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Details for article 3 of 5 found articles
| Title: |
Exine ontogeny in Borago officinalis pollen |
| Author: |
Saad-Limam, Samia Ben Nabli, Mohamed Abdelhamid Rowley, John R. |
| Appeared in: |
Grana |
| Paging: | Volume 41 (2002) nr. 4 pages 216-226 |
| Year: |
2002-08-01 |
| Contents: |
The primexine matrix is finely granulo-fibrillar up to callose digestion; it becomes distinctly fibrillar at the free microspore stage. The columellae and the tectum are initiated at the middle tetrad stage, the foot layer and the endexine are initiated when the callose wall digestion begins. The columellae are initiated by the deposition of spiral elements around a clear central zone. This hollow aspect of columella disappears when thickening. The foot layer and the endexine are built by the expansion of plasmalemma derived components. The foot layer appears first at the poles, then at the interapertural levels and at last at the apertures while the endexine appears first at the mesoapertures, then it spreads laterally towards the interapertural levels and, at last, at the poles. The gemmae are formed at the free microspore stage over all the tectum. The thickening of the exine takes place essentially during the free microspore stage and continues during the vacuolate microspore one. Apertures are entirely formed before the complete digestion of the callose wall. The ectoapertures are determined by the lacking of the columellae; the sites of the pericolpal cavities and the mesoapertures result from the plasmalemma retraction even before the setting up of the foot layer and the endexine by which they will be delimited respectively afterwards. The endoapertures are determined by the lacking of compact endexine at their level, and merge into a continuous equatorial belt. |
| Publisher: |
Taylor & Francis |
| Source file: |
Elektronische Wetenschappelijke Tijdschriften |
Details for article 3 of 5 found articles
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