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Cytoplasmic motors and pollen tube growth (1996)

Cai, G. ; Moscatelli, A. ; Casino, C. ; [et al.]

Springer

Sexual plant reproduction 9 (1996), S. 59-64

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ISSN: 1432-2145

Keywords: Motor proteins ; Pollen tube ; Tip growth ; Organelle movement

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The growth of pollen tubes is characterized by an intense cytoplasmic streaming, during which the movements of smaller organelles (like secretory vesicles) and larger ones (including the generative cell and vegetative nucleus) are precisely coordinated. A well-characterized cytoskeletal apparatus is likely responsible for these intracellular movements. In recent years both microfilament and microtubule-based motor proteins have been identified and assumed to be the translocators of the several organelle categories. Their precise function during pollen tube growth is not yet clear, but apparently an actomyosin-based system is mainly responsible for pollen tube elongation. On the other hand, microtubules and microtubule-based motors have been thought to play a role in the maintenance of cell polarity. Both cytoskeletal systems (and their respective motor activities) could cooperate to ensure a precise regulation of pollen tube growth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02153052

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Cytoplasmic motors and pollen tube growth (1996)

Cai, G. ; Moscatelli, A. ; Del-Casino, C. ; [et al.]

Springer

Sexual plant reproduction 9 (1996), S. 59-64

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Details

ISSN: 1432-2145

Keywords: Key words Motor proteins ; Pollen tube ; Tip growth ; Organelle movement

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The growth of pollen tubes is characterized by an intense cytoplasmic streaming, during which the movements of smaller organelles (like secretory vesicles) and larger ones (including the generative cell and vegetative nucleus) are precisely coordinated. A well-characterized cytoskeletal apparatus is likely responsible for these intracellular movements. In recent years both microfilament- and microtubule-based motor proteins have been identified and assumed to be the translocators of the several organelle categories. Their precise function during pollen tube growth is not yet clear, but apparently an actomyosin-based system is mainly responsible for pollen tube elongation. On the other hand, microtubules and microtubule-based motors have been thought to play a role in the maintenance of cell polarity. Both cytoskeletal systems (and their respective motor activities) could cooperate to ensure a precise regulation of pollen tube growth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004970050011

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Localization and release of allergens from tapetum and pollen grains ofBetula pendula (1999)

El-Ghazaly, G. ; Moate, R. ; Cresti, M. ; [et al.]

Springer

Protoplasma 208 (1999), S. 37-46

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ISSN: 1615-6102

Keywords: Allergens ; Allergy ; Betula pendula ; Immunolabelling ; Pollen grains ; Tapetum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Although intact pollen grains are assumed to be the primary carrier of pollen allergens, specific immunoreactive components have been found in other aerosol fractions, e.g., starch grains and remains of tapetal cells Cryo-scanning-electron-microscopy results demonstrate the presence of a clear network of strands connecting the tapetum with the microspores. The distribution of protein in tapetal orbicules, pollen wall, and pollen cytoplasm was tested by histochemical stains for light microscopy and transmission electron microscopy. The protein is mainly localized at the apertures and starch grains in the cytoplasm of pollen and in the core and on the surface of tapetal orbicules. Monoclonal antibodies Bv-10, BIP3, and BIP4 have been used to locate the cellular sites of pollen and tapetal allergens inBetula pendula (syn.B. verrucosa). The application of rapid-freeze fixation prevented relocation of allergens from their native sites. The allergens are predominantly found in the starch grains and to lesser extent in the exine. We also tested interactions between mature birch pollen and human fluids: saliva, nostrils fluid, and eyes solution. The aim was to mimic more closely the in vivo situation during allergenic response. In all cases we observed several pollen grains that were burst and had released their cytoplasmic contents. In the nose the allergens are released from the pollen within minutes. In rhinitis, nasal pH is increased from the normal pH 6.0 to 8.0. When we used nasal fluid at pH 8.0, the number of ruptured pollen grains increased. The mechanism that might induce formation of small allergen-bearing particles from living plant cells is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279073

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