Optimization of Soil Bacteria for Bioplastic Production Using Organic Wastes as a Substrate Under Submerged Fermentation

Sumaira; Sumera Afzal; Arshad Islam

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Optimization of Soil Bacteria for Bioplastic Production Using Organic Wastes as a Substrate Under Submerged Fermentation

机译：Optimization of Soil Bacteria for Bioplastic Production Using Organic Wastes as a Substrate Under Submerged Fermentation

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In the perspective of the threats to environment associated with petroium-derived synthetic plastics, there is a critical need to traverse biologically degradable polymeric material. Biologically synthesized polyhydroxyalkanoates are the most promising candidates to be used as bioplastic. Keeping in view the ecofriendly nature of bioplastics, the current study was designed to explore contaminated soil samples for bioplastic producing bacterial strains and use organic wastes as a sole carbon source to reduce cost of bioplastic production. Contaminated soil samples from various areas of Peshawar, Charsada and Dargai were screened for bioplastic producing bacterial strains by using primary stain Sudan black and confirmatory stain Nile blue A. The growth medium and physical parameters were optimized for efficient producers. A variety of organic wastes; fruits and vegetable wastes were used as carbon source in E2 medium under submerged fermentation in 1L flasks for bioplastic production by optimized higher yielding bacterial strain KHA-S-03. E.coli K12 and Ralstonia eutropha MTCC1285 were used as negative and positive control respectively. KHA-S-03 was molecularly identified to be Bacillus megaterium SFK by 16srDNA sequencing and Pha C gene of identified strain was sequenced and phylogenetically analyzed, this strain was able to utilize organic wastes as sole carbon source under optimized condition of incubation time 48 h, pH 7, temperature 37 ℃, substrate concentration 5%, C/N ratio 8:1, agitation rate 200 rpm, inoculum size of 5% and nitrogen sources (NH_4)SO_4 and NH_4C1. For efficient downstreaming, among various solvents tested, ethylene carbonate (nontoxic solvent) was found to have efficiency near to chloroform (toxic solvent).

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《Iranian Journal of Science》 |2023年第2期|375-387|共13页
作者
Sumaira; Sumera Afzal; Arshad Islam;
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作者单位

Centre of Biotechnology and Microbiology, University of Peshawar, Peshawar 25000, Pakistan;

Department of Pathology, Lady Reading Hospital Medical Teaching Institution, Peshawar 25000, Pakistan;

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原文格式 PDF
正文语种英语
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Bioplastics; Polyhydroxyalkanoate; Submerged fermentation; Phylogenetic analysis;

Optimization of Soil Bacteria for Bioplastic Production Using Organic Wastes as a Substrate Under Submerged Fermentation

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