Use of plants has been reported to produce nanoparticles of varia

Use of plants has been reported to produce nanoparticles of variable size and shape.9 But harvesting of endangered plant species can pose a risk and imbalance in the plant diversity hence research on microorganisms as ideal source in synthesis of nanoparticles has rapidly expanded

with microorganism being isolated from various habitats and challenged with metal salts toward the unearthing nanoparticles production and this route Epacadostat manufacturer has gained success with large species reporting in production of nanoparticles with control size and desired shape (Table 1). The role of microbes in synthesis of nanoparticles was first reported in 1984 by employing Pseudomonas stutzeri AG259, originally isolated from silver mine. 10 Since then research on microbial synthesis of nanoparticles has expanded rapidly with one or the other reports confirming check details the production of nanoparticles by microorganism. The biological synthesis of nanoparticles originated by the experiment conducted by Mullen et al 1989 on biosorption of metals bacteria. The synthesized molecules were not identified as nanoparticles

but as aggregates. 11 Microbes produce inorganic materials either intra or extracellular often in nanoscale dimensions with exquisite morphology. Microbial interactions between metals and microbes have been exploited for various biological applications in the fields of bioremediation, biomineralization, bioleaching, and biocorrosion. The mechanism of microorganism

tolerating metal ions has led microbial system as emerging source compared to other biological entities as facile route in nanoparticle production. 12, 13 and 14 Microorganisms forms huge diversity conquering extremely hostile environments which are being bioprospected as nature wealth for wide range of application one such burgeoning area is microbes propounded as source of nanofactories with secondly array of microorganism being rapidly reported in synthesis of nanoparticles [Table 1] Microbial habitats forms a vital role, microbes characterized by extreme environmental conditions such as extreme pH, sparse nutrients, high metal content, intense salt load etc., are known to have unique mechanism for their existence. Marine habitat is one such resource bears a rich microbial flora with marine microorganisms these microbes are reported to have adapted toward unique mechanisms such as high salt concentration and can evade toxicity of different metal ions. Metal rich effluent is due to chemical reactions between marine water and mineral salts results in extreme environment.15 However, marine microbes acclimatize to such extreme condition for its survival. Exploiting such microbial resource for synthesis of nanoparticles will be promising enough as a facile bio-process. But reports of these microbes in synthesis nanoparticles are scanty with few reports representing the marine microbes in nanoparticles production.

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