Apoptosis in wheat seedlings grown under normal daylight

Apoptosis was observed in the coleoptile and initial leaf in 5-8-day-old wheat seedlings grown under normal daylight. Apoptosis is an obligatory event in early wheat plant ontogenesis, and it is characterized by cytoplasmic structural reorganization and fragmentation, in particular, with the appeara...

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Bibliographic Details
Published in:Biochemistry (Moscow) 2004-03, Vol.69 (3), p.285-294
Main Authors: Aleksandrushkina, N I, Zamyatnina, V A, Bakeeva, L E, Seredina, A V, Smirnova, E G, Yaguzhinsky, L S, Vanyushin, B F
Format: Article
Language:English
Subjects:
Antioxidants
Antioxidants - pharmacology
Apoptosis
Apoptosis - drug effects
Apoptosis - physiology
Butylated Hydroxytoluene - pharmacology
Chromatin Assembly and Disassembly - physiology
Cotyledon - physiology
Cytoplasm - metabolism
Darkness
DNA Fragmentation - physiology
DNA, Plant - physiology
Hydrogen peroxide
Hydrogen Peroxide - metabolism
Light
Mitochondria - physiology
Nucleosomes - metabolism
Ontogeny
Plants
Reactive Oxygen Species - metabolism
Seedlings
Seedlings - growth & development
Seedlings - physiology
Superoxides - metabolism
Triticum - growth & development
Triticum - physiology
Vacuoles - physiology
Wheat
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Summary:Apoptosis was observed in the coleoptile and initial leaf in 5-8-day-old wheat seedlings grown under normal daylight. Apoptosis is an obligatory event in early wheat plant ontogenesis, and it is characterized by cytoplasmic structural reorganization and fragmentation, in particular, with the appearance in vacuoles of specific vesicles containing intact organelles, chromatin condensation and margination in the nucleus, and internucleosomal fragmentation of nuclear DNA. The earliest signs of programmed cell death (PCD) were observed in the cytoplasm, but the elements of apoptotic degradation in the nucleus appeared later. Nuclear DNA fragmentation was detected after chromatin condensation and the appearance in vacuoles of specific vesicles containing mitochondria. Two PCD varieties were observed in the initial leaf of 5-day-old seedlings grown under normal daylight: a proper apoptosis and vacuolar collapse. On the contrary, PCD in coleoptiles under various growing (light) conditions and in the initial leaf of etiolated seedlings is only a classical plant apoptosis. Therefore, various tissue-specific and light-dependent PCD forms do exist in plants. Amounts of O2*- and H2O2 evolved by seedlings grown under normal daylight are less than that evolved by etiolated seedlings. The amount of H2O2 formed in the presence of sodium salicylate or azide by seedlings grown under normal daylight was increased. Contrary to etiolated seedlings, the antioxidant BHT (ionol) did not inhibit O2*- formation and apoptosis and it had no influence on ontogenesis in the seedlings grown under normal daylight. Thus, in plants grown under the normal light regime the powerful system controlling the balance between formation and inactivation of reactive oxygen species (ROS) does exist and it effectively functions. This system is responsible for maintenance of cell homeostasis, and it regulates the crucial ROS level controlling plant growth and development. In etiolated plants, this system seems to be absent, or it is much less effective.
ISSN:0006-2979
1608-3040
DOI:10.1023/B:BIRY.0000022059.97294.bc