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1

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A model for the pattern of deposition of microfibrils in the cell wall of Glaucocystis (1978)

Willison, J. H. M. ; Brown, R. Malcolm

Springer

Planta 141 (1978), S. 51-58

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ISSN: 1432-2048

Keywords: Cell wall ; Cellulose ; Freeze-etching ; Glaucocystis ; Microfibrils (cellulose) ; Morphogenesis ; Plasma membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Freeze-fracturing of Glaucocystis nostochinearum Itzigsohn cells during cell-wall microfibril deposition indicates that unidirectionally polarized microfibril ends are localized in a “zone of synthesis” covering about 30% of the sarface area of the plasma membrane. Within this zone there are about 6 microfibril ends/μm2 cell surface. It is proposed that microfibrils are generated by the passage of their tips over the cell surface and that the pattern of microfibril organization at the poles of the cells, in which microfibrils of alternate layers are interconnected at 3 “rotation centres”, results directly from the pattern of this translation of microfibril tips. In a model of the deposition pattern it is proposed that the zone of synthesis may split into 3 sub-zones as the poles are approached, each sub-zone being responsible for the generation of one rotation centre. It is demonstrated that the microfibrillar component of the entire wall could be generated by the steady translation of the microfibril tips (at which synthesis is presumed to occur) over the cell surface at a rate of 0.25–0.5 μm min-1. Microcinematography indicates that the protoplast rotates during cell-wall deposition, and it is proposed that this rotation may play a role in the generation of the microfibril deposition pattern.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00387744

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2

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Ultrastructure of meiosis in the mossRhynchostegium serrulatum I. Prophasic microtubules and spindle dynamics (1982)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 110 (1982), S. 23-33

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ISSN: 1615-6102

Keywords: Meiosis ; Microtubules ; Polarity ; Ultrastructure ; Mosses

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary An extensive system of microtubules develops during meiotic prophase in the mossRhynchostegium serrulatum (Hedw.)Jaeg. &Sauerb. Development of the cytoskeleton can be traced to early prophase when the nucleus is acentric and the single plastid divides into four plastids. The cytoskeletal microtubules are associated with equidistant positioning of the four plastids at the distal tetrad poles and with migration of the nucleus to a central position in the sporocyte. The cytoskeleton, which interconnects plastids and encloses the nucleus, contributes to the establishment of moss sporocyte polarity. Just prior to metaphase I evidence of the prophase cytoskeleton is lost as the bipolar metaphase I spindle develops in association with discrete polar organizers located in opposite cleavage furrows between plastids.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01314678

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3

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Further evidence from sectioned material in support of the existence of a linear terminal complex in cellulose synthesis (1987)

Kudlicka, Krystyna ; Wardrop, A. ; Itoh, T. ; [et al.]

Springer

Protoplasma 136 (1987), S. 96-103

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ISSN: 1615-6102

Keywords: Boergesenia forbesii ; Microfibrils ; Microtubules ; Plasma membrane ; Sectioned material ; Terminal complexes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Transmembrane linear terminal complexes considered to be involved in the synthesis of cellulose microfibrils have been described in the plasma membrane ofBoergesenia forbesii. Evidence for the existence of these structures has been obtained almost exlusively using the freeze etching technique. In the present study an attempt has been made to complete these studies using conventional fixation, staining, and sectioning procedures. In developing cells ofBoergesenia forbesii, strongly stained structures traversing the plasma membrane and averaging 598.9 nm ± 171.3 nm in length, 28.7 nm ± 4.2 nm in width, and 35.2 nm ± 6.6 nm in depth have been demonstrated. These structures are considered to be linear terminal complexes. At their distal (cell wall) surface, they appear to be closely associated with cellulose microfibrils. At the proximal (cytoplasmic) surface, they are associated with microtubules and polysomes. A model of the possible interrelation of the terminal complexes and microtubules leading to the generation of cell wall microfibrils is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276358

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4

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Division polarity, development and configuration of microtubule arrays in Bryophyte meiosis (1987)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 137 (1987), S. 84-99

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ISSN: 1615-6102

Keywords: Meiosis ; Microtubules ; Mitotic apparatus ; Immunofluorescence ; Spindle ; Bryophytes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Immunofluorescence and TEM studies of meiosis in two mosses (Bryophyta) provide evidence that the prophasic tetrahedral system of microtubules contributes directly to the metaphase I spindle. Intense staining of tubulin, conspicuously absent around the nuclear envelope, is first seen associated with plastids. By mid-prophase, microtubules radiate from the plastids to the nuclear envelope and become organized into six bands that interconnect the four plastids, forming a tetrahedral cytoskeleton surrounding the nucleus. During transition of prophase to metaphase, the four poles of the tetrahedral microtubule system converge in pairs toward opposite cleavage furrows. Opposite furrows occupy mutually perpendicular planes and the pair of microtubule focal points straddling one furrow lies at right angles to the pair straddling the opposite furrow. Additional microtubules terminate in numerous small clusters in the concave polar regions arching over the cleavage furrows. By early anaphase, the microtubule focal points lie very close to the division axis. We conclude that microtubules recruited from the prophasic quadripolar system are incorporated into the mature metaphase I spindle and the two principal focal points at each pole are those derived from poles of the prophasic quadripolar system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281144

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5

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Morphogenetic plastid migration and microtubule organization during megasporogenesis inIsoetes (1989)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 152 (1989), S. 136-147

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ISSN: 1615-6102

Keywords: Isoetes ; Megasporogenesis ; Monoplastidy ; Meiosis ; Microtubules ; Mitotic apparatus

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The large megasporocytes ofIsoetes provide an exceptional system for studying microtubule dynamics in monoplastidic meiosis where plastid polarity assures coordination of plastid and nuclear division by the intimate association of MTOCs with plastids. Division and migration of the plastid in prophase establishes the tetrahedrally arranged cytoplasmic domains of the future spore tetrad and the four plastid-MTOCs serve as focal points of a unique quadripolar microtubule system (QMS). The QMS is a dynamic structure which functions in plastid deployment and contributes directly to development of both first and second division spindles. The nucleation of microtubules at discrete plastid-MTOCs is compared with centrosomal nucleation of microtubules in animal cells where growth of microtubules involves dynamic instability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01323073

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6

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A new putative cellulose-synthesizing complex ofColeochaete scutata (1992)

Okuda, K. ; Brown, R. M.

Springer

Protoplasma 168 (1992), S. 51-63

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ISSN: 1615-6102

Keywords: Cellulose microfibril formation ; Chlorophyta ; Coleochaete scutata ; Freeze fracture ; Plasma membrane ; Terminal complex

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Cells of the charophycean alga,Coleochaete scutata active in cell wall formation were freeze fractured in the search for cellulose synthesizing complexes (TCs) since this alga is considered to be among the most advanced and a progenitor to land plant evolution. We have found a new TC which consists of two geometrically distinctive particle complexes complementary to one another in the plasma membrane and occasionally associated with microfibril impressions. In the E-fracture face is found a cluster of 8–50 closely packed particles, each with a diameter of 5–17 nm. Most of these particles are confined within an 80 nm circle. In the P-fracture face is found an 8-fold symmetrical arrangement of 10 nm particles circumferentially arranged around a 28 nm central particle. The TCs ofC. scutata are quite distinctive from the rosette/globule TCs of land plants. The 5.5×3.1 nm microfibril inC. scutata is also distinctive from the 3.5×3.5 nm microfibril typical of land plants. The phylogenetic implications of this unique TC in land plant evolution are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01332650

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7

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A cytoskeletal system predicts division plane in meiosis ofSelaginella (1985)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 127 (1985), S. 101-109

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ISSN: 1615-6102

Keywords: Division polarity ; Microtubules ; Meiosis ; Selaginella ; Sporogenesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary An ultrastructural investigation of the monoplastidic microsporocytes ofSelaginella arenicola revealed a unique cytoskeletal array that predicts the future division plane before nuclear division takes place. By midprophase of the first meiotic division, the single plastid has divided once and the two plastids lie on opposite sides of the nucleus which is elongated in the plane of the incipient metaphase I spindle. A cytoplasmic structure, the procytokinetic plate (PCP), predicts the division plane of of both plastid and cytoplasm. The PCP consists of a distinct concentration of vesicles lying in the future division plane and an elaborate system of microtubules aligned parallel to the long axis of plastids and nucleus. Microtubules of the axially aligned system appear to terminate in clusters of vesicles in the central zone of the PCP. The PCP with axially aligned microtubules is as predictive of the division plane in these meiotic cells as is the girdling preprophase band of microtubules in mitotic cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01273706

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8

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Division polarity, development and configuration of microtubule arrays in bryophyte meiosis (1987)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 138 (1987), S. 1-10

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ISSN: 1615-6102

Keywords: Meiosis ; Microtubules ; Cytokinesis ; Immunofluorescence ; Bryophytes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary First and second division spindles and the three cell plates of moss meiosis are oriented in accordance with polarity established during meiotic prophase. Plastids are located at the second division poles and cytoplasmic infurrowing marks the planes along which the cytoplasm will cleave into four spores. Anaphase I spindles that terminate in two focal points of microtubules straddling opposite cleavage furrows reflect the unusual tetrahedral origin of the functionally bipolar spindle. The organelles (except for the plastids which remain in the four cytoplasmic lobes) are polarized in the first division equatorial region at the time of phragmoplast microtubule assembly and remain in a distinct band after microtubule disassembly. Prophasic spindles appear to be directly transformed into metaphase II spindles in the predetermined axes between mutually perpendicular pairs of plastids. Cell plates form by vesicle coalescence in the equatorial regions of the two sets of second division phragmoplasts at approximately the same time as a cell plate belatedly forms in the organelle band. The cytoplasmic markers (plastid migration, cytoplasmic lobing and infurrowing) that predict poles and cleavage planes in free cells lacking a preprophase band strongly strengthens the concept that division sites are capable of preserving preprogrammed signals that can be triggered later in the process of cell division.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281179

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9

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Minispindles and cytoplasmic domains in microsporogenesis of orchids (1989)

Brown, R. C. ; Lemmon, B. E.

Springer

Protoplasma 148 (1989), S. 26-32

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ISSN: 1615-6102

Keywords: Cytokinesis ; Cytoplasmic domains ; Meiosis ; Microtubules ; Minispindles

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Changes in the microtubular cytoskeleton during meiosis and cytokinesis in hybrid moth orchids were studied by indirect immunofluorescence. Lagging chromosomes not incorporated into telophase nuclei after first meiotic division behave as small extra nuclei. Events in the microtubular cycle associated with these micronuclei are similar to and synchronous with those of the principal nuclei. During second meiotic division the micronuclei trigger formation of minispindles which are variously oriented with respect to the two principal spindles. After meiosis, radial systems of microtubules measure cytoplasmic domains around each nucleus in the coenocyte. Cleavage planes are established in regions where opposing radial arrays interact and the cytoplasm cleaved around micronuclei is proportionately smaller than that around the four principal nuclei. These observations clearly demonstrate that nuclei in plant cells are of fundamental importance in microtubule organization and provide strong evidence in support of our recently advanced hypothesis that division planes in simultaneous cytokinesis following meiosis are determined by establishment of cytoplasmic domains via radial systems of nuclear-based microtubules rather than by division sites established before nuclear division.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01403988

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10

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Effects of 2,6-dichlorobenzonitrile and Tinopal LPW on the structure of the cellulose synthesizing complexes ofVaucheria hamata (1992)

Mizuta, S. ; Brown, R. M.

Springer

Protoplasma 166 (1992), S. 200-207

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ISSN: 1615-6102

Keywords: Cellulose formation ; 2,6-Dichlorobenzonitrile ; Freeze etching ; Plasma membrane ; Cellulose synthesizing enzyme complex ; Tinopal LPW ; Vaucheria hamata

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The effects of 2,6-dichlorobenzonitrile (DCB, a known inhibitor of cellulose synthesis) and Tinopal LPW (TPL, an agent which disrupts glucan crystallization) on the structure of cellulose synthesizing complexes (terminal complexes, TCs) in the xanthophycean algaVaucheria hamata were investigated. DCB (10 μM) inhibits nascent fibril formation from the TC subunit (based on the absence of impressions) although it does not alter the overall shape of the rectangular TC during the short treatment of 20 min. With a prolonged treatment (60 min), the arrangement of TC subunits becomes disordered, and particles generally exhibited as doublets of subunits are released from each other. DCB also interferes with the formation of the overall shape of the TC although it does not disturb the conversion into TC rows of the subunits (the zymogenic precursor of the TC) packed in the globules. A 15 min treatment with TPL (1 mM) destroys the TC integrity by reducing the subunits into small fragments or particulate aggregates. The particulate rows of the TC are interrupted at many points, and fragments and particulate aggregates are dispersed by prolonged treatment (45 min) with TPL. Unlike DCB, TPL inhibits the conversion of globule subunits into TC rows. New insights on the structural characteristics necessary for cellulose microfibril assembly and possible mechanisms for the biogenesis of theVaucheria TC come from these data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322782

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