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Apoptosis in barley aleurone during germination and its inhibition by abscisic acid (1996)

Wang, Mei ; Oppedijk, Berry J. ; Lu, Xin ; [et al.]

Springer

Plant molecular biology 32 (1996), S. 1125-1134

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ISSN: 1573-5028

Keywords: DNA fragmentation ; abscisic acid ; germination ; aleurone ; Hordeum vulgare

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract During germination of barley grains, DNA fragmentation was observed in the aleurone. The appearance of DNA fragmentation in the aleurone layer, observed by TUNEL staining in aleurone sections, started near the embryo and extended to the aleurone cells far from the embryo in a time dependent manner. The same spatial temporal activities of hydrolytic enzymes such as α-amylase were observed in aleurone. DNA fragmentation could also be seen in vitro under osmotic stress, in isolated aleurone. During aleurone protoplast isolation, a very enhanced and strong DNA fragmentation occurred which was not seen in protoplast preparations of tobacco leaves. ABA was found to inhibit DNA fragmentation occurring in barley aleurone under osmotic stress condition and during protoplast isolation, while the plant growth regulator gibberellic acid counteracted the effect of ABA. Addition of auxin or cytokinin had no significant effect on DNA fragmentation in these cells. To study the role of phosphorylation in ABA signal transduction leading to control of DNA fragmentation (apoptosis), the effects of the phosphatase inhibitor okadaic acid and of phenylarisine oxide on apoptosis were studied. We hypothesize that the regulation of DNA fragmentation in aleurone plays a very important role in spatial and temporal control of aleurone activities during germination. The possible signal transduction pathway of ABA leading to the regulation of DNA fragmentation is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00041396

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Apoptosis in developing anthers and the role of ABA in this process during androgenesis in Hordeum vulgare L. (1999)

Wang, Mei ; Hoekstra, Sietske ; van Bergen, Sandra ; [et al.]

Springer

Plant molecular biology 39 (1999), S. 489-501

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ISSN: 1573-5028

Keywords: anthers ; androgenesis ; DNA fragmentation ; abscisic acid ; Hordeum vulgare

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Intra-nucleosomal cleavage of DNA into fragments of about 200 bp was demonstrated to occur in developing anthers, in which microspores had developed into the mid-late to late uni-nucleate stage in situ, i.e. at the verge of mitosis. The same was observed, but to a much larger extent, if these anthers were pre- treated by a hyper-osmotic shock. Pretreatment of anthers before the actual culture of microspores was required for optimal androgenesis of microspores. The use of the TUNEL reaction, which specifically labels 3′ ends of DNA breaks, after intra-nucleosomal cleavage of DNA, revealed that DNA fragmentation mainly occurred in the loculus wall cells, tapetum cells and filament cells. TUNEL staining was absent or infrequently observed in the microspores of developing anthers in situ. Electron microscopy studies showed condensed chromatin in nuclei of loculus wall cells in the developing anthers. These observations at the chromatin and DNA level are known characteristics of programmed cell death, also known as apoptosis. Features of apoptosis were infrequently found in microspores from freshly isolated mature anthers. However, most tapetum cells had disappeared in these anthers and the remaining cell structures showed loss of cellular content. The viability of microspores in pre-treated anthers was comparable to those in freshly isolated anthers and almost four times higher than in anthers from control experiments. This observation was correlated with three to four times less microspores showing TUNEL staining and a two times higher level of ABA in the anther plus medium samples than in controls. Addition of ABA to the controls enhanced the viability and lowered the occurrence of apoptosis linked characteristics in the microspores. These data suggest that pre-treatment is effective in stimulating androgenesis because it leads to an increase in ABA levels which protects microspores from dying by apoptosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006198431596

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