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Growth inhibition and recovery in freeze-substitutedLilium longiflorum pollen tubes: structural effects of caffeine (1997)

Lancelle, S. A. ; Cresti, M. ; Hepler, P. K.

Springer

Protoplasma 196 (1997), S. 21-33

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ISSN: 1615-6102

Keywords: Caffeine ; Freeze substitution ; Lilium ; Pollen tubes ; Rapid freeze fixation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary In an attempt to correlate structural effects with the known dissipation of the tip-focused Ca2+ gradient caused by caffeine, we have examined the ultrastructure of caffeine-treated lily pollen tubes prepared by rapid freeze fixation and freeze substitution. We show that treatment with caffeine results in a rapid rearrangement of secretory vesicles at the pollen tube tip; the normal cone-shaped array of vesicles is rapidly dispersed. In addition, microfilament bundles appear in the tip region, where they had previously been excluded. Delocalized vesicle fusion continues in the presence of caffeine but tube extension ceases. Removal of caffeine from the growth medium initially causes tip swelling, delocalized vesicle fusion and presence of microfilaments well into the tip before normal structure and growth resume, concurrent with the previously reported return to a normal Ca2+ gradient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281055

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Ultrastructure of freeze-substituted pollen tubes ofLilium longiflorum (1992)

Lancelle, Susan A. ; Hepler, P. K.

Springer

Protoplasma 167 (1992), S. 215-230

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ISSN: 1615-6102

Keywords: Lilium ; Freeze substitution ; Pollen tubes ; Rapid freeze fixation ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary In view of the importance of the lily pollen tube as an experimental model and the improvements in ultrastructural detail that can now be attained by the use of rapid freeze fixation and freeze substitution (RF-FS), we have reexamined the ultrastructure of these cells in material prepared by RF-FS. Several previously unreported details have been revealed: (1) the cytoplasm is organized into axial “slow” and “fast” lanes, each with a distinct structure; (2) long, straight microtubule (MT) and microfilament (MF) bundles occur in the cytoplasm of the fast lanes and are coaligned with every organelle present; (3) the cortical cytoplasm contains complexes of coaligned MTs, MFs, and endoplasmic reticulum (ER); (4) the cortical ER is arranged in a tight hexagonal pattern and individual elements are closely appressed to the plasma membrane with no space between; (5) mitochondria and ER extend into the extreme apex along the flanks of the pollen tube, and vesicles and ER are packed into an inverted cone-shaped area at the center of the apex; (6) MF bundles in the tip region are fewer, finer, and in random orientation in comparison to those of the fast lanes; (7) the generative cell (GC) cell wall complex contains patches of plasmodesmata; (8) The GC cytoplasm contains groups of spiny vesicles that are closely associated with and seem to be fusing with or pinching off from mitochondria, and (9) the vegetative nucleus (VN) contains internal MT-like structures as well as numerous cytoplasmic MTs associated with its membrane and also located between the VN and GC.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01403385

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