Spatiotemporal variations in salicylic acid and hydrogen peroxide in sunflower seeds during transition from dormancy to germination

Vigliocco, Ana; Bel, Zoé Del; Pérez-Chaca, M. V.; Molina, Alicia S.; Zirulnik, Fanny; Andrade, Andrea; Alemano, Sergio

doi:10.1111/ppl.13043

Cited by 11 publications

(12 citation statements)

References 51 publications

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“…ROS accumulate in seeds upon AR and dormancy release and promote germination in several species, as illustrated by studies in A. thaliana, Pisum sativum, Helianthus annuus, Hordeum vulgare, and Triticum aestivum [40,[45][46][47][48]. In A. thaliana and H. annuus AR seeds, while ROS are localized close to the radicle tip of the embryonic axis during imbibition, they do not have a particular distribution in dormant embryos [49][50][51]. It is widely known that ROS act as signalling molecules, but H 2 O 2 seems to be the main responsible for redox signalling, probably because of its stability.…”

Section: Ros Affect Dormancy Releasementioning

confidence: 99%

Reactive Oxygen Species (ROS) and Nucleic Acid Modifications during Seed Dormancy

Katsuya-Gaviria

Caro

Carrillo-Barral

et al. 2020

Plants

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The seed is the propagule of higher plants and allows its dissemination and the survival of the species. Seed dormancy prevents premature germination under favourable conditions. Dormant seeds are only able to germinate in a narrow range of conditions. During after-ripening (AR), a mechanism of dormancy release, seeds gradually lose dormancy through a period of dry storage. This review is mainly focused on how chemical modifications of mRNA and genomic DNA, such as oxidation and methylation, affect gene expression during late stages of seed development, especially during dormancy. The oxidation of specific nucleotides produced by reactive oxygen species (ROS) alters the stability of the seed stored mRNAs, being finally degraded or translated into non-functional proteins. DNA methylation is a well-known epigenetic mechanism of controlling gene expression. In Arabidopsis thaliana, while there is a global increase in CHH-context methylation through embryogenesis, global DNA methylation levels remain stable during seed dormancy, decreasing when germination occurs. The biological significance of nucleic acid oxidation and methylation upon seed development is discussed.

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Section: Ros Affect Dormancy Releasementioning

confidence: 99%

Reactive Oxygen Species (ROS) and Nucleic Acid Modifications during Seed Dormancy

Katsuya-Gaviria

Caro

Carrillo-Barral

et al. 2020

Plants

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“…Previous studies have reported that ABA accumulates during seed development and this in turn leads to the establishment and maintenance of seed dormancy, which is related to inhibition of early germination (Finkelstein, 2010; Shu et al., 2016). Even more, in species such as A. thaliana (L.) Heynh or sunflower, seed dormancy correlates with high ABA levels (Iwasaki et al., 2022; Vigliocco et al., 2019). In agreement with these previous findings, in our study the dormant line Xi3 had higher levels of ABA in the embryo (embryonic axis + cotyledons) than X274, especially in the embryonic axis, which has been proposed as the center where the occurrence of germination is “decided” (Tophan et al., 2010).…”

Section: Discussionmentioning

confidence: 99%

The interplay of specific hormonal profile in fruit parts of sunflower inbred lines with contrasting dormancy levels during germination and dormancy breaking by exogenous application of plant growth regulators

Bel¹,

Andrade²,

Maddalena

et al. 2023

Crop Science

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Sunflower (Helianthus annuus L.) seed dormancy at harvest is an undesirable characteristic regarding productive systems. From a commercial point of view, the dormancy generates production and marketing problem with a negative impact on crop yields. To overcome this problem, we studied different treatments, including the application of growth regulators. In addition, as the interaction of various hormones in different sunflower fruit parts is not fully understood regarding regulation of dormancy and germination processes, we also (1) characterized the dormancy level of sunflower seeds of Xi3 and X274 inbred lines; (2) assessed the effect of exogenous growth regulators on dormancy release; (3) evaluated the endogenous content of abscisic acid (ABA), gibberellins (GAs), 12-oxo-phytodienoic acid (OPDA), jasmonic acid (JA), salicylic acid (SA), auxins, and cytokinins (CKs) in embryonic axis, cotyledons, pericarp, and seed coat-endosperm; and (4) analyzed the kinetics of the accumulation of these phytohormones in Xi3 embryonic axis during early imbibition (3 to 12 h) of cypselas treated, or not, with growth regulators effective in the dormancy release. We were able to classify the two sunflower lines studied according to dormancy level: The Xi3 line was dormant and X274 line was non-dormant at harvest. The results showed that the dormancy of Xi3 seeds is associated with a high level of ABA, OPDA, and JA, while germination of X274 dry seeds at harvest time is related to high levels of GA 1 . Exogenous treatment with GA 3 and Ethephon overcame Xi3 seed dormancy through the changes in endogenous hormonal profiles of the embryonic axis. The exogenous application of GA 3 induced JA, SA, and CKs accumulation and to modify the ABA/GA 1 ratio, whereas Ethephon treatments mediated

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“…Because ROS could play a role in regulating seed germination by oxidizing the proteins that trigger germination (El-Maarouf-Bouteau et al, 2013) and weakening the endosperm during seed swelling (Müller et al, 2009). In a recent report, the dormancy release was associated with increasing the sunflower seeds' internal H 2 O 2 level (Vigliocco et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Developmental responses of perennial ryegrass, red fescue, and Kentucky bluegrass to In vitro chitosan treatments

et al. 2021

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Spatiotemporal variations in salicylic acid and hydrogen peroxide in sunflower seeds during transition from dormancy to germination

Cited by 11 publications

References 51 publications

Reactive Oxygen Species (ROS) and Nucleic Acid Modifications during Seed Dormancy

Reactive Oxygen Species (ROS) and Nucleic Acid Modifications during Seed Dormancy

The interplay of specific hormonal profile in fruit parts of sunflower inbred lines with contrasting dormancy levels during germination and dormancy breaking by exogenous application of plant growth regulators

Developmental responses of perennial ryegrass, red fescue, and Kentucky bluegrass to In vitro chitosan treatments

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