecific labeling is not dependent on any one parameter but may be a function of many interacting environmental factors or a function of the specific ambient bacterial population.     

Interrelationships between water and cellular metabolism in Artemia cysts. VI. RNA and protein synthesis

Using ¹⁴CO₂ as a labelled precursor the relationship between the initiation of protein and RNA synthesis, and water concentration, has been examined in cysts (encysted embryos) of the brine shrimp, Artemia salina. Although incorporation of radioactivity into amino acids and nucleotides occurred in cysts at hydrations as low as 0.3 g H₂O/g dried cysts, incorporation into proteins and RNA was not measurable until the cysts had achieved a hydration in the range of 0.6–0.6 g/g. In no case was radioactivity detected in DNA of unemerged cysts. Fully hydrated cysts (about 1.3 g/g) that were actively synthesizing proteins and RNA, stopped doing so when dehydrated to levels below the same hydration range: thus, the hydration dependence does not involve appreciable hysteresis. The hydration range required to initiate synthesis of these macromolecules is essentially the same as that previously shown to initiate embryonic development.     

Age-dependent changes of nucleic acid labeling in different rat brain regions

The effects of aging on in vivo DNA and RNA labeling and on RNA content in various brain regions of 4-, 12-, and 24-month-old rats were investigated. No difference in [methyl-¹⁴C]thymidine incorporation into DNA of cerebral cortex and cerebelllum during aging was observed.The ratio of RNA/DNA content significantly decreased from 4 to 24 months of age in cerebral cortex, cerebellum and striatum. RNA labeling decreased by 15% in cerebral cortex of 24-month-old animals while in the other brain areas examined (cerebellum, hippocampus, hypothalamus, brainstem, striatum) did not change during aging.In the cerebral cortex, the ratio of the specific radioactivity of microsomal RNA to that of nuclear RNA, determined by in vivo experiments, was not affected by the aging process. A significant decrease of total, poly(A)+ RNA and poly(A)- RNA content was observed in the same brain area of 24-month-old rats compared to 4-month-old ones. Moreover, densitometric and radioactivity patterns obtained by gel electrophoresis of labeled RNA after in vitro experiments (tissue slices of cerebral cortex) showed a different ribosomal RNA processing during aging. In vivo chronic treatment with CDP-choline was able to increase RNA labeling in corpus striatum of 24-month-old animals.     

DETERMINATION OF RATES OF DNA SYNTHESIS IN CULTURED MAMMALIAN CELL POPULATIONS

In cultures of a murine mastocytoma, endogenous synthesis of thymidine phosphates, as determined by the incorporation of [³H]deoxyuridine into DNA, was reduced within 15 min to less than 3% of control values by the addition of amethopterin (10 µM) in combination with hypoxanthine and glycine. If [³H]thymidine and unlabeled thymidine were added simultaneously with amethopterin, the increase with time of radioactivity in cellular DNA was linear at least between 30 and 90 min, while radioactivity in the acid-soluble nucleotide fraction remained constant during this time interval, indicating that intracellular thymidine nucleotides had the same specific activity as exogenously supplied [³H]thymidine. This permitted calculation of the amount of thymidine incorporated per hour into DNA of 10⁶ cells. In conjunction with the base composition of mouse DNA, these results were used to calculate rates of DNA synthesis. Cell proliferation rate, cell cycle time, and the duration of the S period were not affected to any appreciable extent by the addition of amethopterin and thymidine. Rates of DNA synthesis, as derived from thymidine incorporation rates, were in good agreement with those derived from the measured mean DNA content of exponentially multiplying cells and rates of cell proliferation.     

PROTEIN SYNTHESIS IN VITRO IN NUCLEI OF HUMAN NERVOUS TISSUE

Abstract—

• 1 In vitro incorporation of tritiated leucine into nuclear proteins of normal human brain, astrocytoma I and II and glioblastoma multiforme was investigated. The distribution of radioactivity among various protein fractions of nuclei was determined.
• 2 The results demonstrate that the isolated nuclei of astrocytoma I and II incorporate radioactivity into proteins at least 40 times more actively than nuclei of normal human brain or glioblastoma multiforme.
• 3 The residual protein fraction was the most highly labelled fraction among the nuclear pioteins. This fraction from astrocytomas incorporates relatively more radioactivity than the similar fraction of normal human brain or glioblastoma multiforme. The buffered-saline soluble protein fraction of astrocytoma nuclei contained a relatively lower amount of radioactivity than the similar fraction of normal human brain or glioblastoma multiforme. The total radioactivity incorporated into the deoxyribonucleoproteins seemed to increase with the malignancy of the tissue investigated. The significance of the results with respect to malignant transformation is discussed.

     

DEVELOPMENTAL CHANGES IN Na+, K+ AND ATP AND IN THE LEVELS AND TRANSPORT OF AMINO ACIDS IN INCUBATED SLICES OF RAT BRAIN

Abstract—

• 1 Upon incubation, slices of brain tissue took up fluid; the degree of swelling increased with increasing age. No sweiling occurred in slices from foetal brain. Since this swelling was associated with increases in the inulin space, the percentage of inulin space in slices at the end of incubation increased during brain development.
• 2 Most of the capacity for ion transport seemed to be absent from foetal brain. In vivo and in slices, Na⁺ was very high and K⁺ was very low in comparison to levels at other ages. There was a rapid change around birth, but no significant change at later ages. Upon incubation, Na⁺ levels increased in other slices, but not in slices of foetal brain.
• 3 Upon incubation of the slices, ATP levels were restored to levels close to those in the living brain; there were no significant alterations in available energy during development to explain changes in amino acid transport.
• 4 The composition of the free pool of cerebral amino acids in vivo changed with development, with some compounds (glutamic acid and related compounds) increasing, others (mostly‘essential’amino acids) decreasing, with age. These changes were not linear with time, and the level of a compound might exhibit several peaks during development.
• 5 The uptake (influx) of taurine, glutamate and glycine into brain slices increased rapidly during the foetal and early neonatal periods, reached a maximum between 2 and 3 weeks of postnatal age and then declined to adult levels. The levels of steady-state uptake with glycine also exhibited a maximal peak at 2-3 weeks of postnatal age. Steady-state uptake of taurine and glutamate reached adult levels by about 3 weeks of age.
• 6 The pattern of inhibition of amino acid transport by two specific amino acid analogues changed during development for some amino acids (GABA, glycine and glutamate), indicating an alteration in substrate specificity.
• 7 The results demonstrate complex changes in cerebral amino acid transport during development, with several maxima or minima and with changes in specificity for at least some compounds.

     

Studies on Deoxyribonucleotide Synthesis in Vicia faba

The incorporation of uniformly labelled [¹⁴C] cytidine into the nucleic acids was studied in root tips of Vicia faba. Cytidine was found to be incorporated into RNA and DNA and the specific activities of the individual mononucleotides were deter- mined. The pyrimidine nucleotides were degrade and the ratio between the specific activity of the pentose and the specific activity of the base was determined for each nucleotide. CMP of RNA and deoxy CMP of DNA bad almost the same pentose: base ratios as The cytidine added to the incubation medium. It was concluded that the administered cytidine or a derivative of it was reduced to the corresponding deoxycytidine compound without breakage of the bond between pentose and base. [¹⁴C)-cytidine was transformed to UMP of RNA with some loss of radioactivity from the pentose and had almost the same pentose: base ratio as deoxy TMP of DNA. This indicates that the formation of thymidine phosphates involved The reduction of a uridine compound. Furthermore the incorporation of ¹⁴C-labelled thymidine, deoxyadenosine and deoxyguanosine into DNA was studied. Deoxyguanosine was found to be incorporated only to a slight extent. This finding has been discussed in relation to previous results.     

Components of fast and slow axonal transport in the goldfish optic nerve

The composition of the fast and slow components of axonal transport in the goldfish optic nerve was investigated, using specific radioactive precursors injected into the eye. Tritiated glucosamine and fucose label macromolecules, presumably glycoproteins, which are rapidly transported from the eye to the optic tectum. Material labeled with these precursors is not evident in the slowly transported component. Glucosamine and fucose incorporation are blocked when a protein synthesis inhibitor, acetoxycycloheximide, is injected into the eye concurrently with the precursors. As well as labeling macromolecules, ³H-glucosamine and ³H-N-acetylmannosamine ( a precursor of sialic acids) also label rapidly-transported chloroform-methanol-extractable material which may contain transported glycolipids. Two procedures were used to show that the slow component of axonal transport contains tubulin, a protein characteristic of the microtubules:

• (a) Tracer doses of tritiated colchicine injected into the eye label a wave of radioactivity which moves 0.5 mm/day, the rate of slow axonal transport in the goldfish optic nerve. We believe this wave represents the movement of colchicine which is bound to colchicine-binding protein moving in the slow component of axonal transport.
• (b) Tritiated proline labels a slowly transported protein which is precipitated by vinblastine and has a mobility on polyacrylamide gels comparable to authentic tubulin. These results indicate that the fast and slow components of axonal transport each provide specific chemical substances to the nerve endings.

     

METABOLISM OF HEXOSES IN RAT CEREBRAL CORTEX SLICES

Abstract—

• 1 The metabolism of two ¹⁴C-labelled hexoses and one hexose analogue, viz. mannose, fructose and glucosamine, has been compared with that of glucose for slices of rat cerebral cortex incubated in vitro.
• 2 The metabolism of [U-¹⁴C]mannose was essentially identical to that of glucose; oxygen consumption and CO₃ production were similar and maximal at a substrate concentration of 2·75 mM. Incorporation of label into lactate, aspartate, glutamate and GABA was similar for the two substrates at 5·5 mM substrate concentration.
• 3 With [U-¹⁴C]fructose, maximal oxygen consumption and CO₃ production were obtained at a substrate concentration of 11 mM. At 5·5 mM, incorporation into lactate was 5 per cent, into glutamate and GABA 30 per cent, into alanine 63 per cent and into aspartate 152 per cent of that from glucose. Increasing substrate concentration to 27·5 mm was without effect on incorporation into amino acids from glucose and raised incorporation from fructose into glutamate, GABA and alanine to a level similar to that found with glucose; at the higher substrate concentration aspartate incorporation from fructose was 200 per cent and lactate 42 per cent of that with glucose. Unlabelled fructose was without effect on incorporation of radioactivity from [3-¹⁴C]pyruvate into CO₂ or amino acids; it increased incorporation into lactate by 36 per cent. Unlabelled glucose diminished incorporation into CO₂ from [U-¹⁴C]fructose to 35 per cent; incorporation into lactate was stimulated 178 per cent at 5·5 mM fructose; at 27·5 mM it was diminished to 75 per cent.
• 4 By comparison with [1-¹⁴C]glucose, incorporation of radioactivity from [1-¹⁴C]-glucosamine into lactate, CO₂, alanine, GABA and glutamine was very low; incorporation into aspartate was similar to glucose. Thus the metabolism of glucosamine resembled that of fructose. Glucosamine-1-phosphate, glucosamine-6-phosphate, and an unidentified metabolite, all accumulated.

     

Assimilative Pathway of Methanol in Candida sp. Incorporation of 14C-Methanol, 14C-Formaldehyde, 14C-Formate and 14C-Bicarbonate into Cell Constituents

1. The incorporation of ¹⁴C-methanol, ¹⁴C-formaldehyde, ¹⁴C-formate and ¹⁴C-bicarbonate into a methanol-utilizing yeast, Candida N–16, was examined by paper-chromato-graphy and radioautography.

2. At the earliest time period examined, the highest percentage of radioactivity fixed from ¹⁴C-methanol or ¹⁴C-formaIdehyde into methanol-grown cells was found in fructose phosphate. The percentage distribution of radioactivity in fructose phosphate decreased as time elapsed. The radioactivity fixed from these compounds into glucose-grown cells was negligible compared with that fixed into methanol-grown cells.

3. The incorporation of ¹⁴C-formate into methanol-grown cells was extremely low. The highest percentage of radioactivity fixed for short time incubation was found in serine. The incorporation pattern of glucose-grown cells was similar to that of methanol-grown cells.

4. At the earliest time period, over 70% of radioactivity fixed from ¹⁴C-bicarbonate into methanol- or glucose-grown cells was found in aspartate.

5. These results suggest that in Candida N–16 methanol is specifically assimilated by a route with hexose phosphate as a primary stable intermediate.

     

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.     

THE COMPARTMENTATION OF GLUTAMATE AND ITS METABOLITES IN FRACTIONS OF NEURON CELL BODIES AND NEUROPIL; STUDIED BY INTRAVENTRICULAR INJECTION OF [U-14C]GLUTAMATE

Abstract—

• 1 The in vivo metabolism of glutamate in rat neuron cell bodies and neuropil was studied after intraventricular injection of (U-¹⁴C)glutamic acid followed by separation of the tissue into neuronal and neuropil fractions.

• 2 The losses of amino acid and of radioactivity during the fractionation were equivalent. Recoveries were: glutamate, 32; glutamine, 15; aspartate, 25; GABA, 41; alanine, 30 per cent. In the washed cell fractions glutamine was 45 per cent and alanine 132 per cent higher in the neuronal fraction, glutamate was 62, GABA 77 and aspartate 95 per cent of neuropil levels. This contrasted with results obtained previously for in vitro incorporation. Calculation from these results indicated that 28 per cent of the original cell suspension was neuronal, 72 per cent neuropil. In the final cell preparations, 29 per cent of the neuron cell bodies and 26 per cent of the neuropil were recovered.

• 3 Specific activity of glutamate in the neuronal fraction 15 min after injection was higher than in the original suspension, but had declined to 30 per cent of its initial value by 2 h. In the neuropil, specific activity of glutamate was below that of the cell suspension at 15 min, but at later times rose above it by up to 40 per cent.

• 4 Radioactivity was detected in aspartate and glutamine 15 min after injection and GABA by 60 min after injection. In the original cell suspension the specific activity of glutamine was higher than that of glutamate at all times (the Waelsch effect) but aspartate and GABA were lower than glutamate.

• 5 In the neuronal fraction the specific activity of glutamine was below that of glutamate at all times, indicating a precursor-product relationship. In the neuropil fraction, glutamine specific activity remained above glutamate for the first hour.

• 6 These results are discussed in relation to the interpretation of the Waelsch effect in terms of metabolic compartmentation.

     

The labelling of nucleic acids by radioactive precursors in the blue-green algae Anacystis nidulans and Synechocystis aquatilis Sanv.

Summary The labelling of nucleic acids of growing cells of the blue-green algae Anacystis nidulans and Synechocystis aquatilis by radioactive precursors has been studies. A. nidulans cells most actively incorporate radioactivity from [2-¹⁴C]uracil into both RNA and DNA, while S. aquatilis cells incorporate most effectively [2-¹⁴C]uracil and [2-¹⁴C]thymine.Deoxyadenosine does not affect incorporation of label from [2-¹⁴C]thymidine into DNA, but weakly inhibits [2-¹⁴C]thymine incorporation into both nucleic acids and significantly suppresses the incorporation of [2-¹⁴C]uracil.The radioactivity from [2-¹⁴C]uracil and [2-¹⁴C]thymine is found in RNA uracil and cytosine and DNA thymine and cytosine. The radioactivity of [2-¹⁴C]thymidine is incorporated into DNA thymine and cytosine. These results and data of comparative studies of nucleic acid labelling by [2-¹⁴C]thymine and [5-methyl-¹⁴C]thymine suggest that the incorporation of thymine and thymidine into nucleic acids of A. nidulans and S. aquatilis is accompanied by demethylation of these precursors. In this respect blue-green algae resemble fungi and certain green algae.