Hydropriming and Biopriming Improve Medicago truncatula Seed Germination and Upregulate DNA Repair and Antioxidant Genes

Forti, Chiara; Shankar, Ajay; Singh, Anjali; Balestrazzi, Alma; Prasad, Vishal; Macovei, Anca

doi:10.3390/genes11030242

Cited by 58 publications

(61 citation statements)

References 61 publications

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“…A progressive increase in oxidative DNA damage occurring during seed imbibition was measured in terms of 7,8-dihydro-8-oxoguanine (8-oxodG) levels, in the model legume Medicago truncatula ( Balestrazzi et al, 2011 ). The concomitant up-regulation of key BER (base excision repair) genes including OGG1 (8-oxoguanine glycosylase/lyase) and Tdp1a (tyrosyl-DNA phosphodiesterase) was also described ( Macovei et al, 2010 , 2011 ; Balestrazzi et al, 2011 ; Pagano et al, 2017 , 2019 ; Forti et al, 2020a , b ).…”

Section: Introductionmentioning

confidence: 98%

Hydropriming Applied on Fast Germinating Solanum villosum Miller Seeds: Impact on Pre-germinative Metabolism

et al. 2021

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Seed priming can circumvent poor germination rate and uniformity, frequently reported in eggplant (Solanum melongena L.) and its crop wild relatives (CWRs). However, there is still a gap of knowledge on how these treatments impact the pre-germinative metabolism in a genotype- and/or species-dependent manner. The CWR Solanum villosum Miller (hairy nightshade) investigated in this study showed a quite unique profile of fast germination. Although this accelerated germination profile would not apparently require further improvement, we wanted to test whether priming would still be able to impact the pre-germinative metabolism, eventually disclosing the predominant contribution of specific antioxidant components. Hydropriming followed by dry-back resulted in synchronized germination, as revealed by the lowest MGR (Mean Germination Rate) and U (Uncertainty) values, compared to unprimed seeds. No significant changes in ROS (reactive oxygen species) were observed throughout the treatment. Increased tocopherols levels were detected at 2 h of hydropriming whereas, overall, a low lipid peroxidation was evidenced by the malondialdehyde (MDA) assay. Hydropriming resulted in enhanced accumulation of the naturally occurring antioxidant phenolic compounds chlorogenic acid and iso-orientin, found in the dry seeds and ex novo accumulation of rutin. The dynamic changes of the pre-germinative metabolism induced by hydropriming are discussed in view of future applications that might boost the use of eggplant CWRs for breeding, upon upgrade mediated by seed technology.

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Section: Introductionmentioning

confidence: 98%

Hydropriming Applied on Fast Germinating Solanum villosum Miller Seeds: Impact on Pre-germinative Metabolism

et al. 2021

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“…Worldwide, different methods are being studied to improve seed germination, and biopriming as well as SMF treatment have been proposed as successful tools [Michalak et al, 2019; Forti et al, 2020]. In this study, we investigated the possibility of using B. amyloliquefaciens D5 ARV and SMF in priming of old white mustard seed.…”

Section: Discussionmentioning

confidence: 99%

“…Seed germination decrease during prolonged storage can be partially restored by seed priming treatments. Numerous priming methods are based on the use of chemical and physical agents [Zheng et al, 2016; Forti et al, 2020]. However, seed treatment with beneficial microorganisms represents a useful eco‐friendly alternative [Forti et al, 2020].…”

Section: Introductionmentioning

confidence: 99%

Biomagnetic Priming—Possible Strategy to Revitalize Old Mustard Seeds

Jovičić-Petrović

Karličić

Petrović

et al. 2021

Bioelectromagnetics

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Different priming methods were developed to improve seed germination and the early growth of seedlings. This study aimed to examine the combined effect of bacterial inoculation and static magnetic field on white mustard (Sinapis alba L.) germination. A plant growth-promoting bacterial strain Bacillus amyloliquefaciens D5 ARV was used for biopriming. The static magnetic field of 90 mT was applied for 5 and 15 min. Analyses of abscisic acid, chlorophyll, anthocyanins, flavonoids content, nitrogen balance index, and bacterial indole-3-acetic acid were used to explain observed effects. Bacterial inoculation improved seed germination, whereas exposure to 90 mT for 15 min suppressed germination. Such an unfavorable effect was neutralized when the treatment with the static magnetic field was combined with bacterial inoculation. The highest germination percentage was a result of synergistic action of B. amyloliquefaciens D5 ARV and 15 min long exposure to 90 mT, which induced an increase of 53.20% in the number of germinated seeds. The static magnetic field induced the increase of bacterial indole-3acetic acid production threefold times. Biomagnetic priming caused a metabolic shift from primary to secondary metabolism in the white mustard seedlings. An adequate combination of biological priming and static magnetic field treatment can be successfully used in old seed revitalization and germination improvements.

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“…During soaking, seeds bind water and absorb protective and biologically active compounds. As a result, the procedure activates various enzymes, metabolic pathways, and synthesis processes that are regarded as “pre-germinative metabolism” [ 43 , 44 ]. Promoting effects are then manifested in developing seedlings and sustain their higher vigor and survivability under unfavorable environmental conditions.…”

Section: Priming At Critical Growth Stagesmentioning

confidence: 99%

“…Genetic control of the priming phenomenon involves the regulation of numerous pathways activated during pre-treatment and subsequent stress events. New information on its mechanisms are gathered due to “omics” analyses that decipher changes in the transcriptome, proteome, and metabolome of primed plants [ 44 , 140 , 141 , 142 ]. However, the details of genetic control during priming against metallic stress are not fully elucidated.…”

Section: Genes That Can Be Targeted To Induce Priming Effects For Metmentioning

confidence: 99%

Priming Strategies for Benefiting Plant Performance under Toxic Trace Metal Exposure

Wiszniewska

2021

Plants

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Combating environmental stress related to the presence of toxic elements is one of the most important challenges in plant production. The majority of plant species suffer from developmental abnormalities caused by an exposure to toxic concentrations of metals and metalloids, mainly Al, As, Cd, Cu, Hg, Ni, Pb, and Zn. However, defense mechanisms are activated with diverse intensity and efficiency. Enhancement of defense potential can be achieved though exogenously applied treatments, resulting in a higher capability of surviving and developing under stress and become, at least temporarily, tolerant to stress factors. In this review, I present several already recognized as well as novel methods of the priming process called priming, resulting in the so-called “primed state” of the plant organism. Primed plants have a higher capability of surviving and developing under stress, and become, at least temporarily, tolerant to stress factors. In this review, several already recognized as well as novel methods of priming plants towards tolerance to metallic stress are discussed, with attention paid to similarities in priming mechanisms activated by the most versatile priming agents. This knowledge could contribute to the development of priming mixtures to counteract negative effects of multi-metallic and multi-abiotic stresses. Presentation of mechanisms is complemented with information on the genes regulated by priming towards metallic stress tolerance. Novel compounds and techniques that can be exploited in priming experiments are also summarized.

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Hydropriming and Biopriming Improve Medicago truncatula Seed Germination and Upregulate DNA Repair and Antioxidant Genes

Cited by 58 publications

References 61 publications

Hydropriming Applied on Fast Germinating Solanum villosum Miller Seeds: Impact on Pre-germinative Metabolism

Hydropriming Applied on Fast Germinating Solanum villosum Miller Seeds: Impact on Pre-germinative Metabolism

Biomagnetic Priming—Possible Strategy to Revitalize Old Mustard Seeds

Priming Strategies for Benefiting Plant Performance under Toxic Trace Metal Exposure

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