Developing a green and sustainable process for enhanced PHB production by Azohydromonas australica

Abstract Polyhydroxybutyrate (PHB) is a sustainable bioplastic produced by bacteria that is a potential replacement for conventional plastics. This study delivers an integrated experimental and computational modeling approach to decipher metabolic factors controlling PHB production and offers engineering design strategies to boost production. In the metabolically robust Rhodopseudomonas palustris CGA009, PHB production significantly increased when grown on the carbon- and electron-rich lignin breakdown product p-coumarate (C9H8O3) compared to acetate when the same amount of carbon was supplied. However, the maximum yield did not improve further when grown on coniferyl alcohol (C10H12O3). In order to obtain a systems-level understanding of factors driving PHB yield, a model-driven investigation was performed. The model yielded several engineering design strategies including utilizing reduced, high molecular weight substrates that bypass the thiolase reaction. Overall, these findings uncover key parameters controlling PHB production and design strategies that can potentially be expanded to any bacterium for optimizing PHB production.

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Isolation of PHB Producing Yeast from Soil and its Quantification

Current Biochemical Engineering ◽

10.2174/2212711907666210519094222 ◽

2021 ◽

Vol 07 ◽

Author(s):

Varsha Varghese ◽

Sheela Shylaja

Keyword(s):

Manufacturing Industry ◽

Large Cell ◽

Biodegradable Plastics ◽

Future Perspective ◽

Banana Peel ◽

Agricultural Field ◽

Corn Cob ◽

Sudan Black B ◽

Vis Spectroscopy ◽

Phb Production

Background: Plastics are widely used in almost every manufacturing industry ranging from automobiles to medicine. Plastics take years to degrade and have become a threat to the environment. Therefore there is a necessity to use biodegradable plastics in place of such non-biodegradable plastics. Polyhydroxybutyrate or PHB is a type of biopolymer that has similar properties to synthetic plastics and is susceptible to degradation by microbes in the environment. PHB is produced in microorganisms such as bacteria or yeast under stress conditions. As the yeast has a large cell size, it can accumulate more PHB than bacteria and is also physiologically flexible, in addition to the advantage of using yeast rather than the bacterial cell for the production of PHB. Therefore the aim of the study was to isolate PHB producing yeast strain from the agricultural field. Methods: Primary screening of isolates using Sudan Black B for PHB production. The extraction of PHB was done using the sodium hypochlorite digestion method. The quantification of extracted PHB by UV-VIS spectroscopy. Results: The percentage and amount of PHB extracted were found to be 13.4 % per biomass and 1.6mg/ml, respectively. Conclusion: A quite amount of PHB was able to extract from yeast isolate. From a future perspective, the enhancement of PHB production can be done using agricultural residues like sugarcane bagasse, corn cob, teff, banana peel, etc.

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Optimization of Culture Conditions to improve PHB Production of Methane-Utilizing Mixed Culture

Proceedings of the 6th International Conference on Electronic, Mechanical, Information and Management Society ◽

10.2991/emim-16.2016.273 ◽

2016 ◽

Author(s):

Wei Zhang ◽

Qiannan Wang ◽

Jiaying Xin

Keyword(s):

Mixed Culture ◽

Culture Conditions ◽

Phb Production ◽

Optimization Of Culture Conditions

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Poly-β-Hydroxybutyrate (PHB) Production By Amylolytic Micrococcus sp. PG1 Isolated From Soil Polluted Arrowroot Starch Waste

Indonesian Journal of Biotechnology ◽

10.22146/ijbiotech.8634 ◽

2015 ◽

Vol 19 (1) ◽

pp. 56

Author(s):

Sebastian Margino ◽

Erni Martani ◽

Andriessa Prameswara

Keyword(s):

Carbon Source ◽

Internal Energy ◽

Organic Polymer ◽

Ftir Analysis ◽

Phb Production ◽

Alternative Carbon Source ◽

Arrowroot Starch ◽

Physiological Characters

Poly-β-hydroxybutyrate (PHB) production from amylolytic Micrococcus sp. PG1. Poly-β-hydroxybutyrate(PHB) is an organic polymer, which synthesized by many bacteria and serves as internal energy. PHB ispotential as future bioplastic but its price is very expensive due to glucose usage in PHB industry. Thedevelopment of PHB production using starch as an alternative carbon source has been conducted to reducethe dependence of glucose in PHB production. In this study, amylolytic bacteria from arrowroot processingsite were screened quantitavely based on amylase specifi c activity and PHB producing ability. The result of thestudy showed that among of 24 amylolytic isolates, 12 isolates of them were able to accumulate PHB rangedfrom 0,68-11,65% (g PHB/g cdw). The highest PHB production from substrate arrowroot starch was PG1 andafter optimization resulted in increasing of PHB production up to 16,8% (g PHB/g cdw) 40 hours incubationtime. Based on morphological, biochemical and physiological characters, the PG1 isolate was identifi ed asMicrococcus sp. PG1. Result of the FTIR analysis of produced polymer by Micrococcus sp. PG1 was indicatedas poly-β- hydroxybutyrate (PHB)

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