Study on metal-triggered callose deposition in roots of maize and soybean

Piršelová, Beáta; Mistríková, Veronika; Libantová, Jana; Moravčíková, Jana; Matušíková, Ildikó

doi:10.2478/s11756-012-0051-8

Cited by 44 publications

(18 citation statements)

References 45 publications

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“…The latter are responsible for degradation of the polysaccharide callose as one of the earliest sign of metal intoxication (PIRŠELOVÁ et al, 2011). Results indicate that the callose accumulation is not related to decreased enzymatic activity of glucanases and reinforce the hypothesis that accumulation of callose is primarily dependent on a higher rate of synthesis and/or deposition (PIRŠELOVÁ et al, 2012;. The callose-decomposing glucanases have been rarely studied in the context of heavy metal stress.…”

Section: Introductionmentioning

confidence: 65%

“…3). Previously PIRŠELOVÁ et al (2012) have described the induction of the overall activity of the glucanases of soybean (cv. Korada) under the action of 500 mg/dm 3 Pb 2+ , and 300 mg/dm 3 Cd 2+ .…”

Section: Resultsmentioning

confidence: 99%

“…On the other hand, inhibition of the activity was observed for 100 mg/dm 3 As 3+ . In contrast in maize roots no significant changes were observed (PIRŠELOVÁ et al, 2012). Since the total enzyme activity comprises an entire set of isoforms in tissues , we studied the soybean glucanases in in more detail after separation in polyacrylamide gels.…”

Section: Resultsmentioning

confidence: 99%

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The Activity of Cell-Wall Modifying β-1,3-Glucanases in Soybean Grown in Presence of Heavy Metals

Bardáčová

Maglovski

Gregorová

et al. 2016

Nova Biotechnologica Et Chimica

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Cell walls represent the first barrier that can prevent the entrance of toxic heavy metals into plants. The composition and the flexibility of the cell wall are regulated by different enzymes. The ß-1,3-glucanases control the degradation of the polysaccharide callose as a flexible regulation mechanism of cell wall permeability and/or its ability to bind metals under stress conditions. The profile and activity of ß-1,3-glucanases in the presence of heavy metals, however, has rarely been studied. Here we studied these enzymes in four soybean varieties (Glycine max) grown in the presence of cadmium ions. These analyses revealed three acidic and one basic enzyme isoforms in each soybean variety, but only two of the acidic isoforms in the variety Moravians were substantially responsive to the presence of Cd 2+ . Since the responses of certain glucanases were detected mainly in the varieties sensitive to metal and accumulating high amounts of metals, we assume their role in the defense rather than strategic metal sequestration.

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Section: Introductionmentioning

confidence: 65%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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The Activity of Cell-Wall Modifying β-1,3-Glucanases in Soybean Grown in Presence of Heavy Metals

Bardáčová

Maglovski

Gregorová

et al. 2016

Nova Biotechnologica Et Chimica

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“…However, the synthesis of callose is not a general pattern in plants in response to Pb, in Zea mays and G. max , low level Pb treatment did not result in any callose deposition in root tissue. Although, these species synthesized callose in response to cadmium or arsenic (Pirselova et al, 2012). It seems that the formation of callose was closely related to the amount of Pb entering the cell, and subsequently the level of stress.…”

Section: Root Defense Against Lead Stressmentioning

confidence: 99%

Effect of lead on root growth

et al. 2013

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Lead (Pb) is one of the most widespread heavy metal contaminant in soils. It is highly toxic to living organisms. Pb has no biological function but can cause morphological, physiological, and biochemical dysfunctions in plants. Plants have developed a wide range of tolerance mechanisms that are activated in response to Pb exposure. Pb affects plants primarily through their root systems. Plant roots rapidly respond either (i) by the synthesis and deposition of callose, creating a barrier that stops Pb entering (ii) through the uptake of large amounts of Pb and its sequestration in the vacuole accompanied by changes in root growth and branching pattern or (iii) by its translocation to the aboveground parts of plant in the case of hyperaccumulators plants. Here we review the interactions of roots with the presence of Pb in the rhizosphere and the effect of Pb on the physiological and biochemical mechanisms of root development.

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“…Noteworthy that Gallec is genetically (Socha et al 2015; this study) and also practically (this study) a low-Cd accumulator. Therefore, we conclude that part of Cd ions likely binds to the cell walls on the surface of roots (Cataldo et al 1983;Piršelová et al 2012) but never enters the root. This fits with relatively high tolerance index of this cultivar, too.…”

Section: Discussionmentioning

confidence: 82%

Variable dynamics of cadmium uptake and allocation in four soybean cultivars

Bardáčová¹,

Konotop²,

Gregorová³

et al. 2017

Nova Biotechnologica Et Chimica

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Cadmium is a serious environmental pollutant and its uptake by plant represents a serious health risk. Uptake, accumulation as well as sensitivity of soybean plants to metals have been shown to vary with genotype, while the dynamics of this uptake has rarely been studied. Here we studied the uptake and accumulation of Cd to monitor its accumulation continuously at 24 h intervals for 10 days. Our results showed that the uptake rate varied among the cultivars, being the highest in roots of the cv. Moravians and the lowest in the cv. Gallec. We also observed a non-even distribution of radioactivity within the entire plants of individual cultivars. The most of Cd 2+ isotope was translocated into primary leaves and leaves in the cvs. Kent and Moravians; on the contrary, relatively less in the cvs. Cardiff and Gallec. The results were fitted with genetic potential, growth as well as defense parameters such as proline accumulation. Combining uptake dynamics and biochemical data are indicative for different tolerance strategies of soybeans.

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Study on metal-triggered callose deposition in roots of maize and soybean

Cited by 44 publications

References 45 publications

The Activity of Cell-Wall Modifying β-1,3-Glucanases in Soybean Grown in Presence of Heavy Metals

The Activity of Cell-Wall Modifying β-1,3-Glucanases in Soybean Grown in Presence of Heavy Metals

Effect of lead on root growth

Variable dynamics of cadmium uptake and allocation in four soybean cultivars

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