Nano silver: a novel nanomaterial for removal of bacterial contaminants in valerian (Valeriana officinalis L.) tissue culture

Abdi, Gholamreza; Salehi, H.; Khosh-Khui, Morteza

doi:10.1007/s11738-008-0169-z

Cited by 114 publications

(64 citation statements)

References 24 publications

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“…glauca were chosen for this study. Pieces of orthotropic stem were cut from the 8 cm upper half and prewashed in tap water for 3 h. Owing to high contamination rate observed nano silver [19,20] was used to eradicate the internal bacteria with a concentration of 500 lm/ml under reduced pressure (300 mm Hg in 5 min).Then, explants were treated with 70% ethanol for 3 min and 15% Clorox (containing 5.25% sodium hypochlorite) with 0.2% household detergent for at least 10-20 min for surface sterilization, and then rinsed six times with sterilized distilled water. The stem pieces were then cut into 7-9 mm long explant and placed with their proximal ends on MS [21] basal medium with 3.0% sucrose and 0.8% agar.…”

Section: Plant Materials and Micropropagation Proceduresmentioning

confidence: 99%

RAPD Fingerprint to Appraise the Genetic Fidelity of In Vitro Propagated Araucaria excelsa R. Br. var. glauca Plantlets

et al. 2011

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Randomly amplified polymorphic DNA (RAPD) was used as a tool to assess the genetic fidelity of in vitro propagated Araucaria excelsa R. Br. var. glauca with explants taken from orthotropic stem along with their related mother plants after treatment with kinetin, 2iP, BA (0.02-0.26 mg/l) and TDZ (0.001-1 mg/l) to produce axillary shoots. TDZ and kinetin induced more shoot and higher length per explant. Results showed a total of 1,676 fragments were generated with 12 RAPD primers in micropropagated plants and their donor mother plants. The number of loci ranged from 6 in OPB 12-18 in OPY 07 with a size ranging from 250 bp in OPH 19-3500 bp in OPH 11. Cluster analysis of RAPD data using UPGMA (unweighted pair group method with arithmetic average) revealed more than 92% genetic similarities between tissue cultured plants and their corresponding mother plant measured by the Jaccard's similarity coefficient. Similarity matrix and PCoA (two dimensional principal coordinate analysis) resulted in the same affinity. Primers had shown 36% polymorphism. However, careful monitoring of tissue culture derived plants might be needed to determine that rooted shoots are adventitious in origin.

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Section: Plant Materials and Micropropagation Proceduresmentioning

confidence: 99%

RAPD Fingerprint to Appraise the Genetic Fidelity of In Vitro Propagated Araucaria excelsa R. Br. var. glauca Plantlets

et al. 2011

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“…Albeit, recently silver nanoparticles have been studied as biomarkers (Jain et al 2008;Schoefield et al 2006) for their localized surface plasmon resonance. They are mostly popular for their antimicrobial applications like, wound dressings (Tian et al 2007), water treatment (Lv et al 2009), fabrics and textile processing (Vo Ke Thanh and Phuong Phong 2009) and more recently in agronomy (Mandeh et al 2012;Abdi et al 2008;Saha et al 2015). Silver in their nano dimension has been reported to show immense antimicrobial activity without generation of any resistant variety strains.…”

Section: Introductionmentioning

confidence: 99%

Production of putrescine-capped stable silver nanoparticle: its characterization and antibacterial activity against multidrug-resistant bacterial strains

Saha

Gupta²,

Gupta³

et al. 2016

Appl Nanosci

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Integration of biology with nanotechnology is now becoming attention-grabbing area of research. The antimicrobial potency of silver has been eminent from antiquity. Due to the recent desire for the enhancement of antibacterial efficacy of silver, various synthesis methods of silver in their nano dimensions are being practiced using a range of capping material. The present work highlights a facile biomimetic approach for production of silver nanoparticle being capped and stabilized by putrescine, possessing a diameter of 10-25 ± 1.5 nm. The synthesized nanoparticles have been analyzed spectrally and analytically. Morphological studies are carried out by high-resolution transmission electron microscopy and crystallinity by selected area electron diffraction patterns. Moreover, the elemental composition of the capped nanoparticles was confirmed by energy-dispersive X-ray spectroscopy analysis. A comparative study (zone of inhibition and minimum inhibitory concentration) regarding the interactions and antibacterial potentiality of the capped silver nanoparticles with respect to the bare ones reveal the efficiency of the capped one over the bare one. The bacterial kinetic study was executed to monitor the interference of nanoparticles with bacterial growth rate. The results also highlight the efficacy of putrescine-capped silver nanoparticles as effective growth inhibitors against multi-drug resistant human pathogenic bacterial strains, which may, thus, potentially be applicable as an effective antibacterial control system to fight diseases.

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“…The microbicidal effect of AgNPs derives from the interaction of silver ions with a broad range of molecular and metabolic processes within organisms, including growth inhibition, cell death, and inhibition of DNA replication (Abdi et al 2008; Yun’an Qing et al 2018). In fungi, AgNPs break the cell membrane of hyphae, thus impairing infection mechanisms (Kim et al 2008; Bocate et al 2019) and inhibiting the germination of conidia (Kim et al 2009).…”

Section: Discussionmentioning

confidence: 99%

Antifungal activity of silver nanoparticles during in-vitro culture of Stevia rebaudiana Bertoni

Sánchez-Segura

et al. 2019

Preprint

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30Contamination by fungi and bacteria during the in-vitro propagation of plants leads to considerable losses of biological 31 material and precludes phytosanitary certification. The anti-microbial effect of silver nanoparticles (AgNPs) may be 32 an alternative for the eradication of in-vitro contaminants. This study evaluated the microbicidal activity of AgNPs on 33 a recurrent fungus during the micropropagation of stevia (Stevia rebaudiana Bertoni). First, the fungus was isolated 34 and identified at a molecular level by the sequencing and analysis of the ITS4/ITS5 rDNA region. The results of the 35 phylogenetic analysis of various fungi species showed that the strain under study (16-166-H) belongs to the genus 36 Sordaria and is 86.74% similar to S. tomento-alba (strain CBS 260.78). Subsequently, the inhibition of the growth of 37 S. tomento-alba was tested under different concentrations of AgNPs (0, 25, 50, 100, and 200 mg L -1 ), observing that 38 50 and 100 mg L -1 achieve ca. 50% growth inhibition (IC 50 ), while 200 mg L -1 produces a drastic inhibition. On the 39 other hand, the shape and size of AgNPs was examined using transmission electron microscopy (TEM), and the 40 transport and accumulation of AgNPs in S. tomento-alba cells were monitored through multiphoton microscopy. The 41 morphological and fluorescence analyses showed that AgNPs display different sizes, with larger nanoparticles retained 42 in fungal cell walls while smaller AgNPs penetrate into fungal cells. Probably, apoplastic and symplastic mechanisms 43 involved in the accumulation and transport of AgNPs affect the metabolic processes of the fungus, thus inhibiting its 44 growth. These results suggest that AgNPs possess antifungal activity and can be used in the eradication of contaminants 45 during the in-vitro culture of plant species.46 47

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Nano silver: a novel nanomaterial for removal of bacterial contaminants in valerian (Valeriana officinalis L.) tissue culture

Cited by 114 publications

References 24 publications

RAPD Fingerprint to Appraise the Genetic Fidelity of In Vitro Propagated Araucaria excelsa R. Br. var. glauca Plantlets

RAPD Fingerprint to Appraise the Genetic Fidelity of In Vitro Propagated Araucaria excelsa R. Br. var. glauca Plantlets

Production of putrescine-capped stable silver nanoparticle: its characterization and antibacterial activity against multidrug-resistant bacterial strains

Antifungal activity of silver nanoparticles during in-vitro culture of Stevia rebaudiana Bertoni

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