Utilization of the label from bacterial [3H] DNA by isolated barley roots and embryos under different conditions

[³H] DNA fromEscherichia coli and [³H] thymidine were applied, in sterile conditions, on isolated barley embryos and on roots excised from these embryos, both cultivated in the liquid medium and on halves of barley seeds, through the endosperm bridge. In embryos and roots, the labelled compounds were applied in 1.5% sucrose + 0.2 SSC alone, or together with either unlabelled thymidine or DEAE-dextran. Similar labelling indices were found after [³H] thymidine and [³H] DNA treatment which shows that the activity of [³H] DNA is utilized during the S phase. After application of [³H] thymidine, only cell nuclei in S phase were labelled. After the application of [³H] DNA an extranuclear label, in addition to the labelling of nuclei in the S phase, was observed in some experimental variants. The density of label above labelled nuclei after [³H] DNA treatment sharply decreased when unlabelled thymidine or DEAE-dextran was added, while the density of label above nuclei labelled by [³H] thymidine decreased when unlabelled thymidine but not DEAE-dextran was added. The labelling of nuclei with the label from [³H] DNA is the result of degradation of exogenous DNA reutilization of low molecular weight products. Extranuclear labelling is most probably due to the polymerous or partly degraded DNA.     

Zinc induces DNA damage in tobacco roots

We applied the alkaline version of the single-cell gel electrophoresis (comet assay) to seedlings of heterozygous tobacco (Nicotiana tabacum L. var. xanthi) treated with zinc acetate dihydrate (20 to 80 mM Zn²⁺ for 2 h or 2 to 12 mM Zn²⁺ for 24 h). A dose dependent increase in DNA damage expressed by the tail moment values were observed in nuclei isolated from the roots after 2 and 24 h Zn²⁺ treatments. In contrast, Zn²⁺ did not induce significant DNA damage to leaf nuclei, with the exception of 10 or 12 mM Zn²⁺ for 24 h. Somatic mutations, identified as dark green, yellow, and dark green/yellow double sectors on the pale green tobacco leaves were not detected after any Zn²⁺ treatments. The accumulation of Zn in roots and shoots was determined by inductively coupled plasma optical emission spectrometry and the Zn content in roots was about three times higher than in shoots.     

Extra DNA synthesis in the dedifferentiating cells ofVicia faba roots

Summary Cell dedifferentiation was induced inVicia faba root tissues by removing the whole root meristem (decapitation) and the behaviour of the nuclear DNA in the dedifferentiating cells was studied by means of cytophotometric and autoradiographic analyses. Cytophotometric determination after Feulgen-staining showed that: 1. the vast majority of nuclei in differentiated cells were in the DNA postsynthetic phase, but their Feulgen absorption was lower than that of DNA postsynthetic nuclei (G₂, 4 C) in the meristem; 2. such a Feulgen absorption was detected in certain nuclei after root decapitation; 3. all the mitoses in the dedifferentiating tissues were diploid, fully matching the Feulgen absorption of mitoses in the meristem.After³H-thymidine (³H-T) feeding of the decapitated roots and autoradiography, the following results were obtained: 1. two populations of labeled nuclei, characterized by two different levels of scattered labeling occurred in dedifferentiating tissues, slightly labeled nuclei being much more numerous than heavily labeled nuclei; 2. the percentage of labeled nuclei was much greater than that of DNA presynthetic nuclei in the root tissues; 3. almost all the mitoses were labeled after a 16-hour³H-T feeding; 4. the percentage of slightly labeled nuclei paralleled that of dedifferentiating cells; 5. the duration of the DNA synthesis phase and that of the gap between completion of DNA synthesis and mitosis differed in heavily and slightly labeled nuclei; 6. all nuclei which entered DNA synthesis also entered mitosis.These results are interpreted to mean that: 1. after decapitation, two different DNA syntheses occur in the dedifferentiating root tissues ofV. faba: DNA reduplication in cells which dedifferentiate starting from a DNA presynthetic nuclear condition (heavily labeled nuclei) and extra DNA synthesis in cells which dedifferentiate starting from a DNA postsynthetic nuclear condition (slightly labeled nuclei); 2. extra DNA synthesis is required in these dedifferentiating cells for entry into mitosis.     

MERISTEMATIC PRECURSORS OF VASCULAR PARENCHYMA DIFFERENTIATE FROM G2 PHASE AFTER REPLICATING DNA DISCONTINUOUSLY

A small population of cells representing 1% or less of those in the root-tip meristem was identified as the precursor of vascular parenchyma and certain root-cap cells in carbohydrate starved cultured pea roots. Autoradiography and cytophotometric measurements of nuclei labeled with [³H]-thymidine showed that in the absence of carbohydrate the precursor cells replicate their DNA discontinuously accumulating temporarily in late S phase prior to differentiating from the G₂ phase. Besides discontinuity of DNA synthesis, the nuclei of precursor cells undergo a change in morphology. The nuclei are shaped round when replicating DNA but later on, while differentiating, they become oblong. This transformation occurs within 72 hr after the starved roots are fed sucrose. Autoradiograms of serial cross-sections of pulse-labeled roots indicate that the cells in late S phase differentiate forming a ring around the stelar cylinder and a ring around the periphery of the root. These observations suggest that during the last half of the final S phase the precursor cells modify their chromosomal DNA and that this modification is associated with the initial steps of differentiation.     

EXPERIMENTAL CONTROL OF DNA SYNTHESIZING AND DIVIDING CELLS IN EXCISED ROOT TIPS OF PISUM

The number of dividing and DNA-synthesizing cells in excised pea roots can be regulated by eliminating the carbohydrate normally supplied in the culture medium. When the excised roots were allowed to remain for 24 hr in a medium lacking carbohydrate, the number of mitotic figures and tritiated thymidine (H³-T) labeled cells was reduced almost to zero. After an additional 24 hr in the incomplete culture medium, 15% of the interphase cells were H³-T labeled, the percentage of the cells that were dividing never exceeded 1.4, and 30% of these were H³-T labeled. When the roots remained in the deficient medium for 72 hr, neither cell division nor cells synthesizing DNA were observed. Upon addition of 2% sucrose, cell division and DNA synthesis were resumed in the roots that were maintained for 24 or 72 hr without an exogenous carbohydrate supply. It has been hypothesized that some proliferative systems consist of two cellular subpopulations which selectively stop or remain in either the pre-DNA synthetic (G₁) or post-DNA synthetic (G₂) periods of the mitotic cycle. The addition of sucrose, H³-T, and 5-aminouracil to the medium, after the roots had been maintained for 24 hr without a carbohydrate, indicated that most of the proliferative cells in the roots had accumulated in either G₁, a quasi-G₁ condition, i.e., DNA synthesis stopped sometime before completion, or G₂ periods of interphase; the majority, however, were in G₁ or quasi-G₁ conditions. The results suggested that DNA synthesis (S period) and mitosis or the onset of these processes have the highest metabolic requirements in the mitotic cycle and that G₁ and G₂ were the most probable states for proliferative cells in a meristem with a low metabolic level.     

EVIDENCE FOR CYTOPLASMIC DNA IN ROOT CELLS OF NICOTIANA

Sterile root cultures from Nicotiana tabacum were grown with H³-thymidine added to the medium for various intervals. Incorporation of the labeled nucleoside into nuclear DNA occurred in a fraction of the nuclei which increased with time. In addition, the cytoplasm of all cells incorporated enough tritium to be readily detected by autoradiography. The tritium was not removed by hydrolysis in 1 N HCl at 60°C for 10 minutes, but was removed by digestion in a DNase solution which also removed nuclear DNA. The amount of tritium in the cytoplasm increased during the first 2 hours, but did not appear to increase significantly during the following 5 hours. If the roots were transferred to unlabeled medium after 2 hours, the label was diluted faster than expected by growth without turnover of the labeled component. If FUdR was added to the unlabeled medium, the depletion occurred faster during the first 6 hours, but later appeared to level off so that at 10 hours these cultures did not differ from those incubated without FUdR. However, the addition of an excess of unlabeled carrier had no effect on the rate of depletion of the cytoplasmic label. Actinomycin D, which inhibited the incorporation of H³-cytidine into RNA in the root tips, had no effect on the incorporation of H³-thymidine into the cytoplasmic component. However, Mitomycin C or a high concentration of deoxyadenosine inhibited the incorporation of H³-thymidine into the cytoplasmic component as well as into the nuclear DNA. It is concluded that H³-thymidine is incorporated into a cytoplasmic fraction which has the characteristics of DNA, with a measurable rate of turnover. This fraction is synthesized regardless of whether or not the nucleus is synthesizing DNA. Although the function of cytoplasmic fraction is not yet known, it does not appear to be that of supplying precursors for the synthesis of the nuclear DNA.     

Activation of the template activity of isolated rat liver nuclei for DNA synthesis and its inhibition by NAD

The template activity of isolated rat liver nuclei for DNA synthesis assayed with $\text{E.}$$\text{coli}$ DNA polymerase was found to be dependent upon the presence of Ca²⁺ or Mg²⁺ in the incubation medium. DNA was prepared from isolated nuclei subjected to conditions which activated the template and centrifuged in an alkaline sucrose gradient. The distribution profile showed that smaller fragments were formed, suggesting enhancement of endonucleolytic activity. When isolated nuclei were incubated with NAD to induce poly(adenosine diphosphate ribose) formation and were subjected to the activation conditions, the template for DNA synthesis remained unchanged. The distribution profile in an alkaline sucrose gradient of DNA prepared from these nuclei and control nuclei was identical. The present findings suggest that the template-activating system for DNA synthesis was blocked when isolated nuclei were treated with NAD $\text{in}$$\text{vitro}$.     

Effect of different disintegration techniques and media on yield and appearance of isolated nuclei

Cell nuclei have been released from various plant tissues (barley leaves, roots and embryos, tobacco leaves and tissue cultures,Vicia faba roots,Arabidopsis thaliana leaves) by several homogenization methods and the optimal method was established for each tissue. The effect of the composition of isolation medium on the yield and appearance of isolated nuclei was also studied. Longer incubation withn-octanol increases the yield considerably in most cases. Low concentrations of osmoticum increase the yield and their adverse effect on the integrity of nuclei is of little significance. Gum arabic has a favourable effect on nuclei isolation from roots only.     

Donut-shaped “miniparticles” in nuclei of human and rat cells

Donut-shaped “miniparticles” were extracted from nuclei of various types of human and rat cells. Electron-microscopic investigations showed these particles were predominantly in sucrose density gradient fractions that had an approximate sedimentation coefficient of 21S. These particles were 113±8_A^o in diameter and had an electron dense center of 29±6_A^o. They appeared to be composed of 8 subunits. Quantitative analysis of the number of these particles by electron-micrographic field counting showed nuclei of tumor samples had a larger amount of the particles than the cytosol. However, normal cell cytosol had a larger number of particles than the nuclei. A group of proteins in the 25, 000–33, 000 molecular weight range was shown to be the main protein component by two dimensional gel electrophoresis.     

Evaluation of DNA damage and mutagenicity induced by lead in tobacco plants

Tobacco (Nicotiana tabacum L. var. xanthi) seedlings were treated with aqueous solutions of lead nitrate (Pb²⁺) at concentrations ranging from 0.4 mM to 2.4 mM for 24 h and from 25 μM to 200 μM for 7 days. The DNA damage measured by the comet assay was high in the root nuclei, but in the leaf nuclei a slight but significant increase in DNA damage could be demonstrated only after a 7-day treatment with 200 μM Pb²⁺. In tobacco plants growing for 6 weeks in soil polluted with Pb²⁺ severe toxic effects, expressed by the decrease in leaf area, and a slight but significant increase in DNA damage were observed. The tobacco plants with increased levels of DNA damage were severely injured and showed stunted growth, distorted leaves and brown root tips. The frequency of somatic mutations in tobacco plants growing in the Pb²⁺-polluted soil did not significantly increase. Analytical studies by inductively coupled plasma optical emission spectrometry demonstrate that after a 24-h treatment of tobacco with 2.4 mM Pb²⁺, the accumulation of the heavy metal is 40-fold higher in the roots than in the above-ground biomass. Low Pb²⁺ accumulation in the above-ground parts may explain the lower levels or the absence of Pb²⁺-induced DNA damage in leaves.     

Nuclear DNA Ligase and Its Action on Chromatin DNA in Neuronal, Glial and Liver Nuclei Isolated from Adult Guinea Pigs

Abstract: DNA ligase activities were measured in neuron-rich and glial nuclear preparations and liver nuclei isolated from adult guinea pigs. The enzymatic properties of cerebral and liver nuclear DNA ligases were studied with isolated nuclei and nuclear extracts. ATP (K_m= 46–48 μM) and bivalent cation (Mg²⁺ or Mn²⁺) were required for the maximal activities in cerebral and liver nuclei. β-Mercaptoethanol did not affect the activities, but N-ethylmaleimide and p-chloromercuribenzoate completely inhibited the activities. Deoxyadenosine-5′-triphosphate partially inhibited the activities in both cerebral and liver nuclei. An interdependent effect of Na⁺ and Mg²⁺ on the enzyme activities was observed. A high concentration (200 mM) of Na⁺ activated both enzymes and shifted to the acid side the optimal pH for both enzymes. DNA ligase was more easily extracted with lower concentrations of NaCl from liver nuclei than from cerebral nuclei, but the extraction curves from both nuclear species reached a plateau level (92% of total activities of nuclear enzymes) at 200 mM-NaCl. Apparent K_m for the substrate [³²P]phosphoryl DNA was determined according to a modification of the Michaelis-Menten equation, which was applied for the case where an unknown amount of substrate nicks in chromatin DNA coexisted with the nicks in exogenous substrate DNA. Neuronal and glial nuclear enzymes had similar K_m values (about 20 μg of [³²P]phosphoryl DNA/ml), but the liver nuclear enzyme had a higher K_m value (54 μg of [³²P]phosphoryl DNA/ml). The modified Michaelis-Menten equation provided the amounts of nicks available as substrate in chromatin DNA of isolated nuclei. Neuronal and glial nuclei contained 1.5 and 0.29 pmol of nicks/μg of nuclear DNA, respectively, in contrast to an intermediate amount of nicks in liver nuclei (0.63 pmol/μg of nuclear DNA). DNA ligase activity in neuronal nuclei [312 units (fmol of 5′-phosphomonoester converted into a phosphatase-resistant form per min at 37°C) per μg of nuclear DNA] was 11-fold higher than that in glial nuclei [28.7 units/μg of nuclear DNA]. Liver nuclei contained an intermediate activity [54.7 units/μg of nuclear DNA].     

Cytological localization of fast renaturing and satellite DNA sequences inVicia faba

Summary DNA sequences reassociating within a Cot value of 1.8×10^–1 and those producing a light satellite in a CsCl density gradient were isolated fromVicia faba DNA and hybridizedin situ on squashes of roots of the same species. Silver grains were seen to be scattered over both the interphase nuclei and the metaphase chromosomes after hybridization with fast renaturing DNA sequences, indicating these are fairly regularly interspersed in theV. faba genome. Clustered labeling occurred after hybridization with satellite DNA sequences, indicating these are clustered in the genome. The localization of satellite DNA in chromosomes appeared to correspond closely to the position of the bright bands detectable after staining with quinacrine mustard. After hybridization with both DNA probes, labeling intensity over the nuclei of meristematic cells was higher than that over the nuclei of differentiating and/or differentiated cells. These results are discussed in relation to the structure of the cell nucleus, the mechanism of quinacrine banding and to previous data suggesting underrepresentation of nuclear repeated DNA sequences in differentiatingV. faba root cells.     

Bialaphos stimulates shoot regeneration from hairy roots of snapdragon (Antirrhinum majus L.) transformed by Agrobacterium rhizogenes

Hairy roots of snapdragon (Antirrhinum ma-jus L.: Scrophulariaceae) induced by a wild-type strain of Agrobacterium rhizogenes were cultured on media containing various concentrations of a phosphinothricin-based herbicide, bialaphos, or plant growth regulators (PGRs). Adventitious shoot regeneration from hairy roots was observed with a low frequency (10%) on half-strength Murashige and Skoog medium. Addition of α-naphthalene-acetic acid in combination with 6-benzylaminopurine, thidiazuron, or zeatin to the medium had no effect on shoot regeneration from hairy roots. Although bialaphos at 0.9 mg l^–1 or more was toxic to hairy roots, it significantly increased the shoot regeneration frequency up to 56% at 0.5 mg l^–1. In contrast, non-transformed roots and leaves regenerated no shoots on media with or without bialaphos. Regenerated shoots detached from host roots readily developed roots on gellan-gum-solidified medium. Regenerated plants were successfully transferred to the greenhouse, but did not produce seed. Received: 24 February 1997 / Revision received: 10 July 1997 / Accepted: 28 July 1997     

Measurement of Bremsstrahlung radiation for in vivo monitoring of 14C tracer distribution between fruit and roots of kiwifruit (Actinidia arguta) cuttings

In vivo measurements of ¹⁴C tracer distribution have usually involved monitoring the β^? particles produced as ¹⁴C decays. These particles are only detectable over short distances, limiting the use of this technique to thin plant material. In the present experiments, X-ray detectors were used to monitor the Bremsstrahlung radiation emitted since β^? particles were absorbed in plant tissues. Bremsstrahlung radiation is detectable through larger tissue depths. The aim of these experiments was to demonstrate the Bremsstrahlung method by monitoring in vivo tracer-labelled photosynthate partitioning in small kiwifruit (Actinidia arguta (Siebold &; Zucc.) Planch. ex Miq.) plants in response to root pruning. A source shoot, consisting of four leaves, was pulse labelled with ¹⁴CO₂. Detectors monitored import into a fruit and the root system, and export from a source leaf. Repeat pulse labelling enabled the comparison of pre- and post-treatment observations within an individual plant. Diurnal trends were observed in the distribution of tracer, with leaf export reduced at night. Tracer accumulated in the roots declined after approximately 48 h, which may have resulted from export of ¹⁴C from the roots in carbon skeletons. Cutting off half the roots did not affect tracer distribution to the remaining half. Tracer distribution to the fruit was increased after root pruning, demonstrating the higher competitive strength of the fruit than the roots for carbohydrate supply. Increased partitioning to the fruit following root pruning has also been demonstrated in kiwifruit field trials.     

Establishment of hairy root cultures of Psoralea species

Eight Psoralea species (Leguminosae) were inoculated with Agrobacterium rhizogenes, strains 8196 and 9402. Hairy roots were only induced by strain 9402. Attention was focussed on Psoralea lachnostachys. Transformed roots grew very rapidly in Gamborg B5 liquid medium with a doubling time of the culture of 38 hours. Whatever the culture conditions, the two furanocoumarins usually found in roots of Psoralea plants, psoralen and angelicin, were not detected in cultured transformed and non transformed roots even when some chitosan was added to the medium. However, 669 g.g^–1 dry matter of psoralen and 215 g.g^–1 dry matter of angelicin were found in roots from soil grown plants. A possible translocation of these compounds from the aerial parts to the roots is suggested.Abbreviations B5 medium Gamborg's medium (Flow laboratories's formulation) - NAA Naphthaleneacetic acid     

Aerenchyma formation and associated oxygen movement in seminal and nodal roots of wheat

Abstract The present paper describes the effects of growth of roots of wheat (Triticum aestivum cv. Gamenya) in hypoxic nutrient solutions on acrenchyma formation and O₂ movement from shoots to roots. Two types of roots were investigated: (1) seminal roots of 4–7-d-old seedlings, and (2) seminal and nodal roots of 10–28-d-old plants. Gas-filled porosity of seminal and nodal roots increased from 3 to 12% and from 5–7 to 11–15%, respectively, when the roots emerged in stagnant or N₂-flushed solutions (0.003 mol m ^?3 O₂) compared with growth in continuously acrated solutions (0.26 mol m ^?3 O₂). However, neither root type increased in porosity when they were longer than 100–200 mm at the start of the exposure to these stagnant or N₂-flushed treatments. A vernier microscope and cylindrical platinum-electrode were used to examine the relationship between root extension and transport of O₂ from shoots to roots via the gas spaces. Measurements were made when the roots were in an anoxic medium and were dependent solely on O₂ supplied from the shoots. For seminal roots of 5–7-d-old seedlings raised in stagnant solutions (90–100 mm), internal O₂ transport was sufficient to support a rate of root elongation in the O₂-free medium of between 0.03 and 0.17 mm h^?1. When the O₂ pressure around the shoots was increased from 20 to 100 kPa O₂, the O₂ concentrations at the walls of the expanding zone (2–7 mm from the tip) of these roots increased from 0.006 mol m^?3 to between 0.04 and 0.26 mol m^?3, and the rate of root extension increased five-fold. Oxygen transport to roots grown continuously in acrated solutions was considerably less than for roots raised in stagnant solutions; this difference was greater for seminal than for nodal roots. When the acrated seminal roots were longer than 100 mm and transferred to an O₂-free root medium, O₂ concentration became zero at the root tip causing elongation to cease. After 24 h of anoxia, none of these roots were able to resume elongation following a return to acrated solutions.     

Tropane Alkaloids from Callus Cultures, Differentiated and Shoots of Hyoscyamus muticus L.

Alkaloid production has been observed in cotyledonary leaf derived callus tissues, and also in in vitro differentiated shoots, and roots of Hyoscyamus muticus. The callus tissue was developed form cotyledonary leaf explants on Murashige and Skoog medium enriched with 2 mg 1^-1 2, 4-D and 0.5 mg 1^-1 BAP. Cotyledonary leaf derived callus was proliferated in the same medium for 2 passages (1 passage 28-30 days). Green and compact callus was used for alkaloid extraction. Shoots and roots formed on MS medium containing 0.05 mg 1^-1 NAA and 0.5 mg 1^-1 BAP, and also compact, nodular and embryogenic calli from which these shoots and roots differentiated, were used for alkaloid extraction. Chromatographic studies performed with TLC showed the presence of hyoscyamine as the major alkaloid present in the callus tissues, differentiated shoots and roots. However, alkaloid content varied in different tissues. Differentiated roots were found to contain maximum amount of hyoscyamine.     

Regeneration of haploid plants from anther cultures of the Asiatic hybrid lily ‘Connecticut King’

A system for producing haploid plants from anther cultures was developed for the Asiatic hybrid lily ‘Connecticut King’. Anthers containing microspores at the mid- to late-uninucleate stages were cultured on MS media supplemented with various plant growth regulators. Microspores containing 3 or 4 vegetative-like nuclei were observed 2 to 3 weeks later, and yellowish nodular calluses appeared within dehisced anthers 2 to 3 months after culture. Picloram was superior to 2,4-d for inducing nodular calluses. Anthers from greenhouse-grown plants required higher concentrations of both picloram and cytokinins than those from field-grown plants and most frequently produced nodular calluses (17.6%) on MS medium containing 2 mg 1⁻¹ picloram and 2 mg 1⁻¹ zeatin. The nodular calluses regenerated many bulblets following transfer to MS medium supplemented with 0.1 or 0.5 mg 1⁻¹ picloram and 0.01 mg 1⁻¹ BA, and the bulblets developed into plantlets (bulblets with scaly leaves and roots) after transfer to MS medium containing 0.1 mg 1⁻¹ NAA. Chromosome counts of root-tip cells of 11 plantlets revealed that five were haploids (2n = 12), two diploids (2n = 24), and four mixoploid. This result suggests that at least some plantlets were of gametophytic origin.     

Unscheduled DNA synthesis of rat hepatocytes in monolayer culture

Monolayer cultures of rat hepatocytes activated tris(2,3-dibromopropyl)phosphate (Tris-BP) more efficiently than 2-acetylaminofluorene (AAF), to genotoxic products which caused mutations in co-cultures of S. typhimurium. In contrast, AAF caused a greater genotoxic response in the hepatocytes than Tris-BP, as judged by the increase in DNA-repair synthesis measured by liquid scintillation counting of ³H-TdR incorporated into DNA isolated from the nuclei of the hepatocytes. Covalent binding of 0.05 mM ³H-Tris-BP to cellular proteins occurred at a similar rate as covalent binding of 0.25 mM ¹⁴C-AAF. Tris-BP was the more cytotoxic of the two compounds as determined by leakage of cellular lactate dehydrogenase into the culture medium. The observed differences in the cytotoxic and genotoxic responses between Tris-BP and AAF were probably caused by differences in the nature of their reactive metabolites with respect to stability, lipophilicity and/or their interactions with variuos cellular nucleophilic sites. The relative DNA-repair synthesis induced by an AAF exposure for 18 h decreased with time after plating of isolated hepatocytes. Tris-BP first caused an increase in the relative DNA-repair synthesis up to 27 h after plating, whereafter the response declined reaching control values using cultures 75 h after plating. In parallel with the decreased relative response in DNA-repair synthesis with time, the background radioactivity in isolated nuclei from untreated cells increased both when the hepatocytes were incubated in the presence or absence of hydroxyurea to inhibit replicative DNA synthesis. Increased DNA-repair synthesis was demonstrated as early as 3 h after commencing exposure to the test substances. While the induced DNA-repair synthesis caused by Tris-BP remained constant after 6 h of exposure, the response caused by AAF increased with increased exposure time beyond 6 h. To assess the role of different metabolic pathways in the genotoxic and cytotoxic responses of Tris-BP and AAF, the hepatocytes were exposed to test substances in the presence of various metabolic inhibitors for 3 h, whereafter the cell medium was removed and replaced by cell-culture medium containing ³H-TdR and hydroxyurea. The cytochrome P-450 inhibitor metyrapone decreased both the genotoxic and cytotoxic effects of Tris-BP, while α-naphthoflavone reduced the genotoxic effect of AAF. The addition of glutathione (GSH) or N-acetylcysteine decreased both the cytotoxic and genotoxic effects of Tris-BP, while cellular depletion of GSH by diethylmaleate increased these effects. Manipulations in the cellular levels of sulhydryl-containing substances in the hepatocytes by these agents had little effects on the DNA-repair synthesis caused by AAF. The results indicate that such a hepatocyte culture system may be very useful as a tool to study mechanisms involved in the formation of cytotoxic and/or genotoxic metabolites from various xenobiotics.     

A fluorescent compound in oat root plasma membrane

Homogenates of 7-day-old oat (Avena sativa L. cv. Brighton) roots were highly fluorescent (excitation and emission maxima around 360 and 440 nm, respectively). Less than ¹/₁₀ as much fluorescence per g fresh weight was found in oat shoots or in wheat (Triticum aestivum L. cv. Drabant) roots or shoots. Most of the fluorescence of oat roots was found in the soluble fraction (150 000g supernatant). However, some could be detected in the plasma membrane fraction (excitation and emission maxima 365 and 417 nm, respectively), which contained a 3-fold higher fluorescence per mg protein than the homogenate. Growth of oat or wheat in a medium containing, 10-^?5M scopoletin (6-methoxy-7-hy-droxy coumarin), a fluorescent compound previously reported to be present in both wheat and oat roots, caused the disappearance of scopoletin from the medium (proportional to the amount of roots) and the appearance of increased fluorescence in the root homogenates but not in the shoot homogenates. In both oat and wheat roots ail of the extra fluorescence was recovered in the soluble fraction and at least in wheat it consisted of unconverted scopoletin. The concentration of scopoletin in wheat roots grown in 10-^?5M scopoletin was around 50 nmol (g fresh weight)^?1, or about five times the concentration in the growth medium. Scopoletin in the growth medium (10-^?5M) or in the assays (up to 10-^?4M) did not affect Mg²⁺-, Mg²⁺+K⁺- or Ca²⁺-ATPase activities in wheat or oat roots. The fluorescence properties of the oat plasma membrane were different from those of authentic scopoletin. Either the surroundings modify the fluorescence of membrane-associated scopoletin or the endogenous fluorescent compound is not scopoletin but a glycoside-derivative of scopoletin or some completely unrelated compound.