Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Singh, Rachana; Parihar, Parul; Prasad, Sheo Mohan

doi:10.1038/s41598-020-62831-0

Cited by 33 publications

(16 citation statements)

References 53 publications

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“…These findings suggest the regulatory role of Ca 2+ and NO in SA induced signaling. Our results are in accordance with the earlier findings of Tiwari et al (2018;2019a,b) and Singh et al (2018aSingh et al ( , 2020a in Nostoc muscorum and mustard seedlings, respectively.…”

Section: Sa Ca 2+ and No Recover Antioxidant System To Neutralize Ni 2+ -Induced Oxidative Stresssupporting

confidence: 93%

“…From earlier studies it has been cleared that Ca 2+ plays essential role in regulation of growth, and different physiological processes of plants like stabilizes membrane structures by bonding with phospholipid bilayer, declines ROS levels, enhances key antioxidant enzymes, improves RubisCO activity and CO 2 fixation (Singh et al, 2018a,b;Tiwari et al, 2019a;Verma et al, 2018;Singh et al, 2020a,b), being an essential part of catalytic site of water oxidation (Mn 4 Ca 1 O x Cl y ) of PSII, it helps in the assemblage of water oxidizing complex (OEC) and directly regulates the photosynthetic activity (Andréasson et al, 1995;Bartlett et al 2008;Najafpour et al, 2012;Kalaji et al, 2014;Singh et al, 2018b;Singh et al, 2020a) under stressful environment. NO is also known for improvement in growth by regulating different physiological events like growth, photosynthetic pigments, photosynthetic activities, antioxidants defence system and reduces ROS levels produced by metals/ metalloids either by gene expression through signaling in a molecular cascade or by neutralizing excessive ROS through its free radical functioning (Zhang et al, 2008;Peto 2011;Chen et al, 2013;Xu et al, 2013;Sun et al, 2018;Tiwari et al, 2018;Singh et al, 2020a;Verma et al, 2020). According to a report, NO alleviate salinity stress by promoting photosynthetic rate in eggplant either by improving PSII quantum yield or by splitting excess energy via improving antenna molecules and carotenoid content (Wu et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Regulatory role of Ca2+ and NO in salicylic acid (SA) induced signaling against Ni2+-induced toxicity in Anabaena sp. PCC 7120

Verma¹,

Parihar²,

Singh³

et al. 2020

Preprint

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Present study deals with the regulation of SA induced Ca2+-mediated NO signaling in cyanobacterium Anabaena PCC 7120.Nickel (Ni2+)-toxicity strongly inhibited growth (DW), exopolysaccharides, photosynthetic pigments, PSII photochemistry (OJIP transient parameters: Fm, Fv, Fm/Fo, Fv/Fo, Ψo, ФPo, ФEo, Area, N, and PIABS were suppressed; while Fo, Fo/Fm, Fo/Fv, Sm, ФDo, ABS/RC, TRo/RC, ETo/RC and DIo/RC were raised), nitrogen metabolism status and non-enzymatic antioxidant system by increasing intracellular Ni2+ accumulation and excessive ROS production. However, salicylic acid (SA), calcium (CaCl2) and sodium nitroprusside (SNP) addition to the culture medium counteracted on negative impact of Ni2+ thereby improving the growth. Further, to investigate the relation between Ca2+ and NO, when c-PTIO was supplemented to Ni+SA+Ca and EGTA to Ni+SA+NO treated culture medium, the recovery on above studied traits caused due to Ca2+ and NO was arrested even in presence of SA to Ni2+-stressed Anabaena cells thereby suggesting the signaling behavior of Ca2+ and NO in SA induced pathway; however, the impact was worsened under c-PTIO supplemented Ni+SA+Ca than EGTA supplemented Ni+SA+NO treatment thereby suggesting key role of NO in SA-induced Ca2+-mediated signaling. Additionally, NO accumulation, intracellular Ni2+ accumulation, ROS and indices, and non-enzymatic antioxidant system were also examined that showed varied results.Title: Regulatory role of Ca 2+ and NO in salicylic acid (SA) induced signaling against Ni 2+ -induced toxicity in Anabaena sp. PCC 7120

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Section: Sa Ca 2+ and No Recover Antioxidant System To Neutralize Ni 2+ -Induced Oxidative Stresssupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Regulatory role of Ca2+ and NO in salicylic acid (SA) induced signaling against Ni2+-induced toxicity in Anabaena sp. PCC 7120

Verma¹,

Parihar²,

Singh³

et al. 2020

Preprint

Self Cite

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show abstract

“…While PTIO reversed the Ca 2+ mediated betterment of defensive process even in the presence of SNP. Similar to this, Singh et al [ 77 ] have also demonstrated the interactive signaling role of Ca 2+ and NO in up-regulation of antioxidant defense machinery and thereby reduction of ROS accumulation inside the cells of mustard plant, leading to arsenic toxicity alleviation (see Fig. 7 ).…”

Section: Discussionsupporting

confidence: 59%

Calcium mediated nitric oxide responses: Acquisition of nickel stress tolerance in cyanobacterium Nostoc muscorum ATCC 27893

Verma

Pandey

Tiwari

et al. 2021

Biochemistry and Biophysics Reports

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Calcium (Ca 2+ ) and nitric oxide (NO) are potentially active and multitasking signaling molecules which are known to regulate abiotic stresses in plants, but their interactive role in the acquisition of metal stress tolerance in cyanobacteria remains elusive. In current study the signaling role of Ca 2+ (800 μM) and NO (10 μM SNP) on key physiological and biochemical attributes of the agriculturally and economically important cyanobacterium Nostoc muscorum ATCC 27893 subjected to Ni stress (2 μM) was examined. Results revealed that Ni at elevated level caused severe damages to the test organism but exogenous supplementation of Ca 2+ and NO efficiently mitigated its toxic effects and up-regulated the growth, pigment contents, rate of photosynthesis (whole cell oxygen evolution and Chl a fluorescence indices: Kinetic traits: ΦP 0, Ψ 0 , ΦE 0 and PI ABS , along with Fv/F 0 ), nitrogen metabolism (NO 3 ‾ and NO 2 ‾ uptake, nitrate:NR and NiR; and ammonia:GS and GOGAT; assimilating enzymes), and boosted the enzymatic (SOD, POD, CAT and GST) along with non-enzymatic (proline, cysteine and NP-SH) antioxidants. Whereas the increased values of energy flux traits: (ABS/RC, TR 0 /RC, DI 0 /RC and ET 0 /RC) along with F 0 /Fv, rate of respiration, oxidative stress biomarkers (SOR, H 2 O 2 and MDA), and activity of GDH enzyme exhibited lowering trends with application of Ca 2+ and NO. Further, addition of EGTA (Ca 2+ scavenger) and PTIO (NO scavenger) reversed the positive impacts of Ca 2+ and NO and worsened the toxicity of Ni on test cyanobacterium, but the damages were more pronounced under PTIO application that demonstrated Ca 2+ mediated signaling role of NO in Ni toxicity alleviation.

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“…Previous studies have revealed that NO contributes to various aspects of stress tolerances by influencing ROS metabolism [ 9 ]. Ca 2+ -mediated NO signal transduction is involved in the response of Brassica seedlings to metalloid stress [ 10 ], and in Prunus persica (L.) Batsch, treatment with a NO solution can protect the fruit from pathogen infection by inducing the activity of defense enzymes and the expression of pathogenesis-related genes [ 11 ]. In two ecotypes of reeds, NO significantly reduces the contents of hydrogen peroxide (H 2 O 2 ) and malondialdehyde in calli and significantly inhibits the increase in ion leakage and growth inhibition and decrease in cell viability induced by HS [ 12 ].…”

Section: Introductionmentioning

confidence: 99%

Alternative oxidase gene induced by nitric oxide is involved in the regulation of ROS and enhances the resistance of Pleurotus ostreatus to heat stress

et al. 2021

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Background In China, during the cultivation process of Pleurotus ostreatus, the yield and quality of fruiting bodies are easily affected by high temperatures in summer. Nitric oxide (NO) plays an important regulatory role in the response to abiotic stress, and previous studies have found that NO can induce alternative oxidase (aox) experssion in response to heat stress (HS) by regulating aconitase. However, the regulatory pathway of NO is complex, and the function and regulation of the aox gene in the response to HS remain unclear. Results In this study, we found that NO affected nicotinamide adenine dinucleotide (NADH) and adenosine triphosphate (ATP) levels, reduced hydrogen peroxide (H2O2) and superoxide anion (O2−) contents, and slowed O2− production. Further RNA-Seq results showed that NO regulated the oxidation-reduction process and oxidoreductase activity, affected the cellular respiration pathway and activated aox gene expression. The function of aox was determined by constructing overexpression (OE) and RNA interference (RNAi) strains. The results showed that the OE-aox strains exhibited obviously improved growth recovery after exposure to HS. During exposure to HS, the OE-aox strains exhibited reduced levels of NADH, the product of the tricarboxylic acid (TCA) cycle, and decreased synthesis of ATP, which reduced the production and accumulation of reactive oxygen species (ROS), whereas the RNAi-aox strains exhibited the opposite result. In addition, aox mediated the expression of antioxidant enzyme genes in the mycelia of P. ostreatus under HS through the retrograde signaling pathway. Conclusions This study shows that the expression of the aox gene in P. ostreatus mycelia can be induced by NO under HS, that it regulates the TCA cycle and cell respiration to reduce the production of ROS, and that it can mediate the retrograde signaling pathway involved in the mycelial response to HS. Graphical abstract

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Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Cited by 33 publications

References 53 publications

Regulatory role of Ca2+ and NO in salicylic acid (SA) induced signaling against Ni2+-induced toxicity in Anabaena sp. PCC 7120

Regulatory role of Ca2+ and NO in salicylic acid (SA) induced signaling against Ni2+-induced toxicity in Anabaena sp. PCC 7120

Calcium mediated nitric oxide responses: Acquisition of nickel stress tolerance in cyanobacterium Nostoc muscorum ATCC 27893

Alternative oxidase gene induced by nitric oxide is involved in the regulation of ROS and enhances the resistance of Pleurotus ostreatus to heat stress

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