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1.
Cytokinesis in apical cells of actively growing cultures of Cephaleuros parasiticus Karsten sporangiate thalli was examined with transmission electron microscopy. A massive, interzonal cytokinetic microtubule spindle is anchored at its poles to the medial surfaces of the daughter nuclei at telophase. Later, the daughter nuclei are widely separated and no longer associated with the interzonal spindle; however, the spindle retains its shape and becomes a distinct phragmoplast with an array of vesicles, presumably derived from dictyosomes, aligned in the division plane. Fusion of the vesicles gives rise to a thin cell plate. Some bundles of microtubules in the spindle appear to mark the sites of plasmodesmata formation, but no endoptasmic reticulum is directly involved in plasmodesmata formation. No infurrowing or phycoplast array of microtubules is involved in the cytokinesis. The relationship, if any. between the metaphase-anaphase mitotic microtubule system and the interzonal cytokinetic spindle has not been determined. Cephaleuros parasiticus isone of only four green algae now known to contain a higher plant-like phragmoplast and cytokinetic process. The observations reported can be interpreted as very strong evidence for a phylogenetic affinity between the Trentepohliaceae and the Charophyceae, but consideration of ulvophycean features of the Trentepohliaceae such as motile cell ultrastructure and life histories precludes unequivocal assignment of the family to either the Charophyceae or Ulvophyceae.  相似文献   

2.
The phragmoplast, a structure crucial for the completion of cytokinesis in plant cells, is composed of antiparallel microtubules (MTs) and actin filaments (AFs). However, how the parallel structure of phragmoplast MTs and AFs is maintained, especially during centrifugal phragmoplast expansion, remains elusive. Here, we analyzed a new Arabidopsis thaliana MT and AF crosslinking protein (AtMAC). When AtMAC was deleted, the phragmoplast showed disintegrity during centrifugal expansion, and the resulting phragmoplast fragmentation led to incomplete cell plates. Overexpression of AtMAC increased the resistance of phragmoplasts to depolymerization and caused the formation of additional phragmoplasts during cytokinesis. Biochemical experiments showed that AtMAC crosslinked MTs and AFs in vitro, and the truncated AtMAC protein, N-CC1, was the key domain controlling the ability of AtMAC. Further analysis showed that N-CC1(51–154) is the key domain for binding MTs, and N-CC1(51–125) for binding AFs. In conclusion, AtMAC is the novel MT and AF crosslinking protein found to be involved in regulation of phragmoplast organization during centrifugal phragmoplast expansion, which is required for complete cytokinesis.  相似文献   

3.
Ulva ohnoi Hiraoka et Shimada sp. nov. (Ulvales, Ulvophyceae) is described from southern and western Japan and is characterized by the following combination of features: (i) the large, fragile, easily torn thalli, which are 30–55 μm thick in the upper and middle regions and often have microscopic marginal teeth; (ii) the production of zoids in the upper marginal region; (iii) a regular alternation of dioecious gametophytes and a sporophyte; (iv) the production of free‐floating thalli from torn‐off attached thalli, which reproduce vegetatively by fragmentation and form green tides in summer to autumn; (v) disorderly arranged cells that are polygonal or quadrangular in the upper and middle regions; and (vi) the chloroplast covering the outer face of cell, with 1–3 pyrenoids. Ulva ohnoi differs from U. armohcana Dion et al., U. fasciata Delile, U. reticulata Forsskal, U. scandinavica Eliding and U. spiulosaOkamura et Segawa, which all possess microscopic marginal serrations, in thallus shape, cell shape or life history pattern. It is also distinguished from morphologically similar species by sequences of the nuclear encoded internal transcribed spacers and the 5.8S ribosomal RNA gene and the plastid encoded large subunit of ribulose‐l,5‐bisphosphate carboxylase/oxgenase gene. Furthermore, crossing tests demonstrate that there is a reproductive boundary between U. ohnoi and the most closely related species, U. fasciata and U. reticulata.  相似文献   

4.
Summary.  Cultured suspension cells of Arabidopsis thaliana that stably express a green-fluorescent protein–α-tubulin 6 fusion protein were used to follow the development and disintegration of phragmoplasts. The development and disintegration of phragmoplasts in the living cultured cells could be successively observed by detecting the green-fluorescent protein fluorescence of the microtubules. In the early telophase spindle, where two kinetochore groups and two daughter chromosome groups had completely separated from one another, fluorescence appeared in the interzone between the two chromosome groups. The fluorescent region was gradually condensed at the previous equator and increased in fluorescence intensity, and finally it formed the initial phragmoplast. The initial phragmoplast moved from the cell center towards the cell periphery, and it lost fluorescence at its center and became double rings in shape. The expansion orientation of the phragmoplast was not always the same as that of the future new cell wall before it came in contact with the cell wall. The phragmoplast did not usually come in contact with the cell wall simultaneously with its entire length. A portion of the phragmoplast which was earlier in contact with the cell wall disappeared earlier than other portions of the phragmoplast. The duration of contact between any portions of the phragmoplast and the plasma membrane of the cell wall was 15–30 min. The fluorescence intensity of the cytoplasm did not seem to be elevated by the disintegration of the strongly fluorescent phragmoplast. Received August 8, 2002; accepted September 25, 2002; published online March 11, 2003  相似文献   

5.
Detailed correlation of in vitro observations with the arrangement of microtubules (MTs) during anaphase-telophase were made on endosperm of Haemanthus katherinae. It is stressed that the general course of events leading to the formation of the phragmoplast is the same in all cells, but considerable variation of details may be found in different objects and even in various cells of the same tissue. The changes of MT arrangement in the interzonal region responsible for formation of the phragmoplast already occur in anaphase. During this stage continuous fibers (composed of numerous MTs) lengthen, become thinner (the number of MTs on a cross-section decreases), and often seem to break. After mid-anaphase, thin fibers begin to oscillate transversely to the axis of the phragmoplast and often are considerably laterally displaced (lateral movements). The longest MTs in the phragmoplast are present during oscillations and lateral movements. The new MTs arise in the phragmoplast regions depleted of MTs as a result of lateral movements (usually geometric central region of the phragmoplast). Clusters of vesicles, which accumulate in relation to MTs which move, fuse and form the cell plate. After the fusion, the number and the length of MTs decrease. Several processes are superimposed and occur simultaneously. Also the cell plate is, as a rule, in different stages of development in various regions of the phragmoplast. The movements of MTs and fusion of the vesicles is complex and the details of these processes are not entirely clear. The data supplied here modify some generally accepted concepts of phragmoplast formation and development. This concerns the center of origin of new MTs, the moment when they arise, and the way they subsequently behave.  相似文献   

6.
Cytokinesis in cells of Spirogyra sp. was studied with both light and electron microscopes. Early formation of the cross wall was achieved by annular ingrowth of a septum; the cross wall was completed by a phragmoplast containing Golgi vesicles, longitudinally aligned microtubules, and associated electron-dense material. Spirogyra may represent an intermediate stage in the evolution of the phragmoplast seen in higher plants.  相似文献   

7.
Summary The distribution of F-actin in the phragmoplast/cell plate complex of formaldehyde-fixedAllium root cells was visualized with rhodaminephalloidin (RP). Increased RP fluorescence appears in late anaphase in a broad zone between separating chromosomes. The fluorescence is mostly amorphous in appearance and does not resemble the distinct actin fibers seen in interphase cells. The actin becomes more concentrated near the midplane by telophase and takes the form of a relatively bright layer of fluorescence adjacent to the forming cell plate. This distribution differs markedly from that of phragmoplast microtubules (MTs) which extend back from the plate toward the daughter nuclei. F-actin continues to accumulate in new parts of the expanding phragmoplast, while RP fluorescence gradually decreases near older portions of the plate. It disappears completely near the new wall in most interphase cells. Treatment of root tips with cytochalasin B or D before fixation markedly reduces RP fluorescence, but phragmoplast MTs remain. Colchicine or oryzalin treatment leads to the disappearance of both phragmoplast actin and MTs. The possible function of actin in the phragmoplast/cell plate complex is discussed.Abbreviations CB cytochalasin B - CD cytochalasin D - CIPC isopropyl N-(3-chlorophenyl-)carbamate - DIC differential interference contrast - MT microtubule - PBS phosphate buffered saline - PM plasmalemma - RP rhodamine-phalloidin  相似文献   

8.
Isolation of meristematic tissue of the red alga Palmaria palmata by a freezing-thawing method and further maintenance of the tissue in culture showed the existence of groups of meristematic cells in superficial cortical layers of thallus forming wart-like outgrowths. For the first time, proliferations (plantlets) were obtained from meristematic tissue of sporophytic and male gametophytic fronds and tetraspores from submeristematic tissue of sporophytic fronds within a short period (6 weeks). Tissue fragments (1 × 1 mm2) from upper margins of fresh thalli and cell aggregates (10−100,000 cells) from marginal meristem and meristematic warts of fresh thalli and thalli after the freezing-thawing procedure were cultured for getting plantlets. Tissue fragments (TF) and cell aggregates (CA) from submeristematic tissue of fresh thalli were cultured for obtaining tetraspores. For mass getting proliferations (plantlets) and tetraspores we recommend to use CA from marginal tissue of fresh fronds because of fast growth, high numbers of proliferations and simple techniques of the method. The freezing-thawing method allows also to identify meristematic tissue and to obtain plantlets of red algae with apical meristem (e.g., Gelidium spp.).  相似文献   

9.
A. H. Valster  P. K. Hepler 《Protoplasma》1997,196(3-4):155-166
Summary The distribution of microtubules and actin microfilaments during caffeine-induced inhibition of cell plate formation has been studied in livingTradescantia stamen hair cells. Previous studies have shown that caffeine allows cell plate initiation but prevents its completion, resulting in binucleate cells. In the present study, confocal microscopy of cells microinjected with fluorescent brain tubulin or phalloidin, and cultured in the presence 5 mM caffeine, revealed that the initiation and early lateral expansion phase of the phragmoplast occur normally. However, caffeine completely inhibits the formation of the cytoskeletal torus which occurs in untreated cells during the late stages of cell plate and phragmoplast expansion. Caffeine further causes the disintegration of the incomplete cell plate. The results allow us to distinguish two phases in cell plate and phragmoplast growth: the initiation and early expansion phase, which is not affected by caffeine, and the late lateral expansion phase, which is completely inhibited in the presence of caffeine. Also in this study, the use of a high phalloidin concentration has revealed structural detail about the actin microfilaments involved in cell plate formation: microfilaments are observed that link the expanding edge of the phragmoplast with the cortical division site. In addition, cortical actin patches are observed within the actin depleted zone that might play a role in guidance of phragmoplast and cell plate expansion.  相似文献   

10.
The formation of archeospores is characteristic of Porphyra yezoensis Ueda and is important for Porphyra aquaculture. Recently, it has been regarded as a valuable seed source for propagation of thalli in mariculture. Cell wall composition changes are associated with archeospore formation in P. yezoensis. Here, we report changes of cell walls of P. yezoensis during archeospore formation. The surfaces of vegetative cells that were originally smooth became rougher and more protuberant as archeosporangia were formed. Ultimately, the cell walls of archeosporangia ruptured, and archeospores were released from the torn cell walls that were left at distal margins of thalli. With changes in cell walls, both effective quantum yield and maximal quantum yield of the same regions in thalli gradually increased during the transformation of vegetative cells to archeospores, suggesting that the photosynthetic properties of the same regions in thalli gradually increased. Meanwhile, photosynthetic parameters for different sectors of thalli were determined, which included the proximal vegetative cells, archeosporangia, and newly released archeospores. The changes in photosynthetic properties of different sectors of thalli were in accordance with that of the same regions in thalli at different stages. In addition, the photosynthetic responses of archeosporangia to light showed higher saturating irradiance levels than those of vegetative cells. All these results suggest that archeosporangial cell walls were not degraded prior to release but were ruptured via bulging of the archeospore within the sporangium, and ultimately, archeospores were discharged. The accumulation of carbohydrates during archeospore formation in P. yezoensis might be required for the release of archeospores.  相似文献   

11.
 The ultrastructure of periclinally dividing fusiform cells was studied in the vascular cambium of Robinia pseudoacacia. Fusiform cell division begins in April at Madison, Wisconsin, when the cambial cells still have many characteristics of a dormant cambium. Soon afterward, the cambial cells acquire the appearance typical of an active cambium. Sequential phases of the microtubule cycle were documented: cortical microtubules bordering the cell wall during interphase, perinuclear microtubules preceding formation of the mitotic spindle, spindle microtubules, and phragmoplast microtubules. A preprophase band of microtubules was not encountered. An extended phragmosome was not encountered in periclinally dividing fusiform cells. During cytokinesis, the phragmosome is represented by a broad cytoplasmic plate which precedes the developing phragmoplast and cell plate as they migrate toward the ends of the cell.  相似文献   

12.
Barták  M.  Hájek  J.  Gloser  J. 《Photosynthetica》2000,38(4):531-537
Spatial heterogeneity of chlorophyll (Chl) fluorescence over thalli of three foliose lichen species was studied using Chl fluorescence imaging (CFI) and slow Chl fluorescence kinetics supplemented with quenching analysis. CFI values indicated species-specific differences in location of the most physiologically active zones within fully hydrated thalli: marginal thallus parts (Hypogymnia physodes), central part and close-to-umbilicus spots (Lasallia pustulata), and irregulary-distributed zones within thallus (Umbilicaria hirsuta). During gradual desiccation of lichen thalli, decrease in Chl fluorescence parameters (FO - minimum Chl fluorescence at point O, FP - maximum Chl fluorescence at P point, 2 - effective quantum yield of photochemical energy conversion in photosystem 2) was observed. Under severe desiccation (>85 % of water saturation deficit), substantial thalli parts lost their apparent physiological activity and the resting parts exhibited only a small Chl fluorescence. Distribution of these active patches was identical with the most active areas found under full hydration. Thus spatial heterogeneity of Chl fluorescence in foliose lichens may reflect location of growth zones (pseudomeristems) within thalli and adjacent newly produced biomass. When exposed to high irradiance, fully-hydrated thalli of L. pustulata and U. hirsuta showed either an increase or no change in FO, and a decrease in FP. Distribution of Chl fluorescence after the high irradiance treatment, however, remained the same as before the treatment. After 60 min of recovery in the dark, FO and FP did not recover to initial values, which may indicate that the lichen used underwent a photoinhibition. The CFI method is an effective tool in assessing spatial heterogeneity of physiological activity over lichen thalli exposed to a variety of environmental factors. It may be also used to select a representative area at a lichen thallus before application of single-spot fluorometric techniques in lichens.  相似文献   

13.
The intertidal red alga Porphyra haitanensis Chang et Zheng is episodically desiccated and exposed to high levels of solar radiation at low tide during emersion. However, little has been documented on the relationship between the stresses during desiccation and related chemical compounds. We found that P. haitanensis thalli, when desiccated under indoor (artificial radiation) or outdoor (solar radiation) conditions, with or without UV radiation (UVR: 280–400 nm), contained significantly higher concentrations of UV-absorbing compounds (peak at 336 nm) than those maintained submerged (without desiccation). Solar UVR had no effect on the content of UV-absorbing compounds. Even though the concentration of these compounds decreased with time in all treatments, a slower decrease was observed in the desiccated samples. The samples with higher levels of UV-absorbing compounds showed higher photochemical efficiency of photosystem II (PS II) during the exposure or subsequent recovering process than samples with low concentration of UV-absorbing compounds, reflecting their protective role. The concentration of these compounds varied in different parts of the thallus, with the middle and marginal parts containing 60–80% more UV-absorbing compounds than the basal parts in both female and male plants. In addition, the marginal parts of male thalli contained more UV-absorbing compounds than the corresponding parts of female thalli. Our data suggest that desiccation plays a key role in this alga to maintain high concentration of UV-absorbing compounds, and that this might provide a beneficial advantage to compete in the intertidal zone where the organism is normally exposed to high levels of UVR.  相似文献   

14.
The microtubule (MT)‐associated putative kinase RUNKEL (RUK) is an important component of the phragmoplast machinery involved in cell plate formation in Arabidopsis somatic cytokinesis. Since loss‐of‐function ruk mutants display seedling lethality, it was previously not known whether RUK functions in mature sporophytes or during gametophyte development. In this study we utilized RUK proteins that lack the N‐terminal kinase domain to further examine biological processes related to RUK function. Truncated RUK proteins when expressed in wild‐type Arabidopsis plants cause cellularization defects not only in seedlings and adult tissues but also during male meiocyte development, resulting in abnormal pollen and reduced fertility. Ultrastructural analysis of male tetrads revealed irregular and incomplete or absent intersporal cell walls, caused by disorganized radial MT arrays. Moreover, in ruk mutants endosperm cellularization defects were also caused by disorganized radial MT arrays. Intriguingly, in seedlings expressing truncated RUK proteins, the kinesin HINKEL, which is required for the activation of a mitogen‐activated protein kinase signaling pathway regulating phragmoplast expansion, was mislocalized. Together, these observations support a common role for RUK in both phragmoplast‐based cytokinesis in somatic cells and syncytial cytokinesis in reproductive cells.  相似文献   

15.
The compensation for phragmoplast dysfunction in the male meiosis of F1 wheat × rye hybrids was described. In pollen mother cells (PMCs), he transition from central spindle fibers (forming a solid bundle) to phragmoplast (hollow cylinder) was blocked. This blockage suppresses the centrifugal movement of the phragmoplast and cell-plate formation. As a result, cells become binucleate. Sometimes, two nuclei fuse and form one restitution nucleus. In PMCs of the wheat × rye F1 hybrid D-144 gp 06 year (T. aestivum n. 93-60 t 9 × S. cereale n. Saratovskaya 7) with this phenotype, an additional phragmoplast is formed at the late telophase. This occurs by a common mechanism for the development of the immobile phragmoplast in the meiosis in bicotyledons; new phragmoplasts arise as a result of microtubule polymerization starting from the spindle poles. The accessory phragmoplast facilitates a new cell plate assembly and achievement of cytokinesis.  相似文献   

16.
Summary. We previously identified a 175 kDa polypeptide in Lilium longiflorum germinating pollen using a monoclonal antibody raised against myosin II heavy chain from Physarum polycephalum. In the present study, the equivalent polypeptide was also found in cultured tobacco BY-2 cells. Analysis of the amino acid sequences revealed that the 175 kDa polypeptide is clathrin heavy chain and not myosin heavy chain. After staining of BY-2 cells, punctate clathrin signals were distributed throughout the cytoplasm at interphase. During mitosis and cytokinesis, clathrin began to accumulate in the spindle and the phragmoplast and then was intensely concentrated in the cell plate. Expression of the C-terminal region of clathrin heavy chain, in which light chain binding and trimerization domains reside, induced the suppression of endocytosis and the formation of an aberrant spindle, phragmoplast, and cell plate, the likely cause of the observed multinucleate cells. These data strongly suggest that clathrin is intimately involved in the formation of the spindle and phragmoplast, as well as in endocytosis. Correspondence and reprints: Department of Life Science, Graduate School of Life Science, University of Hyogo, Harima Science Park City, Hyogo 678-1297, Japan. Present address: RIKEN Plant Science Center, Yokohama, Kanagawa, Japan.  相似文献   

17.
The present work establishes a correlation between cell length and patterns of mitotic microtubular assemblies in Allium cepa L. root meristems. Binucleate cells were formed by a short caffeine treatment which aborted the formation of the phragmoplast during telophase. The largest binucleate cells (about 50 μm in length) behaved as two contiguous mononucleate cells in their next mitosis: they developed two preprophase bands (PPBs), one around each nucleus, where two spindles and two phragmoplasts were subsequently formed. On the other hand, the shortest binucleate cells (about 36 μm in length) formed a single PPB at the site of the aborted phragmoplast and, in the medium-sized cells (about 44 μm) in which the single PPB formed around the nucleus possessing the largest cytoplasmic environment, the two mitotic spindles and the new phragmoplasts moved to, or were assembled in the position of the phragmoplast that had been aborted one cycle earlier. Some rules derive from these observations. First of all, the aborted phragmoplast left a signal for microtubule positioning which was still operative one cycle later, in two-thirds of the bimitoses. Also, that formation of the PPB is dispensable. Moreover, its development does not always predict the future division plane, because of the presence of competing old signals which are stronger than those shed by the PPB in the same mitosis, but which fade away with distance. Finally, the positional signals were reinforced when the ratio of monomeric to fibrillar actin was increased by cytochalasin D during their shedding. When this drug was given simultaneously with caffeine, the frequency of bimitoses which, one cycle later, developed spindles and phragmoplasts in the positions of the old phragmoplast increased. On the other hand, those frequencies dropped in relation to control when the cytochalasin D treatment took place during bimitosis, indicating that at this time the treatment reinforced the signals produced in bimitosis itself. Received: 3 February 1997 / Accepted: 4 June 1997  相似文献   

18.
Rensing KH  Samuels AL  Savidge RA 《Protoplasma》2002,220(1-2):0039-0049
Summary.  Trees depend on the secondary vascular cambium to produce cells for new xylem and phloem. The fusiform cells of this lateral meristem are long and narrow, presenting special challenges for arranging the mitotic spindle and phragmoplast. Fusiform cambial cells of Pinus ponderosa and Pinus contorta were studied by cryofixation and cryosubstitution which preserved ultrastructure and phases of cytokinesis with a resolution not previously attained. Membranous structures including the plasma membrane, tonoplast, and those of other organelles were smooth and unbroken, indicating that they were preserved while the protoplasm was in a fully turgid state. Mitotic spindles separated daughter chromosomes diagonally across the radial width of the cells. The cell plate was initiated at an angle to the cell axis between the anaphase chromosomes by a microtubule array which organized vesicles at the phragmoplast midline. Within the phragmoplast, vesicles initially joined across thin tubular projections and then amalgamated into a tubulo-vesicular network. Axial expansion of the cell plate generated two opposing phragmoplasts connected by a thin, extended bridge of cell plate and cytoplasm that was oriented along the cell axis. In the cytoplasmic bridge trailing each phragmoplast, the callose-rich tubular network gradually consolidated into a fenestrated plate and then a complete cell wall. Where new membrane merged with old, the parent plasmalemma appeared to be loosened from the cell wall and the membranes joined via a short tubulo-vesicular network. These results have not been previously reported in cambial tissue, but the same phases of cytokinesis have been observed in cryofixed root tips and suspension-cultured cells of tobacco. Received February 11, 2002; accepted May 31, 2002; published online October 31, 2002 RID="*" ID="*" Correspondence and reprints: Department of Botany, University of British Columbia, 6270 University Boulevard, Vancouver, BC V6T 1Z4, Canada. Abbreviations: CFS cryofixation and cryosubstitution; ER endoplasmic reticulum; HPF high-pressure freezing; PPB preprophase band.  相似文献   

19.
Pan R  Lee YR  Liu B 《Planta》2004,220(1):156-164
During plant cytokinesis, kinesin-related motor proteins are believed to play critical roles in microtubule organization and vesicle transport in the phragmoplast. Previously, we reported that the motor AtPAKRP1 was associated with the plus end of phragmoplast microtubules in Arabidopsis thaliana [Lee Y-RJ, Liu B (2000) Curr Biol 10:797–800]. In this paper, we report a full-length cDNA from the same organism, which encodes a polypeptide 74% identical to AtPAKRP1. This AtPAKRP1-like protein—AtPAKRP1L—and AtPAKRP1 share similar domain structures along the polypeptides. Peptide antibodies were raised and purified to distinguish the two polypeptides in vitro and in vivo. When monospecific anti-AtPAKRP1 and anti-AtPAKRP1L antibodies were used in immunofluorescence, they both decorated the plus end of phragmoplast microtubules at all stages of phragmoplast development. Their localization patterns were indistinguishable from each other. By using bacterially expressed fusion proteins of motor-less versions of both polypeptides, it was revealed that AtPAKRP1 and AtPAKRP1L were able to interact with themselves and with each other. Using T-DNA insertional mutants, it was also demonstrated that AtPAKRP1 and AtPAKRP1L were not required for each others localization. Our results therefore indicate that AtPAKRP1 and AtPAKRP1L are both expressed in the same cells, and likely have identical functions in the phragmoplast by forming either homodimers or heterodimers.Abbreviations AtPAKRP1 Arabidopsis thaliana phragmoplast-associated kinesin-related protein 1 - AtPAKRP1L A. thaliana phragmoplast-associated kinesin-related protein 1-like - GST Glutathione S-transferase - KRP Kinesin-related protein - 6×His Six-histidine tag  相似文献   

20.
Andrew Bajer 《Chromosoma》1968,24(4):383-417
Formation and development of phragmoplast and cell plate were studied in endosperm of Haemanthus katherinae Bak. The same cells were studied with the light and electron microscope. Several cells were studied with time-lapse microcinematography before fixation. This permitted comparison of structures during their development on both the light and electron microscope level. Movements of fibrillar components of the phragmoplast and spindle were analyzed and their transport properties were correlated with formation of the cell plate. Change of arrangement of microtubules, transport of vesicles which form the cell plate, and formation of vesicles and microtubules has also been discussed.  相似文献   

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