Role of microtubular cytoskeleton and callose walls in the manifestation of cytomixis in pollen mother cells of tobacco Nicotiana tabacum L.

The structure and dynamics of microtubular cytoskeleton and of callose walls in normal pollen mother cells (PMC) of tobacco N. tabacum L. and in cells with intercellular translocation of nuclear material (cytomictic) was studied in the course of the cell cycle. The microtubular cytoskeleton was established as playing no obvious role in the process of cytomixis. The elevated level of cytomictic seems to be due to disturbances of synthesis of callose walls as a result of their attenuation and perforation. Possible causes of cytomictic in tobacco PMC at the cellular level are discussed.     

Efficiency of the induction of cytomixis in the microsporogenesis of dicotyledonous (<Emphasis Type="Italic">N. tabacum</Emphasis> L.) and monocotyledonous (<Emphasis Type="Italic">H. distichum</Emphasis> L.) plants by thermal stress

The efficiencies of the induction of cytomixis in microsporogenesis by thermal stress are compared in tobacco (N. tabacum L.) and barley (H. distichum L.) It has been shown that different thermal treatment schedules (budding tobacco plants at 50°C and air-dried barley grains at 48°C) produce similar results in the species: the frequency of cytomixis increases, and its maximum shifts to later stages of meiosis. However, the species show differences in response. The cytomixis frequency increase in tobacco is more pronounced, and its maximum shifts from the zygotene–pachytene stages of meiotic prophase I to prometaphase–metaphase I. Later in the meiosis, aberrations in chromosome structure and meiotic apparatus formation typical of cytomixis are noted, as well as cytomixis activation in tapetum cells. Thermal stress disturbs the integration of callose-bearing vesicles into the callose wall. Cold treatment at 7°C does not affect cytomixis frequency in tobacco microsporogenesis. Incubation of barley seeds at 48°C activates cytomixis in comparison to the control, shifts its maximum from the premeiotic interphase to zygotene, and changes the habit of cytomictic interactions from pairwise contacts to the formation of multicellular clusters. Thermal treatment induces cytomictic interactions within the tapetum and between microsporocytes and the tapetum. However, later meiotic phases show no adverse consequences of active cytomixis in barley. It is conjectured that heat stress affects callose metabolism and integration into the forming callose wall, thereby causing incomplete closure of cytomictic channels and favoring intercellular chromosome migration at advanced meiotic stages.     

Interaction between Cytokinesis-Related Callose and Cortical Microtubules in Dividing Cells of the Liverwort Riella helicophylla

Abstract: In juvenile walls of dividing cells of the liverwort Riella helicophylla the nitroso-derivative of photolysed Nifedipine (a calcium antagonist) stimulates the deposition of callose. This enhanced biosynthesis of β-1,3-glucan can only be observed in the cell plate, the juvenile cell walls and the walls of adjacent cells. An immunocytological analysis of this effect revealed that no cortical microtubules occurred at the sites of callose deposition. The cells of the control displayed a normal distribution of cortical microtubules at the plasma membrane as long as no callose was deposited along the corresponding walls. In a second set of experiments, inhibitors of microtubule polymerization and depolymerization (amiprophosmethyl and taxol, respectively) were used. At low concentrations, these substances also caused a significant stimulation of callose deposition in the plane of cell division. Based on these findings, we propose a regulatory model of callose and cellulose biosynthesis that depends on the binding of the cellulose/callose synthase complex to cortical microtubules that may be mediated by unknown binding protein(s).     

烟草花粉母细胞细胞融合过程中细胞骨架的超微结构观察

应用普通电镜和DGD去包埋技术 ,研究了烟草花粉母细胞中的细胞融合现象及细胞融合过程中细胞骨架的变化。观察发现 ,处于凝线期的花粉母细胞 ,其内含物 ,包括细胞器和染色质 ,主要通过胞质通道向相邻细胞发生转移。DGD去包埋观察发现 ,花粉母细胞中核骨架与细胞质内及胞间连丝和胞质通道内胞质骨架连接成一个整体。在整个细胞融合过程中 ,均有核骨架纤维与染色质相连。本文讨论了细胞骨架在细胞融合过程中的作用     

OBSERVATIONS ON PREMEIOCYTES OF WHEAT

Electron microscopic observations of wheat premeiocytes in premeiotic mitosis (PMM) and premeiotic interphase (PMI) are reported. In archesporial cells of columns at last PMM there is a significant increase in activity of endoplasmic reticulum. Characteristic states of chromatin of premeiocyte nuclei in the stages of PMI are illustrated. Changes in the primary walls of PMCs at Stage 1, PMI, precede the formation of callose in Stage 2. In general, callose deposition throughout the PMC column follows the pattern described elsewhere in Sorghum and other Gramineae. The behavior of the plasmalemma during callose synthesis resembles that described elsewhere in Cucurbita. A role for the cell endomembrane system in callose synthesis is suggested. Blebs arising from the inner membrane of the nuclear envelope, described elsewhere in endosperm cells of wheat and by us in wheat PMCs in this report, give rise to vesicles which carry nuclear material into the cell cytoplasm. Differences in this transport mechanism as it appears in the two tissue systems are described.     

Methomyl,imbraclaobrid and clethodim induced cytomixis and syncytes behaviors in PMCs of Pisum sativum L: Causes and outcomes

Cytomixis is a common phenomenon observed in meiotic cells such as anther which is influenced by various factors. Use of pesticides is a common practice in agriculture. However, it is not known whether pesticides can induce cytomixis in plant cells and induce genetic variation. To understand this, the present study was planned to assess the cytomixis and syncytes behaviors in PMCs of Pisum sativum L. Seeds of P. sativum (Family: Fabaceae) were treated with different concentrations of commonly used pesticides methomyl (ME), imbraclaobrid (IM) and clethodim (CL). Seeds were treated with various concentrations (0.1, 0.2, 0.3, 0.4 and 0.5% of ME, IM and CL prepared in water) for 1 and 3 h. Effect of pesticides on pollen fertility, frequency of cytomixis, and kind of cytomixis cells was assessed. In the cytomixis cells, the cytomictic channel (CC) and direct fusion (DF), and various stages of meiosis (PI, MI, AI and TI) with cytomixis cells were observed. In addition, frequency of syncytes cell and their various stages of meiosis I (PI, MI, AI and TI) in pollen mother cells (PMCs) was assessed. During the microsporogenesis in P. sativum, the occurrence of cytomixis and syncytes at various stages of meiosis I were seen. The formation of cytoplasmic channels and direct fusing of pollen mother cells (PMCs) were both seen to cause cytomixis, with the former being more common than the latter. The percentage of PMCs with cytomixis and syncytes cells increased with increase in the concentration of pesticides. The result of the present investigation indicates that commonly used pesticides ME, IM, and CL have a significant effect on pollen fertility, frequency of cytomixis, and kind of cytomixis cells, the cytomictic channel (CC) and direct fusion (DF), in addition, frequency of syncytes cell and their various stages of meiosis I (PI, MI, AI and TI) in pollen mother cells (PMCs) on P. sativum.     

MS32-regulated timing of callose degradation during microsporogenesisin Arabidopsis is associated with the accumulation of stacked rough ER in tapetal cells

  In the male sterile32(ms32)mutant in Arabidopsis thaliana, pollen development is affected during meiosis of pollen mother cells (PMCs). In normal wild-type (WT) anthers, callose is deposited around PMCs before and during meiosis, and after meiosis the tetrads have a complete callose wall. In ms32, PMCs showed initial signs of some callose deposition before meiosis, but it was degraded soon after, as was part of the cellulosic wall around the PMCs. The early dissolution of callose in ms32 was associated with the occurrence of extensive stacks of rough ER (RER) in tapetal cells. The stacks of RER were also observed in the WT tapetum, but at a later stage, i.e., after the tetrads were formed and when callose is normally broken down for release of microspores. Based on these observations it is suggested that: (1) callose degradation around developing microspores is linked to the formation of RER in tapetal cells, which presumably synthesize and/or secrete callase into the anther locule, and (2) mutation in MS32 disrupts the timing of these events. Received: 27 April 1999 / Revision accepted: 21 June 1999     

Cytomixis and its possible evolutionary role in a Kuwaiti population of Diplotaxis harra (Brassicaceae)

During a cytotaxonomical study of a Kuwaiti diploid (2 n  = 26) population of Diplotaxis harra (Forssk.) Boiss (Brassicaceae), cytomixis and aneuploidy were found in 1.5% and 7.8% of the pollen mother cells (PMCs), respectively. Cytomictic cells revealed wide variability as far as the number of involved PMCs and their stage of division were concerned. The cytoplasmic channels, which were of different sizes, contained migrating chromosomes in a few cases. In some PMCs, the location of some of the chromosomes was clearly indicative of an imminent migration from a donor to its attached recipient cell. At metaphase I and anaphase I, PMCs showed variable degree of chromosomal transfer. In addition to a genetic control of the phenomenon, stress factors such as high temperature or drought in certain periods of the growing season may have contributed to the incidence of cytomixis in the material. A possible relationship between cytomixis and detected aneuploid PMCs, as well as a reconsideration of an evolutionary role of cytomixis is discussed.  © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society , 2003, 143 , 169–175.     

The Relation between Cytomixis and Variation of Chromosome Numbers in Pollen Mother ceils of Rye (Secale cereale L.)

Cytomixis is a spontaneous and normal process occurring through the formation of plasma channels between neighbouring pollen mother cells (PMCs). This phenomenon was observed in the PMCs of 2 variaties of Secale cereale which had been collected from Gausu and Shanxi Provinces. The process had led to the formation of up to 6.37% of PMCs with chromosome numbers deviating from the normal haploid number n=7. The abnormal PMCs contained chromosome numbers ranging from 5–9 in metaphase Ⅰ. Abnormal PMCs with decreased and increased chromosome numbers could be the result of cytomixis. The cytological consequences and the evolutionary significance of cytomixis are discussed.     

Cytomixis and its role in the regulation of plant fertility

UV and gamma irradiation of barley seedlings induces an increase in the number of various pathologies in the male reproductive system of plants. The majority of cytological abnormalities are rather nonspecific. The main type of the observed pathologies of microsporogenesis is cytomixis, whose activation correlates with a callose hypersecretion in microsporocyte walls. A negative correlation between cytomixis and the sterility of microspores (in the case of gamma irradiation) or the sterility of mature pollen grains (in the case of UV-B irradiation) is revealed. It is supposed that cytomixis represents a kind of a premeiotic cell selection in plants characterized by an intraorganismic genetic heterogeneity (mosaics). The novelty of the idea is that the cytopathology that accompanies cytomixis is considered as a mechanism of the induced death of genetically imbalanced or nonrepairable cells, which is intended to keep the fertility of a male reproductive system. The activation of this mechanism has a threshold character.     

Impact of cytomixis on meiosis, pollen viability and pollen size in wild populations of Himalayan poppy (Meconopsis aculeata Royle)

We report the occurrence of cytomixis in wild populations of Himalayan poppy (Meconopsis aculeata Royle), which is considered to be an important and threatened medicinal plant growing in the high hills of the Himalayas. The impact of cytomixis on meiotic behaviour, reduced pollen viability and heterogeneous-sized pollen grains was also studied. Cytological studies in the seven wild populations from the high hills of Himachal Pradesh revealed that all the Himalayan populations exist uniformly at the tetraploid level (2n=56) on x=14. The phenomenon of chromatin transfer among the proximate pollen mother cells (PMCs) in six populations caused various meiotic abnormalities. Chromatin transfer also resulted in the formation of coenocytes, aneuploid, polyploid and anucleated PMCs. Among individuals that showed chromatin transfer, chromosome stickiness and interbivalent connections were frequently observed in some PMCs. The phenomenon of cytomixis in the species seems to be directly under genetic control; it affects the meiotic course considerably and results in reduced pollen viability.     

Induction of cytomixis affects microsporogenesis in Sesamum indicum L. (Pedaliaceae)

Cytomixis was recorded during microsporogenesis in sesame (Sesamum indicum L.), a member of the family Pedaliaceae. The phenomenon of cytomixis was observed at various stages of meiosis in 0.5% sodium azide (SA) treated populations of Sesamum indicum L. Cytomixis was observed to occur through various methods, i.e. by forming cytoplasmic channels and direct fusion of pollen mother cells (PMCs), the former was more frequent than the latter. The migration of nuclear content involved all the chromatin/chromosomes or part of it from donor to recipient cell/cells. Some completely empty meiocytes were also observed. Stickiness, precocious movement, laggards, unorientation and micronuclei were observed in almost all the sets treated with various doses of SA. Increase in the doses of SA had a positive effect on the percentage of PMCs showing cytomixis and chromosomal abnormalities. The impact of cytomixis on meiotic behaviour, reduced pollen viability and heterogeneous sized pollen grains were observed.     

Germination of Monocolpate Angiosperm Pollen: Effects of Inhibitory Factors and the Ca2+-Channel Blocker, Nifedipine

Hydration of pollen of Narcissus pseudonarcissus was retardedand germination blocked in media with supra-optimal concentrationsof osmoticum. Activation of the grains, expressed in circulatorymovement in the vegetative cell, was not blocked. Wall developmentwas disrupted, and pectic material and callose were depositedthroughout. In the absence of calcium many grains burst on hydration.The survivors showed evidence of activation, but few tubes wereformed. In medium with supra-optimal Ca²⁺, activation proceeded,but where tube tips were produced they became occluded withcallose, which eventually formed a general lining to the intine.Nifedipine, a Ca²⁺-blocker, did not prevent activation at 10^–4M, but reduced callose deposition and inhibited polarized movementin the vegetative cell. Prominences formed at the germinationsites were mostly low and rounded. During recovery in normalmedium, tube tips with normal callose linings were formed. Colchicine,a microtubule inhibitor, had no effect on activation or germination.Cytochalasin D, an actin inhibitor, prevented activation ofthe vegetative cell, but did not arrest all wall deposition.Movement began soon after transfer to normal medium, and somegrains produced adventitious tube tips. While Ca²⁺ appears notto be essential for activation, these results may be interpretedas indicating links in the normal course of germination betweenthe initial Ca²⁺ influx at the potential germination sites and:(a) polarization of movement in the vegetative cell, probablyrelated to re-orientation of the actin cytoskeleton; and (b)patterned deposition of callose, which appears to have an importantmorphogenetic role. Narcissus pseudonarcissus, pollen activation, pollen germination, osmotic effects, actin cytoskeleton, nifedipine, cytochalasin D, colchicine, role of Ca²⁺ flux     

Disruption of male meiosis in transgenic line tobacco res91

The course of meiosis in male-sterile trasgenic tobacco line res91 has been analysed. Cytological analysis included visualization of the spindle and phragmoplast. Abnormal meiosis was characterized with 1) cytomixis; 2) deformation of nuclei at prophase 2 in part of the cells, and lack of spindle formation in such cells at M2; 3) desorientation of spindles in meiosis 2. This set of abnormalities allows to suppose certain disturbancies of cytoskeleton during male meiosis in res91.     

Cytomixis and associated meiotic abnormalities affecting pollen fertility in Clematis orientalis

Present cytological investigations from the cold desert regions of Lahaul-Spiti and Kinnaur (India) record the first ever tetraploid (2n=32) chromosome count and cytomixis in Clematis orientalis L. var. acutifolia Hook. f. et Thoms. The phenomenon of cytomixis (9.33–29.80 %) involving chromatin transfer among 2–3 proximate pollen mother cells (PMCs) during male meiosis occurs through narrow and broad cytoplasmic channels from early prophase to tetrad stage. However, frequency of its occurrence during the later meiotic stages is rather low. Chromatin transfer results into the formation of hypo-, hyperploid and enucleated PMCs. Various meiotic abnormalities associated with cytomixis such as chromatin stickiness, pycnotic chromatin, interbivalent connections, out of plate bivalents, late disjunction of bivalents, and laggards and bridges resulted into some pollen sterility (16.33–49.30 %) and heterogeneous pollen grains size.     

Caffeine inhibits callose deposition in the cell plate and the depolymerization of microtubules in the central region of the phragmoplast

Treatment of tobacco BY-2 cells with 10 mM caffeine that was started after the cells had entered the mitotic phase did not completely inhibit the deposition of callose in the cell plate and allowed the centrifugal redistribution of phragmoplast microtubules. On the other hand, when treatment with caffeine was started before the cells entered the mitotic phase, the deposition of callose was completely inhibited and the redistribution of phragmoplast microtubules was also inhibited. As the inhibition of redistribution of phragmoplast microtubules seems to be caused by the inhibition of depolymerization of microtubules at the central region of the phragmoplast, these results strongly suggest that the deposition of callose in the cell plate is tightly linked with the depolymerization of phragmoplast microtubules. Callose deposition was observed in phragmoplasts isolated from caffeine-treated cells as well as in those isolated from non-caffeine-treated cells, and caffeine did not inhibit callose synthesis in isolated phragmoplast, indicating that caffeine neither inhibits the accumulation of callose synthase at the equatorial regions of the phragmoplast nor arrests callose synthase itself.     

Cortical microtubule arrays in the Arabidopsis seedling

Advances in live-cell imaging technology have provided an unprecedented look at the dynamic behaviors of the plant microtubule cytoskeleton. Recent studies revisit the classic question of how plants create cell shape through the patterned construction of the cell wall. Visualization of the cellulose synthase complex traveling in the plasma membrane has brought a watershed of new information about cellulose deposition. Observation of the cellulose synthase complex tracking precisely over the underlying cortical microtubules has provided clear evidence that the microtubule array pattern serves as a spatial template for cellulose microfibril extrusion. Understanding how the microtubules are organized into specific array patterns remains a challenge, though new ideas are arising from genetic and cell biological studies. Long-term time-lapse observations of the microtubule arrays in light-grown hypocotyl cells have revealed a striking process of microtubule patterning possibly linked to the creation of polylamellate cell walls.     

蚕豆花粉母细胞染色体畸变同染色质胞间转移的关系

采用压碎、石蜡切片及植物染色体分带技术观察蚕豆花粉母细胞减数分裂过程发现:1.蚕豆花粉母细胞减数分裂的凝线期也出现染色质胞间转移现象;2.在8.08%的花粉母细胞内,染色体偏离正常的数目(n=6);3.染色体结构也有显著改变,其中包括染色体断裂、桥和长度的增减;4.出现双核和无核的花粉母细胞。大量证据表明,这些畸变现象同凝线期的染色质胞间转移有关。     

Cytomixis in Lolium perenne

Cytomixis is a spontaneous process occurring through the formation of cytoplasmic bridges between adjacent pollen mother cells. This phenomenon was observed in the pollen mother cells of 3 genotypes of Lolium perenne which had been subjected to directional selection for productivity of green material. — The process has led to the formation of up to 34.8% of PMCs with chromosome numbers deviating from the normal diploid number 2n=14. The abnormal PMCs contained chromosome numbers ranging from 2–56 as observed at first metaphase. — Abnormal PMCs were also observed with approximately the same frequency in Meiosis II. This phenomenon is under genetic control. The evolutionary significance of cytomixis and the cytological consequences are discussed.     

Early local differentiation of the cell wall matrix defines the contact sites in lobed mesophyll cells of Zea mays

Background and Aims

The morphogenesis of lobed mesophyll cells (MCs) is highly controlled and coupled with intercellular space formation. Cortical microtubule rings define the number and the position of MC isthmi. This work investigated early events of MC morphogenesis, especially the mechanism defining the position of contacts between MCs. The distributions of plasmodesmata, the hemicelluloses callose and (1 → 3,1 → 4)-β-d-glucans (MLGs) and the pectin epitopes recognized by the 2F4, JIM5, JIM7 and LM6 antibodies were studied in the cell walls of Zea mays MCs.

Methods

Matrix cell wall polysaccharides were immunolocalized in hand-made sections and in sections of material embedded in LR White resin. Callose was also localized using aniline blue in hand-made sections. Plasmodesmata distribution was examined by transmission electron microscopy.

Results

Before reorganization of the dispersed cortical microtubules into microtubule rings, particular bands of the longitudinal MC walls, where the MC contacts will form, locally differentiate by selective (1) deposition of callose and the pectin epitopes recognized by the 2F4, LM6, JIM5 and JIM7 antibodies, (2) degradation of MLGs and (3) formation of secondary plasmodesmata clusterings. This cell wall matrix differentiation persists in cell contacts of mature MCs. Simultaneously, the wall bands between those of future cell contacts differentiate with (1) deposition of local cell wall thickenings including cellulose microfibrils, (2) preferential presence of MLGs, (3) absence of callose and (4) transient presence of the pectins identified by the JIM5 and JIM7 antibodies. The wall areas between cell contacts expand determinately to form the cell isthmi and the cell lobes.

Conclusions

The morphogenesis of lobed MCs is characterized by the early patterned differentiation of two distinct cell wall subdomains, defining the sites of the future MC contacts and of the future MC isthmi respectively. This patterned cell wall differentiation precedes cortical microtubule reorganization and may define microtubule ring disposition.