High carotenoid production by a halotolerant bacterium, Kocuria sp. strain QWT-12 and anticancer activity of its carotenoid

High carotenoid production by a halotolerant bacterium, Kocuria sp. strain QWT-12 and anticancer activity of its carotenoid

Halophilic prokaryotes are extremophile microorganisms that grow optimally in media containing salts and almost appeared pigmented. Many of them contain high concentrations of carotenoids. Amongst 15 strains of halophilic prokaryotes isolated from industrial tannery wastewater in Qom, a Gram-stain-p...

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Bibliographic Details
Published in:EXCLI journal Vol. 16; pp. 840 - 851
Main Authors: Rezaeeyan, Zahra, Safarpour, Atefeh, Amoozegar, Mohammad Ali, Babavalian, Hamid, Tebyanian, Hamid, Shakeri, Fatemeh
Format: Journal Article
Language:English
Published: Germany Leibniz Research Centre for Working Environment and Human Factors 01-01-2017
Subjects:
Original
yellow pigmented bacteria
Kocuria
carotenoid
halotolerant bacteria
cancer cell line
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Summary:Halophilic prokaryotes are extremophile microorganisms that grow optimally in media containing salts and almost appeared pigmented. Many of them contain high concentrations of carotenoids. Amongst 15 strains of halophilic prokaryotes isolated from industrial tannery wastewater in Qom, a Gram-stain-positive coccoid, aerobic, non-endospore-forming, halotolerant bacterium designated as strain QWT-12 showed high capacity in the production of carotenoids in a wide range of culture medium factors. 16S rRNA gene analysis showed that this strain belongs to the genus . Carotenoids from this strain were extracted by methanol. MTT assay for extracted carotenoid was carried out against seven cancer cell lines belonging to breast, lung and prostate cancer with negative control of fibroblast cell line through six concentration levels to find out IC . Based on statistical analysis of data from MTT assay, IC of 1, 4 and 8 mg/ml for MCF-7, (A549 and MDA-MB-468) and MDA-MB-231 respectively. Additionally, qualitative carotenoid determination was carried out using spectrophotometric method in 300-600 nm and thin layer chromatography, respectively. According to the obtained results from mass spectrophotometry, absorption spectrum of strain QWT-12 is similar to the absorption spectrum of the carotenoid neurosporene.
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ISSN:1611-2156
1611-2156
DOI:10.17179/excli2017-218