Literature DB >> 8081813

Ultrastructural changes of Arabidopsis thaliana pollen during final maturation and rehydration.

A C Van Aelst1, E S Pierson, J L Van Went, M Cresti.   

Abstract

Several ultrastructural changes occur during dehydration and subsequent rehydration of Arabidopsis thaliana pollen. The cytoplasmic channels, present in the outer part of the intine of the mature, dehydrating pollen grain, degenerate and develop into electron-dense inclusions. At the same time a large quantity of electron-dense material is deposited in the cavities of the exine. A large number of vesicles is produced in the vegetative cell, and they become predominantly located in the peripheral region near the intine. Starch of amyloplasts is consumed and the lipid bodies which originally surround the sperm cells become randomly distributed. In addition, the individual lipid bodies become enveloped by single rough endoplasmic reticulum cisterns.

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Year:  1993        PMID: 8081813     DOI: 10.1017/s096719940000143x

Source DB:  PubMed          Journal:  Zygote        ISSN: 0967-1994            Impact factor:   1.442


  13 in total

1.  Novel patterns of ectopic cell plate growth and lipid body distribution in the Arabidopsis gemini pollen1 mutant.

Authors:  S K Park; D Twell
Journal:  Plant Physiol       Date:  2001-06       Impact factor: 8.340

2.  The 5'-untranslated region of the ntp303 gene strongly enhances translation during pollen tube growth, but not during pollen maturation.

Authors:  Raymond J M Hulzink; Peter F M de Groot; Anton F Croes; William Quaedvlieg; Dave Twell; George J Wullems; Marinus M A Van Herpen
Journal:  Plant Physiol       Date:  2002-05       Impact factor: 8.340

3.  Geminating pollen has tubular vacuoles, displays highly dynamic vacuole biogenesis, and requires VACUOLESS1 for proper function.

Authors:  Glenn R Hicks; Enrique Rojo; Seho Hong; David G Carter; Natasha V Raikhel
Journal:  Plant Physiol       Date:  2004-02-26       Impact factor: 8.340

Review 4.  Epigenetic events in plant male germ cell heat stress responses.

Authors:  Yuanyuan Chen; Florian Müller; Ivo Rieu; Peter Winter
Journal:  Plant Reprod       Date:  2015-12-06       Impact factor: 3.767

Review 5.  It is a matter of timing: asynchrony during pollen development and its consequences on pollen performance in angiosperms-a review.

Authors:  Carolina Carrizo García; Massimo Nepi; Ettore Pacini
Journal:  Protoplasma       Date:  2016-02-12       Impact factor: 3.356

Review 6.  Importance of organellar proteins, protein translocation and vesicle transport routes for pollen development and function.

Authors:  Puneet Paul; Sascha Röth; Enrico Schleiff
Journal:  Plant Reprod       Date:  2016-02-13       Impact factor: 3.767

7.  Somatic cytokinesis and pollen maturation in Arabidopsis depend on TPLATE, which has domains similar to coat proteins.

Authors:  Daniël Van Damme; Silvie Coutuer; Riet De Rycke; Francois-Yves Bouget; Dirk Inzé; Danny Geelen
Journal:  Plant Cell       Date:  2006-12-22       Impact factor: 11.277

8.  AtbZIP34 is required for Arabidopsis pollen wall patterning and the control of several metabolic pathways in developing pollen.

Authors:  Antónia Gibalová; David Renák; Katarzyna Matczuk; Nikoleta Dupl'áková; David Cháb; David Twell; David Honys
Journal:  Plant Mol Biol       Date:  2009-05-18       Impact factor: 4.076

9.  Vegetative and sperm cell-specific aquaporins of Arabidopsis highlight the vacuolar equipment of pollen and contribute to plant reproduction.

Authors:  Michael M Wudick; Doan-Trung Luu; Colette Tournaire-Roux; Wataru Sakamoto; Christophe Maurel
Journal:  Plant Physiol       Date:  2014-02-03       Impact factor: 8.340

10.  Endoplasmic reticulum- and Golgi-localized phospholipase A2 plays critical roles in Arabidopsis pollen development and germination.

Authors:  Hae Jin Kim; Sung Han Ok; Sung Chul Bahn; Juno Jang; Sung Aeong Oh; Soon Ki Park; David Twell; Stephen Beungtae Ryu; Jeong Sheop Shin
Journal:  Plant Cell       Date:  2011-01-28       Impact factor: 11.277
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