Indexado em
  • Banco de Dados de Periódicos Acadêmicos
  • Genamics JournalSeek
  • Chaves Acadêmicas
  • JournalTOCs
  • Infraestrutura Nacional de Conhecimento da China (CNKI)
  • Scimago
  • Acesso à pesquisa on-line global em agricultura (AGORA)
  • Biblioteca de periódicos eletrônicos
  • RefSeek
  • Diretório de Indexação de Periódicos de Pesquisa (DRJI)
  • Universidade de Hamdard
  • EBSCO AZ
  • OCLC- WorldCat
  • Catálogo online SWB
  • Biblioteca Virtual de Biologia (vifabio)
  • publons
  • MIAR
  • Comissão de Bolsas Universitárias
  • Fundação de Genebra para Educação e Pesquisa Médica
  • Euro Pub
  • Google Scholar
Compartilhe esta página
Folheto de jornal
Flyer image

Abstrato

Bioconversion of Commercial and Waste Glycerol into Value-Added Polyhydroxyalkanoates by Bacterial Strains

Joao Snoei de Castro, Luong Dang Nguyen and Jukka Seppala

The industrial conversion of renewable resources into bio-based materials has been increasingly receiving attention from an economic and, in particular, an environmental point of view. Among these bioresources, glycerol represents one of the most important base materials for the manufacturing of bulk and higher-valued products. This is mainly based on the increasing amounts of waste glycerol due to the rising production of biodiesel and other oleochemicals, as well as on the applicability of glycerol as a water-soluble carbon source for a wide range of microbial productions. Polyhydroxyalkanoates (PHAs) are biodegradable and environmentally friendly biopolymers, and the major contributor to PHA production is the substrate cost, therefore it is desirable to produce PHA from waste residues like biodiesel byproducts. Since soil ecosystems have a rich, but still insufficiently studied microbial flora, the ability of bacteria isolated from Finnish soils and sediments were investigated for the production of valueadded materials such as Polyhydroxyalkanoates based on pure and waste glycerol as carbon source. 1 out of 40 isolated strains was selected for further studies based on ability to produce PHA on mineral medium and identified as Halomonas sp SA8 with up to 56% of Polyhydroxyalkanoate accumulation. The produced biopolymer was recovered and identified as PHB homopolymer.

Isenção de responsabilidade: Este resumo foi traduzido usando ferramentas de inteligência artificial e ainda não foi revisado ou verificado