Bacterial Polyhydroxyalkanoate Granules: Biogenesis, Structure, and Potential Use as Nano-/Micro-Beads in Biotechnological and Biomedical Applications

Grage, Katrin; Jahns, Anika C.; Parlane, Natalie A.; Palanisamy, Rajasekaran; Rasiah, Indira A.; Atwood, Jane A.; Rehm, Bernd H. A.

doi:10.1021/bm801394s

Cited by 236 publications

(220 citation statements)

References 143 publications

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“…Both models consider the defined location of the polyester synthase and to some extent the phasin protein on the surface of the granule. The micelle model is certainly supported by PHA granule formation in vitro and in the absence of membranes ( Figure 3) (45,117). However, electron microscopy studies showing membrane-like material surrounding PHA granules in intact cells (118) or isolated granules (119) provided evidence for the budding model.…”

Section: In Vivo Formation Of Pha Granulesmentioning

confidence: 98%

“…Whereas P. oleovorans is estimated to have about one or two large granules (128). The PHA granules are mostly spherical and surrounded by a phospholipids membrane (129) separating two crystalline protein layers (130,131) composed of the PHA polymerases (132), the intracellular PHA depolymerase (133), amphipathic phasing proteins (117,134), PHAspecific regulator proteins (135)(136)(137) and additional proteins with unknown function ( Figure 5) (128). Granules membrane coat is about 2 nm thick, containing 0.5% lipid and 2% protein, of the granule weight (138).…”

Section: Structure Of Pha Granulesmentioning

confidence: 99%

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Bacterial polyhydroxyalkanoates-eco-friendly next generation plastic: Production, biocompatibility, biodegradation, physical properties and applications

Muhammadi

Shabina

Afzal

et al. 2015

Green Chemistry Letters and Reviews

270

139

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Polyhydroxyalkanoates (PHAs) are intracellular aliphatic polyesters synthesized as energy reserves, in the form of water-insoluble, nano-sized discrete and optically dense granules in cytoplasm by a diverse bacteria and some archae under conditions of limiting nutrients in the presence of excess carbon source. Bacteria synthesize different PHAs from coenzyme A thioesters of respective hydroxyalkanoic acid, and degrade intracellularly for reuse and extracellularly in natural environments by other microorganisms. In vivo, PHAs exist as amorphous mobile liquid and water-insoluble inclusions but in vitro, exhibit material and mechanical properties, ranging from stiff and brittle crystalline to elastomeric and molding, similar to petrochemical thermoplastics. Further, they are hydrophobic, isotactic, biocompatible and exhibit piezoelectric properties. But as commodity plastics their applications are limited by high production cost, low yield, in vivo degradation, complexity of technology and difficulty of extraction. Therefore, to replace the conventional plastic with PHAs, it is prerequisite to standardize the PHA production systems.

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Section: In Vivo Formation Of Pha Granulesmentioning

confidence: 98%

Section: Structure Of Pha Granulesmentioning

confidence: 99%

Bacterial polyhydroxyalkanoates-eco-friendly next generation plastic: Production, biocompatibility, biodegradation, physical properties and applications

Muhammadi

Shabina

Afzal

et al. 2015

Green Chemistry Letters and Reviews

270

139

View full text Add to dashboard Cite

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“…Nanoparticles made from natural polymers are interesting drug delivery systems due to their characteristics of biodegradability and biocompatibility [Pich et al, 2006;Reis et al, 2006;Poletto et al, 2008]. PHBV belongs to the group of polyhydroxyalkanoates (PHAs), polyesters naturally synthesized by microorganisms and deposited intracellularly as insoluble spherical inclusions [Grage et al, 2009]. Its characteristics of biocompatibility and biodegradability make PHBV attractive for numerous applications in medicine, including drug delivery systems [Reis et al, 2006;Poletto et al, 2008;Grage et al, 2009;Franceschi et al, 2008;Gangrade and Price, 1991;Sendil et al, 1999].…”

Section: Introductionmentioning

confidence: 99%

Poly(3-hydroxybutyrate-co-3- hydroxyvalerate) nanoparticles prepared by a miniemulsion/solvent evaporation technique: effect of phbv molar mass and concentration

Leimann

Cardozo‐Filho

Sayer

et al. 2013

Braz. J. Chem. Eng.

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-Miniemulsification and emulsion/solvent evaporation techniques were combined to produce poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) nanoparticles. Those nanoparticles were prepared with different PHBV molar masses and PHBV concentrations to verify their effect on the final particle size. Nanoparticles with an average diameter of 133 nm were obtained when a low molar mass (Mw = 44,350 g/mol) polymer was used. On the other hand, when high molar mass PHBV (Mw = 369,900 g/mol) was used under the same operational conditions, nanoparticles with a 300 nm average diameter and a broader particle size distribution were formed. Results also showed that increasing the PHBV concentration led to an increase of the particle size and, when the polymer/costabilizer (PHBV/hexadecane) weight ratio was close to 1, nanocapsules (hexadecane core surrounded by a PHBV shell) were formed.

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“…Bacteria produce and accumulate PHAs under unbalanced growth conditions, for instance, in the presence of high concentrations of the carbon source and limitation of some other essential nutrient, such as nitrogen, oxygen, phosphorous and magnesium (Verlinden 2007). They are stored in granules within the cell, and their main function is as a reserve of nutrients and energy (Kichise et al 2002, Pötter et al 2002, Grage et al 2009). The PHAs can be produced from renewable resources (Lee 1996, Steinbüchel andHein 2001), but given the high cost of substrates and the processes for the production of PHAs at an industrial level, it is still critical to reduce the expensive costs (Choi and Lee 1997).…”

Section: Introductionmentioning

confidence: 99%

EVALUATION OF POLYHYDROXYALKANOATES PRODUCING BACTERIA ISOLATED FROM SOILS WITH WASTES OF Cocos nucifera

Romero‐Ramírez

Hernández-Flores²,

Barrera

et al. 2017

Rev. Int. Contam. Ambie.

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Polyhydroxyalkanoates (PHAs) are polyesters produced and accumulated in prokaryotes as carbon and energy storage materials. These polymers can be used to produce biodegradable plastics. Actually, the industrial production of PHAs for the manufacture of biodegradable plastics has a high production cost due to the use of expensive carbon substrates. An alternative to reduce these costs is the use of wastes from renewable resources. Coconut biomass, which is the most abundant agroindustrial waste in the state of Guerrero, Mexico, has a promising potential as a primary or secondary feedstock for PHAs production. In this research, it is identified and evaluated the PHAs producing bacteria isolated from soil where Cocos nucifera waste and fiber in decomposition are accumulated. It was found six bacteria capable of producing PHAs in different concentrations (0.06 to 0.422 g/L). These strains belong to the genus Staphylococcus and Bacillus. The production of PHAs of Bacillus megaterium isolate S15 was characterized, and turned out to be the best PHAs accumulating bacterium. A bank of strains capable of producing polyhydroxyalkanoates was obtained for future studies. 116 RESUMENLos polihidroxialcanoatos (PHA) son poliésteres que se producen y acumulan como materiales de almacenamiento de carbono y energía en procariotas. Sin embargo, éstos pueden emplearse para producir plásticos biodegradables. Actualmente, la producción industrial de PHA para la manufacturación de plásticos biodegradables tiene un alto costo de producción debido al uso de sustratos de carbón caros. Una alternativa para reducir los costos es utilizando residuos como sustratos a partir de recursos renovables. La fibra de coco, que es uno de los residuos agroindustriales más abundantes en el estado de Guerrero, México, tiene un prometedor potencial como materia prima principal o secundaria para la producción de PHA. En esta investigación se identifica y evalúa a bacterias productoras de PHA aisladas de suelo donde residuos de Cocos nucifera se encuentran acumulados y en descomposición. Se aislaron seis cepas capaces de producir PHA en diferentes concentraciones (0.06-0.422 g/L). Se identificaron las cepas, mismas que pertenecen a los géneros de Staphylococcus y Bacillus. Se caracterizó la producción de PHA en Bacillus megaterium S15, la cual fue la mejor cepa para acumular este poliéster. Adicionalmente, se obtuvo un banco de cepas capaces de producir PHA para estudios futuros.

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Bacterial Polyhydroxyalkanoate Granules: Biogenesis, Structure, and Potential Use as Nano-/Micro-Beads in Biotechnological and Biomedical Applications

Cited by 236 publications

References 143 publications

Bacterial polyhydroxyalkanoates-eco-friendly next generation plastic: Production, biocompatibility, biodegradation, physical properties and applications

Bacterial polyhydroxyalkanoates-eco-friendly next generation plastic: Production, biocompatibility, biodegradation, physical properties and applications

Poly(3-hydroxybutyrate-co-3- hydroxyvalerate) nanoparticles prepared by a miniemulsion/solvent evaporation technique: effect of phbv molar mass and concentration

EVALUATION OF POLYHYDROXYALKANOATES PRODUCING BACTERIA ISOLATED FROM SOILS WITH WASTES OF Cocos nucifera

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