Correction: Codreanu et al. Bacterial Cellulose-Modified Polyhydroxyalkanoates Scaffolds Promotes Bone Formation in Critical Size Calvarial Defects in Mice. <i>Materials</i> 2020, <i>13</i>, 1433. [PDF]
Codreanu A +13 more
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Biodegradable Innovations: Harnessing Agriculture for Eco-Friendly Plastics. [PDF]
Pandey K +5 more
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<i>Billgrantia hypersalina</i> sp. nov. LNSP4103-1<sup>T</sup>: A Halotolerant Bioplastic-Producing Bacterium from Saline Agricultural Soil. [PDF]
Moran-Olvera PM +9 more
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Complete genome sequence of polyhydroxyalkanoates and carotenoid-producing <i>Paracoccus marcusii</i> strain LL1 isolated from Lonar Lake, India. [PDF]
Cabulong RB +5 more
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Complete genome sequence of <i>Halomonas litopenaei</i> YBW-3-4-1, a polyhydroxyalkanoate-producing halophile. [PDF]
Ganbat S +6 more
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Polyhydroxyalkanoates (PHAs) Database: Genomics of Polyhydroxyalkanoates (PHAs) Biosynthesis
openaire +1 more source
Tenebrio molitor-Derived Enzyme Systems Enable Solvent-Reduced Recovery of Intracellular Polyhydroxyalkanoates. [PDF]
Bogojevic SS +12 more
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Genome data mining of a novel <i>Stutzerimonas marianensis</i> strain LB-0542 isolated from pelagic <i>Sargassum</i> seaweed waste for plastic-degrading and plant growth-promoting traits. [PDF]
Mohapatra BR, Moralez LS, James KE.
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Articles of Significant Interest in This Issue. [PDF]
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