Literature DB >> 23884709

Synthesis of silver nanoparticles using haloarchaeal isolate Halococcus salifodinae BK3.

Pallavee Srivastava1, Judith Bragança, Sutapa Roy Ramanan, Meenal Kowshik.   

Abstract

Numerous bacteria, fungi, yeasts and viruses have been exploited for biosynthesis of highly structured metal sulfide and metallic nanoparticles. Haloarchaea (salt-loving archaea) of the third domain of life Archaea, on the other hand have not yet been explored for nanoparticle synthesis. In this study, we report the intracellular synthesis of stable, mostly spherical silver nanoparticles (AgNPs) by the haloarchaeal isolate Halococcus salifodinae BK3. The culture on adaptation to silver nitrate exhibited growth kinetics similar to that of the control. NADH-dependent nitrate reductase was involved in silver tolerance, reduction, synthesis of AgNPs, and exhibited metal-dependent increase in enzyme activity. The AgNPs preparation was characterized using UV-visible spectroscopy, XRD, TEM and EDAX. The XRD analysis of the nanoparticles showed the characteristic Bragg peaks of face-centered cubic silver with crystallite domain size of 22 and 12 nm for AgNPs synthesized in NTYE and halophilic nitrate broth (HNB), respectively. The average particle size obtained from TEM analysis was 50.3 and 12 nm for AgNPs synthesized in NTYE and HNB, respectively. This is the first report on the synthesis of silver nanoparticles by haloarchaea.

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Year:  2013        PMID: 23884709     DOI: 10.1007/s00792-013-0563-3

Source DB:  PubMed          Journal:  Extremophiles        ISSN: 1431-0651            Impact factor:   2.395


  45 in total

1.  Saccharomyces cerevisiae and Neurospora crassa contain heavy metal sequestering phytochelatin.

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Authors:  Rozamond Y Sweeney; Chuanbin Mao; Xiaoxia Gao; Justin L Burt; Angela M Belcher; George Georgiou; Brent L Iverson
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Journal:  Small       Date:  2008-06       Impact factor: 13.281

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Authors:  Sachin Seshadri; K Saranya; Meenal Kowshik
Journal:  Biotechnol Prog       Date:  2011-06-27

5.  Estimation of total, protein-bound, and nonprotein sulfhydryl groups in tissue with Ellman's reagent.

Authors:  J Sedlak; R H Lindsay
Journal:  Anal Biochem       Date:  1968-10-24       Impact factor: 3.365

6.  Antimicrobial effects of silver nanoparticles.

Authors:  Jun Sung Kim; Eunye Kuk; Kyeong Nam Yu; Jong-Ho Kim; Sung Jin Park; Hu Jang Lee; So Hyun Kim; Young Kyung Park; Yong Ho Park; Cheol-Yong Hwang; Yong-Kwon Kim; Yoon-Sik Lee; Dae Hong Jeong; Myung-Haing Cho
Journal:  Nanomedicine       Date:  2007-03       Impact factor: 5.307

7.  Biosynthesis of silver nanocrystals by Bacillus licheniformis.

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Journal:  Colloids Surf B Biointerfaces       Date:  2008-03-04       Impact factor: 5.268

8.  The Neurospora crassa metallothionein gene. Regulation of expression and chromosomal location.

Authors:  K Münger; U A Germann; K Lerch
Journal:  J Biol Chem       Date:  1987-05-25       Impact factor: 5.157

9.  Arsenic resistance in Halobacterium sp. strain NRC-1 examined by using an improved gene knockout system.

Authors:  Gejiao Wang; Sean P Kennedy; Sabeena Fasiludeen; Christopher Rensing; Shiladitya DasSarma
Journal:  J Bacteriol       Date:  2004-05       Impact factor: 3.490

10.  gamma-Glutamylcysteine and thiosulfate are the major low-molecular-weight thiols in halobacteria.

Authors:  G L Newton; B Javor
Journal:  J Bacteriol       Date:  1985-01       Impact factor: 3.490
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  13 in total

Review 1.  Extremophiles as sources of inorganic bio-nanoparticles.

Authors:  Erik Beeler; Om V Singh
Journal:  World J Microbiol Biotechnol       Date:  2016-07-27       Impact factor: 3.312

2.  Anti-bacterial TeNPs biosynthesized by haloarcheaon Halococcus salifodinae BK3.

Authors:  Pallavee Srivastava; Edarapalli V R Nikhil; Judith M Bragança; Meenal Kowshik
Journal:  Extremophiles       Date:  2015-06-18       Impact factor: 2.395

3.  Biosynthesis of Silver Chloride Nanoparticles (AgCl-NPs) from Extreme Halophiles and Evaluation of Their Biological Applications.

Authors:  Jamseel Moopantakath; Madangchanok Imchen; Aathira Sreevalsan; Busi Siddhardha; Rosa María Martínez-Espinosa; Ranjith Kumavath
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Authors:  Mariana Inés Costa; María Inés Giménez
Journal:  Methods Mol Biol       Date:  2022

Review 5.  Nano-priming as emerging seed priming technology for sustainable agriculture-recent developments and future perspectives.

Authors:  Shivraj Hariram Nile; Muthu Thiruvengadam; Yao Wang; Ramkumar Samynathan; Mohammad Ali Shariati; Maksim Rebezov; Arti Nile; Meihong Sun; Baskar Venkidasamy; Jianbo Xiao; Guoyin Kai
Journal:  J Nanobiotechnology       Date:  2022-06-03       Impact factor: 9.429

6.  Antibacterial efficacy of silver nanoparticles and ethyl acetate's metabolites of the potent halophilic (marine) bacterium, Bacillus cereus A30 on multidrug resistant bacteria.

Authors:  Dhayalan Arul; Govindasamy Balasubramani; Velramar Balasubramanian; Thillainathan Natarajan; Pachiappan Perumal
Journal:  Pathog Glob Health       Date:  2017-10-26       Impact factor: 2.894

7.  Sunlight-induced rapid and efficient biogenic synthesis of silver nanoparticles using aqueous leaf extract of Ocimum sanctum Linn. with enhanced antibacterial activity.

Authors:  Goutam Brahmachari; Sajal Sarkar; Ranjan Ghosh; Soma Barman; Narayan C Mandal; Shyamal K Jash; Bubun Banerjee; Rajiv Roy
Journal:  Org Med Chem Lett       Date:  2014-12-29

8.  Lignin peroxidase mediated silver nanoparticle synthesis in Acinetobacter sp.

Authors:  Richa Singh; Utkarsha U Shedbalkar; Shradhda B Nadhe; Sweety A Wadhwani; Balu A Chopade
Journal:  AMB Express       Date:  2017-12-22       Impact factor: 3.298

Review 9.  Extremophilic Microfactories: Applications in Metal and Radionuclide Bioremediation.

Authors:  Catarina R Marques
Journal:  Front Microbiol       Date:  2018-06-01       Impact factor: 5.640

10.  Biosynthesis of silver nanoparticles using Haloferax sp. NRS1: image analysis, characterization, in vitro thrombolysis and cytotoxicity.

Authors:  Hend M Tag; Amna A Saddiq; Monagi Alkinani; Nashwa Hagagy
Journal:  AMB Express       Date:  2021-05-26       Impact factor: 3.298
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