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Germination and early tube development in vitro of Lycopersicum peruvianum pollen: Ultrastructural features (1977)

Cresti, M. ; Pacini, E. ; Ciampolini, F. ; [et al.]

Springer

Planta 136 (1977), S. 239-247

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ISSN: 1432-2048

Keywords: Early tube development ; In vitro germination ; Lycopersicum ; Pollen

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Morphologic changes occurring during pollen grain activation and ultrastructural features of Lycopersicum peruvianum Mill. pollen tube during the first stages of growth in vitro have been studied. The more evident morphologic changes during activation, in comparison to those already described for mature inactive pollen, concern dictyosomes, rough endoplasmic reticulum (RER), and ribosomes. The dictyosomes are very abundant and produce “large” and “small” vesicles. Near the germinative pores both types of vesicles are present, while all along the remaining cell wall only the large type is observed. These latter react weakly to Thiéry's test and probably contain a callose precursor necessary for the deposition of a callosic layer lining at first only the inner side of the functioning pore and occasionally the other two pores, and subsequently the entire inner surface of the cell wall. The small vesicles, highly positive to Thiéry's test, are present only near the pores and could be involved in the formation of the pectocellulosic layer of the tube wall. The setting free of RER cisterns, which in the mature inactive pollen were aggregated in stacks, coinciding with polysome formation and resumption of protein synthesis, is in accord with the hypothesized role of RER cistern stacks as a reserve of synthesizing machinery. The pollen tube reaches a definitive spatial arrangement soon after the generative cell and vegetative nucleus have moved into it. At this stage four different zones that reflect a functional specialization are present. In the apical and subapical zone two types of dictysosome-originated vesicles, similar to those found in the activated pollen grain, are present. Their role in the formation of the callosic and pectocellulosic wall layers seems to be the same as in the activated pollen grain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00385991

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Brassica napus pollen development during generative cell and sperm cell formation (1991)

Murgia, M. ; Detchepare, S. ; Went, J. L. ; [et al.]

Springer

Sexual plant reproduction 4 (1991), S. 176-181

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ISSN: 1432-2145

Keywords: Pollen ; Brassica napus ; Mitoses ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Brassica napus pollen development during the formation of the generative cell and sperm cells is analysed with light and electron microscopy. The generative cell is formed as a small lenticular cell attached to the intine, as a result of the unequal first mitosis. After detaching itself from the intine, the generative cell becomes spherical, and its wall morphology changes. Simultaneously, the vegetative nucleus enlarges, becomes euchromatic and forms a large nucleolus. In addition, the cytoplasm of the vegetative cell develops a complex ultrastructure that is characterized by an extensive RER organized in stacks, numerous dictyosomes and Golgi vesicles and a large quantity of lipid bodies. Microbodies, which are present at the mature stage, are not yet formed. The generative cell undergoes an equal division which results in two spindle-shaped sperm cells. This cell division occurs through the concerted action of cell constriction and cell plate formation. The two sperm cells remain enveloped within one continuous vegetative plasma membrane. One sperm cell becomes anchored onto the vegetative nucleus by a long extension enclosed within a deep invagination of the vegetative nucleus. Plastid inheritance appears to be strictly maternal since the sperm cells do not contain plastids; plastids are excluded from the generative cell even in the first mitosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00190001

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Ultrastructural investigations on Lycopersicum peruvianum pollen activation and pollen tube organization after self-and cross-pollination (1980)

Cresti, M. ; Ciampolini, F. ; Sarfatti, G.

Springer

Planta 150 (1980), S. 211-217

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ISSN: 1432-2048

Keywords: Lycopersicum ; Pollen activation ; Pollen tube ; Self-incompatibility

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract No differences have been observed “in vivo” between Lycopersicum peruvianum compatible and incompatible pollen during activation and pollen tube emission and organization, that is until 4 h and 30 min after pollination. During pollen activation the main events are the setting free of rough endoplasmic reticulum (RER) cisterns which were “stacked” in the mature pollen, the increase in the number of polysomes, and a great activity of the dictyosomes. Immediately after germination of the vegetative nucleus and the generative cell move into the tube, the generative cell diviting to form the male gametes; the tube then becomes organized in four zones. This series of changes is similar to what has already been observed “in vitro” except that in vitro the generative cell remains undivided and the whole process from seeding to tube organization takes 3 h instead of 4 h and 30 min after pollination, as it does in vivo. Our findings are compatible with the main models of the tube inhibition mechanism proposed till now.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00390828

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Ultrastructure of the vegetative cell ofBrassica napus pollen with particular reference to microbodies (1989)

Charzynska, Maria ; Murgia, Meri ; Cresti, M.

Springer

Protoplasma 152 (1989), S. 22-28

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ISSN: 1615-6102

Keywords: Brassica napus ; Vegetative cell ; Microbodies ; Pollen

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The ultrastructure of the vegetative cell ofBrassica napus tricellular pollen grains, just before anthesis with standard chemical fixation, is reported. The vegetative cell may be regarded as a highly differentiated and metabolically active fat-storage cell. It contains many mitochondria with a well developed internal membrane system, starchless plastids, microbodies, lipid bodies, dictyosomes and numerous vesicles thought to originate from the dictysomes. Rough endoplasmic reticulum organized in stacks of cisternae is also spatially associated with certain organelles, mainly lipid bodies, microbodies and plastids. There are also randomly distributed polyribosome areas. The microbodies are mainly polymorphic in shape and are often observed in contact with lipid bodies. The above spatial relationship implies that the microbodies may have a glyoxysomal function. In the late period of vegetative cell maturation, the microbodies are probably involved in the process of glyconeogenesis in which the conversion of lipid reserves to sugar takes place.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01354236

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Origin of sperm cell association in the “male germ unit” ofBrassica pollen (1989)

Charzynska, M. ; Murgia, M. ; Milanesi, C. ; [et al.]

Springer

Protoplasma 149 (1989), S. 1-4

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ISSN: 1615-6102

Keywords: Brassica napus ; Cell division ; Male germ unit ; Pollen ; Sperm cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The association of the two sperm cells inBrassica napus pollen following the generative cell division was investigated. The generative cell during division is located in the center of the pollen grain, within the vegetative cell. The space present between the two cells is slightly irregular as seen following standard glutaraldehyde fixation. After completion of mitosis vesicles appear in the equatorial plane, coalescing centripetally to form a cell plate which fuses with the membrane of the generative cell, dividing it in two sperm cells. They are isolated from the vegetative cell by the space between the two cell membranes and are separated from each other by a similar space resulting from the cell plate formed during cytokinesis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01623975

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