Amir_2022_PLoS.One_17_e0264207

Reference

Title : Isolation and optimization of extracellular PHB depolymerase producer Aeromonas caviae Kuk1-(34) for sustainable solid waste management of biodegradable polymers - Amir_2022_PLoS.One_17_e0264207
Author(s) : Amir M , Bano N , Baker A , Zia Q , Banawas S , Zaheer MR , Shariq M , Nawaz MS , Khan MF , Azad Z , Gupta A , Iqbal D , Roohi
Ref : PLoS ONE , 17 :e0264207 , 2022
Abstract :

Bioplastics, synthesized by several microbes, accumulates inside cells under stress conditions as a storage material. Several microbial enzymes play a crucial role in their degradation. This research was carried to test the biodegradability of poly-beta-hydroxybutyrate (PHB) utilizing PHB depolymerase, produced by bacteria isolated from sewage waste soil samples. Potent PHB degrader was screened based on the highest zone of hydrolysis followed by PHB depolymerase activity. Soil burial method was employed to check their degradation ability at different incubation periods of 15, 30, and 45 days at 37+/-2 degreesC, pH 7.0 at 60% moisture with 1% microbial inoculum of Aeromonas caviae Kuk1-(34) (MN414252). Without optimized conditions, 85.76% of the total weight of the PHB film was degraded after 45 days. This degradation was confirmed with Fourier-transform infrared spectroscopy (FTIR) and Scanning electron microscope (SEM) analysis. The presence of bacterial colonies on the surface of the degraded film, along with crest, holes, surface erosion, and roughness, were visible. Media optimization was carried out in statistical mode using Plackett Burman (PB) and Central Composite Design (CCD) of Response Surface Methodology (RSM) by considering ten different factors. Analysis of Variance (ANOVA), Pareto chart, response surface plots, and F-value of 3.82 implies that the above statistical model was significant. The best production of PHB depolymerase enzyme (14.98 U/mL) was observed when strain Kuk1-(34) was grown in a media containing 0.1% PHB, K2HPO4 (1.6 gm/L) at 27 degC for seven days. Exploiting these statistically optimized conditions, the culture was found to be a suitable candidate for the management of solid waste, where 94.4% of the total weight of the PHB film was degraded after 45 days of incubation.

PubMedSearch : Amir_2022_PLoS.One_17_e0264207
PubMedID: 35421107

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Citations formats

Amir M, Bano N, Baker A, Zia Q, Banawas S, Zaheer MR, Shariq M, Nawaz MS, Khan MF, Azad Z, Gupta A, Iqbal D, Roohi (2022)
Isolation and optimization of extracellular PHB depolymerase producer Aeromonas caviae Kuk1-(34) for sustainable solid waste management of biodegradable polymers
PLoS ONE 17 :e0264207

Amir M, Bano N, Baker A, Zia Q, Banawas S, Zaheer MR, Shariq M, Nawaz MS, Khan MF, Azad Z, Gupta A, Iqbal D, Roohi (2022)
PLoS ONE 17 :e0264207