Anupa Nair scite author profile

Siderophores are small molecular weight extracellular organic compounds secreted by microorganisms under iron-starved conditions, used by them to chelate and solubilize iron. Though they are specific ferric iron chelator, but is reported that they bind other metals also, such as divalent heavy metals and actinides because of potentially high metal-siderophore stability constants. Thus metal contaminant fate and transport in subsurface environment can be heavily influenced by siderophores. This approach can be successfully used in removing many toxic metals off the soil which poses a serious health threat. Our research focuses on the correlation between cell growth and siderophore production and chemical characterization of the siderophore type.

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Bioremediation of multi-metal contaminated soil using biosurfactant — a novel approach

Juwarkar

Dubey

Nair

et al. 2008

Indian J Microbiol

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An unconventional nutrient medium, distillery spent wash ((1:3) diluted) was used to produce di-rhamnolipid biosurfactant by Pseudomonas aeruginosa strain BS2. This research further assessed the potential of the biosurfactant as a washing agent for metal removal from multimetal contaminated soil (Cr-940 ppm; Pb-900 ppm; Cd-430 ppm; Ni-880 ppm; Cu-480 ppm). Out of the treatments of contaminated soil with tap water and rhamnolipid biosurfactant, the latter was found to be potent in mobilization of metal and decontamination of contaminated soil. Within 36 hours of leaching study, di-rhamnolipid as compared to tap water facilitated 13 folds higher removal of Cr from the heavy metal spiked soil whereas removal of Pb and Cu was 9-10 and 14 folds higher respectively. Leaching of Cd and Ni was 25 folds higher from the spiked soil. This shows that leaching behavior of biosurfactant was different for different metals. The use of wastewater for production of biosurfactant and its effi cient use in metal removal make it a strong applicant for bioremediation.

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Study of speciation of metals in an industrial sludge and evaluation of metal chelators for their removal

Nair

Juwarkar

Devotta

2008

Journal of Hazardous Materials

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Studies on the cholesterol ester hydrolase of Trogoderma (Coleoptera)

Agarwal¹,

Nair²

1976

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The enzyme cholesterol ester hydrolase (EC 3.1.1.13) was detected in the larvae of the khapra beetle, Trogoderma granarium (Everts). The pH and temperature optima for the enzyme were 6.6 degrees and 37 degrees C respectively. The mol.wt. of the enzyme was 76000-80000. The enzyme was equally effective in hydrolysing cholesteryl acetate, stearate and oleate. Cholesterol derivatives, namely the chloride and the methyl ether, inhibited the enzyme activity almost completely. It was also inhibited completely by p-hydroxymercuribenzoate. This inhibition was reversed by the addition of dithiothreitol, reduced glutathione or cysteine. The enzyme activity was associated predominantly with the 104000 g fraction.

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Anupa Nair

Biosurfactant technology for remediation of cadmium and lead contaminated soils

Production and Characterization of Siderophores and its Application in Arsenic Removal from Contaminated Soil

Bioremediation of multi-metal contaminated soil using biosurfactant — a novel approach

Study of speciation of metals in an industrial sludge and evaluation of metal chelators for their removal

Studies on the cholesterol ester hydrolase of Trogoderma (Coleoptera)

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