Short term cultivation of isolated barley roots and their mitotic activity

Roots were excised from barley embryos cultivated in the complete liquid nutrient solution and cultivated in the same nutrient solution separately. The excised roots continued their growth but a progressive decrease in the growth rate was observed. There was a considerable short-term drop of the mitotic activity immediately after excision, which was followed by a compensatory increase and then equilibrium was reached 12 h after excision. During the next at least three days, the mitotic index of isolated barley roots varied between 5–6.5%, which is slightly lower than the mitotic index of the root meristems of isolated barley embryos under identical conditions. The mitotic cycle index of isolated barley roots and the size of the root meristem later decreased gradually.     

二氧化硫衍生物对蚕豆幼苗生长和细胞周期的影响

研究SO₂体内衍生物NaHSO₃与Na₂SO₃(1:3,mmol/L)对蚕豆幼苗生长和细胞分裂的影响。结果表明:SO₂衍生物(浓度在0~30mmol/L)对幼苗生长的抑制作用具有剂量效应和时间效应关系,短时间处理效应不明显,处理48h后蚕豆幼根生长抑制,168h后幼苗根上部分长度(芽长)表现生长抑制,根长和芽长与处理浓度间呈负线性相关。SO₂衍生物处理12~36h,导致根尖细胞分裂指数下降,根尖中前期细胞减少,间期、后期和末期细胞增多,表明SO₂衍生物能够阻止细胞进入分裂态,延长分裂过程,这可能是SO₂衍生物处理组根尖细胞分裂指数降低,幼苗生长抑制的主要原因。     

The genotoxic effects of Logran on Hordeum vulgare L. and Triticum aestivum L

In the present study, the cytogenetic effects of the herbicide Logran on root tip cells of Triticurn aestivum L. and Hordeum vulgare L. and changes of total protein content in root tip meristems were studied. The seeds of plants were treated with various concentrations of Logran (125, 250, 500 microg/ml) for 3 and 6 h. The percentages of abnormal cells were seen to increase with increasing treatment period and concentrations. The most dominant types of observed abnormalities were C-mitosis, distributed metaphase and anaphase, stickiness. All the used concentrations of Logran significantly induced a number of chromosomal aberrations in root tip cells of Hordemrn vulgare L. and Triticum aestivum L. Logran also decreased mitotic index. The decrease of protein content in root tips of Triticum aestivum L. is significant at all the treated concentrations and treatment periods when compared with control.     

The effect of butyrate on the cell cycle in root meristems of Pisum sativum

Sodium butyrate at 5 mM in aerated White's medium reduced the mitotic index in root meristems of seedlings of Pisum sativum to < 1% after 12 h. This effect was lessened as the butyrate concentrations were lowered. The fraction of the root meristem nuclei in G2 increased to ~ 70% after 12 h in butyrate. After 12 h exposure to butyrate, seedlings transferred lo medium without butyrate gradually re-established their normal root meristem mitotic pattern, with a burst of mitosis at 10 h after the transfer. Even a brief exposure to butyrate inhibited DNA synthesis, and nuclei released from butyrate exposure were still unable to resume normal DNA synthesis even after 12 h. This information suggests that butyrate halts progression through the cell cycle by arresting meristem nuclei in G2 and inhibiting DNA synthesis.     

The natural compound benzoxazolin-2(3H)-one selectively retards cell cycle in lettuce root meristems

Benzoxazolin-2(3H)-one (BOA) is a natural plant product that is phytotoxic to target plant species, inhibiting germination and growth and causing oxidative damage. We investigated its effects on the root meristems of seedlings of lettuce (Lactuca sativa) by means of light and transmission electron microscopy, flow cytometry, and conventional determination of mitotic index. Flow cytometry analyses and mitotic index showed a retard of cell cycle in BOA-treated meristems with selective activity at G2/M checkpoint.     

Location of cell cycle changes in relation to morphological changes in the shoot apex ofSilene coeli-rosa immediately before sepal initiation

Summary Changes in morphology, the mitotic index and the proportions of cells in G₁ and G₂ were measured in shoot meristems ofSilene coeli-rosa immediately before floral morphogenesis in order to determine whether the known changes to the cell cycle at this time are restricted to a particular region of the apex. Twenty-eight day-old plants were given either 7 long days (LD) plus 2 short days (SD) (day 8 of the LD treatment) or 9 SD [day 8 of the SD control (SDC) treatment]. Plants were sampled on day 8 every 2 h for 12 h and the various cell cycle measurements were performed on sections of the apical meristem. In the inductive LD treatment there was a peak in the mitotic index at 13.00 h and, possibly, the start of another at 19.00 h. At 21.00 h all meristems in this treatment initiated sepals. The mitotic activity at 13.00 and 19.00 h in the LD treatment was a result of significant increases in the mitotic index in the axial, lateral and central sub-axial areas of the apex compared with the corresponding zones in the SDC treatment. At 13.00 h of day 8, 80% of cells were in G₂ phase in the axial region in the LD treatment whilst 85% of cells were in G₁ in the axial zone in the SDC treatment. In the other zones significantly more cells were in G₂ in the LD compared with the SDC treatment as was the case at 19.00 h although not to the same extent as the axial zone at 13.00 h. Thus these data emphasize, for the first time, the mitotic activation and predominance of the G₂ population of cells particularly in the axial zone of shoot meristems in the LD treatment. These data are discussed in relation to the synchronisation of cell division which could occur in the prefloral shoot meristem at this time, affecting each shoot apical zone.Abbreviations LD long day - SD short day - SDC short day control     

Synchronization of replicons in Ehrlich ascites cells

Ehrlich ascites cells, in which replication units at the beginning of the S phase started and grew synchronously, were obtained by the following protocol: (1) selection of G1 cells by zonal centrifugation, (2) hypoxia for 12 h, (3) reaeration, (4) addition of cycloheximide (30 microM) within the first minute after reoxygenation. Studies on the effectiveness of the different steps revealed: (i) G1 cells reoxygenated after 12 h of hypoxia traverse two succeeding cell cycles highly synchronously. This was shown by monitoring the thymidine incorporation rate, the thymidine pulse-labeling index, and the mitotic index. (ii) Cycloheximide, like hypoxia, suppresses replicon initiation in Ehrlich ascites cells without interfering with DNA chain growth and DNA maturation. The reversibility of the suppression is less complete than in the case of hypoxia. This was shown by DNA fiber autoradiography and by analyzing the length distribution of pulse- or pulse/pulse-chase-labeled daughter DNA in alkaline sucrose gradients. The alkaline sedimentation patterns of daughter-strand DNA, pulse labeled immediately after the cycloheximide addition at the end of the elaborated protocol and 1 and 2 h later, indicated synchronous initiation and growth of a homogeneous population of DNA molecules to replicon-sized lengths.     

IS THE NUCLEAR DNA CONTENT OF MATURE ROOT CELLS PRESCRIBED IN THE ROOT MERISTEM?

Cells of the mature root exhibit arrest within the G1 and G2 periods of the mitotic cycle. The number of cells arrested with a 2C or 4C DNA amount in mature tissue was compared with that in meristems of excised primary root tips deprived of carbohydrate. Results from four plant species are described. Cells in mature tissue of seedling roots of Vicia and Pisum exhibited arrest predominately at the 4C while those of Triticum and Helianthus arrested preponderantly at the 2C DNA level. The proportion of cells arrested at the 2C and 4C levels in mature root tissue was specific for each species tested. In each species the cycle stage where most cells arrested was the same in carbohydrate-deficient root meristems as in mature root tissue; consequently, most meristematic cells are preconditioned or predetermined to arrest in a specific mitotic period. A test system was developed in Pisum in which the predominant period of arrest was altered by the removal of the cotyledons. The predominant arrest period changed from 4C to 2C in both mature root tissue and carbohydrate-deficient root meristems with cotyledon removal and indicated that mature root cells are preconditioned while meristematic as to where they will eventually arrest in the mitotic cycle.     

Inter- and intrachromosomal asynchrony of cell division cycle events in root meristem cells of Allium cepa: possible connection with gradient of cyclin B-like proteins

Alternate treatments of Allium cepa root meristems with hydroxyurea (HU) and caffeine give rise to extremely large and highly elongated cells with atypical images of mitotic divisions, including internuclear asynchrony and an unknown type of interchromosomal asynchrony observed during metaphase-to-anaphase transition. Another type of asynchrony that cannot depend solely on the increased length of cells was observed following long-term incubation of roots with HU. This kind of treatment revealed both cell nuclei entering premature mitosis and, for the first time, an uncommon form of mitotic abnormality manifested in a gradual condensation of chromatin (spanning from interphase to prometaphase). Immunocytochemical study of polykaryotic cells using anti-β tubulin antibodies revealed severe perturbations in the microtubular organization of preprophase bands. Quantitative immunofluorescence measurements of the control cells indicate that the level of cyclin B-like proteins reaches the maximum at the G2 to metaphase transition and then becomes reduced during later stages of mitosis. After long-term incubation with low doses of HU, the amount of cyclin B-like proteins considerably increases, and a significant number of elongated cells show gradients of these proteins spread along successive regions of the perinuclear cytoplasm. It is suggested that there may be a direct link between the effects of HU-mediated deceleration of S- and G2-phases and an enhanced concentration of cyclin B-like proteins. In consequence, the activation of cyclin B-CDK complexes gives rise to an abnormal pattern of premature mitotic chromosome condensation with biphasic nuclear structures having one part of chromatin decondensed, and the other part condensed.     

The response of apical meristems of primary roots of Vicia faba L. to colchicine treatments

The effects of 0.5% and 0.025% solutions of colchicine on the passage of cells through the mitotic cycle in apical meristems of primary roots of Vicia faba have been examined. Both treatments affected cell progression through the mitotic cycle in the same way: S and G1 were shorter, and G2 and mitosis longer, than the corresponding control values. The duration of the various phases of the mitotic cycle were similar to those reported previously for apical meristems of lateral roots though cycle time itself was longer. Recovery of root proliferating tissues from colchicine-induced inhibition of growth is correlated with the presence of quiescent cells. Meristems which have no quiescent cells do not recover from eolchicine treatment, while meristems which contain many quiescent cells recover faster than those which contain few. The growth fraction and the proportion of proliferating cells with a short cycle time are linearly related to the duration of the S period in root meristems.     

Hepatocyte growth factor at S phase induces G2 delay through sustained ERK activation

The effect of growth factors on the cell cycle progression, except G1/S transition, is poorly understood. Herein, we examined the effect of hepatocyte growth factor (HGF) treated at S phase on the cell cycle progression of HeLa cells. Interestingly, the treatment resulted in G2 delay, evidenced by flow cytometric and mitotic index analyses. The delay corresponded with the delay of degradation of cyclin A and cyclin B, and the delay of decrease of Cdk1/cyclin B and Cdk2/cyclin A kinase activities. As for the signaling responsible, sustained activation of ERK, but neither of p38MAPK nor of JNK, was observed after HGF treatment at S phase. Furthermore, U0126, an inhibitor of MEK1, and DN-MEK partially abrogated the G2 delay, indicating that activation of MEK-ERK pathway is involved. Taken together, HGF treatment of HeLa cells at S phase induces G2 delay partially through sustained activation of ERK signaling.     

Combined Cycloheximide and 8-Hydroxyquinoline Pretreatment for Study of Plant Chromosomes

The actions of cycloheximide and 8-hydmxyquinoline on dividing cells of root meristems of Zea mays L. have been studied during the development of a new cytological technique for sugar cane (Saccharum) root tips. The determination of mitotic phase indices revealed that combined treatment with cycloheximide (70 ppm) plus 8-hydroxyquinoline (250 ppm) was superior to treatments with either chemical separately. After the combined treatment, the preparations contained nearly ten times more cells in prophase and metaphase that were suitable for chromosome counting than those given a single pretreatment with 8-hydmxyquinoline. This new pretreatment has been developed especially for chromosome studies in tropical grasses with a large number of small chromosomes. However, both chemicals are active in a wide range of plant species.     

Photoperiod and gibberellic acid – control of the cell cycle in the meristem of Silene armeria and its effects on flowering

Plants of Silene armeria L., strain S_2.1, a quantitative long-day (LD) species which is known to react to GA₃ by flowering after attaining, the'intermediate stage', were induced by two LD or by two GA₃ applications. Changes in the mitotic index and DNA content (microdensitometric estimation) of cells in the axial zone, lateral zone and rib meristem of the shoot apex were observed during the first 48 h of each treatment. Similar mitotic activation occurred in response to LD or GA₃ after a 6-8 h lag period. This was preceded by a decrease in the proportion of nuclei with a 2C DNA content, indicating that in this species the control point for the shortening of the cell cycle was essentially in G₁. A second mitotic peak was observed 16 h later in photoinduced meristems, resulting in more pronounced cellular synchronization. These further events were not seen in GA₃-treated plants where only the meristematic activity was slightly, but reproducibly higher than in the control. Thus, two successive synchronizations of cell division are a typical feature of LD induction. The data are discussed with regard to the competence of shoot apical cells to be reactivated. The essential changes for the transition to flowering depend on these differential patterns of cell reactivation.     

Dependence of centriole formation on protein synthesis

Centriole formation was studied after inhibition of protein synthesis for various portions of the cell cycle. Synchronous populations of mitotic L929 (mouse) cells were plated into petri dishes and the course of procentriole formation was monitored by electron microscope analysis. The frequency with which procentrioles were seen in association with mature centrioles normally increased steadily in the interval from 4 to 12 h after mitosis. The formation of procentrioles was abruptly inhibited by the addition of cycloheximide at any time from mitosis until 12 h postmitosis (S phase). This suggested that the formation of procentrioles was dependent upon protein synthesis immediately before their appearance. Prophase-accociated elongation of procentrioles appeared to occur normally in cells treated with cycloheximide for up to 4 h before prophase, though the mitotic index in treated cultures decreased somewhat. Thus, protein synthesis did not appear to be essential for procentriolar elongation to the mature length.     

Effects of caffeine and cycloheximide during G2 prophase in control and X-ray-irradiated human lymphocytes

The effect of caffeine and cycloheximide during the G2 phase on frequency of chromosomal aberrations and G2 duration was studied in control and X-ray-irradiated human lymphocytes in vitro. Caffeine treatments alone increase the frequencies of chromatid breakage and decrease the average G2 duration in control and X-ray-irradiated lymphocytes (40 R). Both caffeine effects are reversed by 0.5 micrograms/ml cycloheximide in combination treatments. Cycloheximide treatments alone prolong G2 duration in control as well as in X-ray-irradiated lymphocytes although no improvement in chromosome repairing by this inhibitor of protein synthesis was observed under the conditions of our experiments. We propose that the cycloheximide effect is associated with a low level of mitotic factors, required for the entrance into mitosis, which is maintained at a higher level in caffeine treatment alone. Finally, G2 delay has generally been associated with certain genome damage. The fact that the caffeine and cycloheximide effects on X-irradiated lymphocytes are also present in control lymphocytes (without X-rays) suggests that control of the G2 duration constitutes one of the mechanisms involved in DNA repair operating during the G2 phase.     

An effect of zinc on M-phase and G1 of the plant cell cycle in the synchronous TBY-2 tobacco cell suspension

An analysis was undertaken of the effects of a toxic metal,zinc, on plant cell suspension cultures of the TBY–2 cellline of tobacco (Nicotiana tabacum cv. Bright Yellow 2) in orderto determine whether Zn acts in a cell cycle-specific manner.In the control treatment (0 Zn), following a 24 h synchronizationwith aphidicolin and 7 h after the release from the inhibitor,the mitotic index peaked at 45%. The inclusion of Zn in the24 h aphidicolin treatment (100, 200 or 300 µM Zn) resultedin a concentration–dependent decrease in the mitotic peakto 30%, 22% and 10%, respectively, but did not affect the timingof the peak. Hence, despite high concentrations of Zn, cellstraversed from S–phase to mitosis, albeit in smaller proportions,at the same rate as the controls. Cells treated with 0, 100or 200 µM Zn during synchronization and then releasedinto Zn–free media showed successive peaks in mitoticindex at 7 h and 21 h following release, i.e. Zn-treated cellsprogressed through a complete cell cycle at the same rate asthe controls. Synchronization and subsequent release into Zn–containingmedium (100 µM) examined the effect of the metal on predominantlylate G1 cells. In this treatment, the mitotic index peaked at7 h and 19 h, indicating a slightly faster cell cycle (12 h)compared with the control (14 h). Continuous exposure to 100µM Zn through both synchronization and release resultedin a cell cycle of 11 h and a differential effect on the componentphases: M–phase lengthened (1.5 h to 3.5 h) and G1 shortened(6 h to 1 h) compared with the control treatment. Vital staining (Evans Blue) revealed that cell mortality increasedfrom 2.7% (0 Zn) to 6.1% and 6.5% at 100 and 200 µM Zn,respectively. The Zn content of cells increased 40–lfoldfrom 0 to 100 µM Zn. The data are consistent with theeffects of Zn reducing the cycling cell population primarilythrough cell arrest rather than cell death, but also revealthat a substantial population of TBY–2 cells progressedthrough the cell cycle despite accumulating Zn. In particular,the duration of G2 and S-phase was remarkably invariant, clearlyindicating that once plant cells meet the requirements of lateG1 check-points, they are committed to divide, even in the presenceof toxic concentrations of Zn. The synchronous TBY–2 cell suspension, which lacks theheterogeneity and developmental constraints of plant meristems,is an excellent system to study the effects of known toxic metals,and indeed other environmental factors, on the plant cell cycle. Key words: Cell cycle, plant cell suspensions, Nicotiana tabacum, zinc, toxicity     

Proliferative index estimated by chromatin pattern analysis.

Chromatin pattern analysis at different density thresholds in Feulgen-stained meristems stimulated to proliferate by water inbibition, allows to estimate a proliferative potential index (PPI) which is a much earlier indicator of changes in proliferation than conventional labelling and mitotic indices. The PPI is but the ratio G1 cells to total 2C cells (or G2 to 4C cells, when cells also digress from the post-replicative stage of the cycle). The method is based in the fact that G1 and G2 cells have larger projected nuclear area and smaller dense chromatin area than their conterpart non-proliferating G0 and G0,2 cells.     

The Response of Root Meristems to Colchicine and Indol-3yl-acetic acid in Vicia faba L.

The effects of colchicine and IAA treatments on mitotic activityin various root proliferating tissues have been determined.Lateral root primordia were not affected by IAA, though 24 hfollowing treatment mitotic activity was severely inhibitedin the apical meristems of 1-cm-long attached lateral rootsand primary roots. Primordia were also less sensitive to colchicinetreatment than root apical meristems. Thus telophase figureswere present in the former meristems 3 h following treatment,but not in the latter. Primordia and apical meristems respondedto the same extent, however, to the colchicine-induced increasein number of cells in metaphase, anaphase, and telophase, 3h after treatment began. The apparent difference between largeprimordia and root apical meristems in this respect was dueto the failure of colchicine to penetrate the cells of the formerproliferating tissues as rapidly as the latter. IAA was foundto prevent the increased MI found 24 h following colchicinetreatment only in those meristems where IAA inhibited mitoticactivity at this time. IAA treatments, either alone or withcolchicine, were also found to maintain mitotic activity in1-cm-long lateral roots which were excised from the primaryroots 24 h previously. In such laterals which were not treatedwith IAA, MI was zero at 24 h. It is concluded from the datareported in this paper that, during the development of rootapical meristems, changes take place in the response of cellsto factors affecting mitotic activity.     

In vitro differential effects of sodium selenite on the growth of human hepatoma cells and human embryonic liver cells

The effects of various concentrations of Na₂SeO₃ on human hepatoma cells and human embryonic liver cells was investigated in vitro. For human hepatoma cells, mitotic index and cell count decreased with increasing selenium concentrations. At 1 μg/mL Na₂SeO₃, mitotic activity of human hepatoma cells were partially arrested. In human embryonic liver cells continuously treated with Na₂SeO₃, (1 μg/mL) cell count of the treated group decreased only by d 7; mitotic index, labeled index, and mean silver grain number per 50 labeled nuclei were the same as in the control group on exposure to 1, 3, and 5 μg/mL for up to 72 h. In mixed cultures of human hepatoma and embryonic liver cells treated with 3 and 5 μg/mL of Na₂SeO₃ for 24 h, hepatoma cells showed vacuolated cytoplasms, distorted nuclei, condensed chromatin, and even pyknosis, whereas the embryonic liver cells retained a normal morphology under the same treatment.     

Changes in the Duration of the Mitotic Cycle Induced by Colchicine and Indol-3yl-acetic Acid in Vicia faba Roots

Cells of root meristems of Vicia faba were labelled with tritiatedthymidine and treated with colchicine or IAA or both. The effectsof these compounds on the duration of the mitotic cycle andits constituent phases have been determined using the labelledmitoses wave method of Quastler and Sherman. Colchicine shortensthe mitotic cycle of the cells in interphase at the time oftreatment; it appears to stimulate cells in G1 or early S tocomplete interphase faster than untreated cells. The affectedcells arrive at mitosis 9–12 h after the beginning oftreatment and contribute to the increase in mitotic index seenafter treatment with colchicine. Treatment with IAA did notaffect cells in G2 but it delayed cells in S; this results ina temporary fall in M.I. The effect of IAA in prolonging interphasewas also seen in roots treated with colchicine and IAA; thetetraploid cells induced by colchicine take longer to reachmetaphase than cells treated only with colchicine. The resultssuggest that colchicine and IAA affect different phases of thecell cycle.