Kumakshi Sharma scite author profile

Biomining of valuable metals using a target specific approach promises increased purification yields and decreased cost. Target specificity can be implemented with proteins/peptides, the biological molecules, responsible from various structural and functional pathways in living organisms by virtue of their specific recognition abilities towards both organic and inorganic materials. Phage display libraries are used to identify peptide biomolecules capable of specifically recognizing and binding organic/inorganic materials of interest with high affinities. Using combinatorial approaches, these molecular recognition elements can be converted into smart hybrid biomaterials and harnessed for biotechnological applications. Herein, we used a commercially available phage-display library to identify peptides with specific binding affinity to molybdenite (MoS2) and used them to decorate magnetic NPs. These peptide-coupled NPs could capture MoS2 under a variety of environmental conditions. The same batch of NPs could be re-used multiple times to harvest MoS2, clearly suggesting that this hybrid material was robust and recyclable. The advantages of this smart hybrid biomaterial with respect to its MoS2-binding specificity, robust performance under environmentally challenging conditions and its recyclability suggests its potential application in harvesting MoS2 from tailing ponds and downstream mining processes.

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Peptide-functionalized iron oxide magnetic nanoparticle for gold mining

Shen

Çetinel

Sharma

et al. 2017

J Nanopart Res

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Here, we present our work on preparing a novel nanomaterial composed of inorganic binding peptides and magnetic nanoparticles for inorganic mining. Two previously selected and well-characterized gold-binding peptides from cell surface display, AuBP1 and AuBP2, were exploited. This nanomaterial (AuBP-MNP) was designed to fulfill the following two significant functions: the surface conjugated gold-binding peptide will recognize and selectively bind to gold, while the magnetic nano-sized core will respond and migrate according to the applied external magnetic field. This will allow the smart nanomaterial to mine an individual material (gold) from a pool of mixture, without excessive solvent extraction, filtration, and concentration steps. The working efficiency of AuBP-MNP was determined by showing a dramatic reduction of gold nanoparticle colloid concentration, monitored by spectroscopy. The binding kinetics of AuBP-MNP onto the gold surface was determined using surface plasmon resonance (SPR) spectroscopy, which exhibits around 100 times higher binding kinetics than peptides alone. The binding capacity of AuBP-MNP was demonstrated by a bench-top mining test with gold microparticles. Graphical abstract Electronic supplementary materialThe online version of this article (doi:10.1007/s11051-017-3752-7) contains supplementary material, which is available to authorized users.

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Peptides as biopolymers—past, present, and future

Ganguly

Sharma

Majumder

2020

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Poly (D,L-Lactide) glycolide polymer microsphere entrapped tetanus toxoid: safety evaluation in Wistar rats

1996

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A vaccine preparation consisting of tetanus toxoid (TT) encapsulated in biodegradable poly (D,L-Lactide) glyco lide polymer has been developed. The toxicity of the preparation was evaluated in adult male and female Wistar rats injected IM with 20, 100 and 200 Lf tetanus toxoid, in polymer in 0.5 ml vehicle. No adverse effect of the vaccine could be seen, except for a granulomatous reaction at the site of injection. The vaccine was considered safe based on the findings in rats of both sexes.

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Kumakshi Sharma

Food-derived bioactive peptides and their role in ameliorating hypertension and associated cardiovascular diseases

Biomining of MoS2 with Peptide-based Smart Biomaterials

Peptide-functionalized iron oxide magnetic nanoparticle for gold mining

Peptides as biopolymers—past, present, and future

Poly (D,L-Lactide) glycolide polymer microsphere entrapped tetanus toxoid: safety evaluation in Wistar rats

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