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PHB production by Bacillus megaterium strain MNSH1-9K-1 using low-cost media.

Andrea Margarita Rivas-CastilloAlejandro Valdez CalderónArturo F Angeles-PadillaCésar B Figueroa-OcampoSandra Carrillo-IbarraMaribel Quezada-CruzArián E RoaBrandon D Pérez-GarcíaNorma G Rojas-Avelizapa
Published in: Brazilian journal of microbiology : [publication of the Brazilian Society for Microbiology] (2024)
Plastics are widely used for diverse applications due to their versatility. However, their negative impact on ecosystems is undeniable due to their long-term degradation. Thus, there is a rising need for developing eco-friendlier alternatives to substitute fossil-based plastics, like biopolymers. PHA are synthesized intracellularly by microorganisms under stressful conditions of growth and have similar characteristics to conventional polymers, like their melting point, transition temperatures, crystallinity, and flexibility. Although it is feasible to use biopolymers for diverse industrial applications, their elevated production cost due to the supplies needed for microbiological procedures and the low productivity yields obtained have been the main limiting factors for their commercial success. The present study assessed the ability of Bacillus megaterium strain MNSH1-9K-1 to produce biopolymers using low-cost media from different kinds of fruit-peel residues. The results show that MNSH1-9K-1 can produce up to 58 g/L of PHB when grown in a medium prepared from orange-peel residues. The data obtained provide information to enhance the scalability of these kinds of biotechnological processes.
Keyphrases
  • low cost
  • climate change
  • bacillus subtilis
  • heavy metals
  • electronic health record
  • health information
  • machine learning
  • social media
  • deep learning