Polyhydroxyalkanoates, the Biopolymers of Microbial Origin- A Review

Ranganadhareddy, Aluru; Chandrsekhar, Chanda

doi:10.51847/3qf2wvuzl2

Cited by 2 publications

(1 citation statement)

References 39 publications

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“…The utilization of novel biopolymers, like chitosan, dramatically improves processes like medication delivery and tissue regeneration (Negm et al, 2020). Biopolymers and their composites are heavily utilized in contemporary technologies like 3D printing (Ranganadhareddy & Chandrsekhar, 2022).…”

Section: Introductionmentioning

confidence: 99%

Biopolymers Production from Algal Biomass and their Applications- A Review

Reddy¹

2022

J Biochem Technol

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Interesting properties like renewability, biocompatibility, and biodegradability are present in favorable materials produced by living organisms called biopolymers. They have recently caused some environmental concerns as they have been considered to compete with polymeric materials that are fossil-based. Energy, medical devices, electronics, and food packaging are some of the applications of biobased plastics that are gaining increasing interest. Microbes, agricultural wastes, animals, and plants are some examples of biological sources that can produce biopolymers. Among the promising sources for producing bioplastics are microalgae and cyanobacteria, both of which contain cellulose, carbohydrates (especially starch), proteins, and polyhydroxyalkanoates (PHAs), according to some studies. The potential of microalgal PHAs, polysaccharides, and proteins for the production of bioplastics is summarized in this review. A wide range of applications, including environmental remediation, adsorption, 3D printing, and antioxidants employ Biopolymers. A circular economy approach to microalgal-based bioplastic production is considered in this review to provide insight into current knowledge and future directions.

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Section: Introductionmentioning

confidence: 99%

Biopolymers Production from Algal Biomass and their Applications- A Review

Reddy¹

2022

J Biochem Technol

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A Review of PHB Production by Cyanobacteria and Its Applications

Ranganadhareddy¹,

Varghese²

2022

J Biochem Technol

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A significant worry is the impact of non-biodegradable plastic garbage. Consequently, efforts are being made to make bioplastics from living resources based on those materials' capacity to decompose. The cost-effectiveness of these resources has led scientists to explore alternatives, such as photoautotrophic cyanobacteria. The prospective significance and rising popularity of exploiting cyanobacteria as a PHB resource are described in this review. Numerous studies demonstrate that under stressful conditions, different cyanobacterial species build up intracellular poly-hydroxybutyrate granules as carbon and energy stores. PHB is thermoplastic that is biocompatible, environmentally benign, and degradable. They may be utilized in numerous ways, comparable to many non-biodegradable petrochemical plastics now in use, and vary in hardness and flexibility, depending on their composition. Promising methods include genetically modifying microorganisms to incorporate manufacturing routes under study over the past 20 years. This type of study focuses on the use of alternate substrates, innovative extraction techniques, genetically altered species, and mixed cultures to produce PHB from cyanobacteria. We have also discussed various applications of polyhydroxybutyrate in this review.

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Polyhydroxyalkanoates, the Biopolymers of Microbial Origin- A Review

Cited by 2 publications

References 39 publications

Biopolymers Production from Algal Biomass and their Applications- A Review

Biopolymers Production from Algal Biomass and their Applications- A Review

A Review of PHB Production by Cyanobacteria and Its Applications

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