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Caatinga, Amazon and Atlantic Forest as natural sources for microbial lignocellulolytic enzymes.

Vitor Baptista FerrariLidiane Maria Dos Santos LimaKelly de Matos MarquesFernanda Camila GutierresGuilherme Gonçalves GueriniMarghuel Aparecida Vieira SilveiraGuilherme Mascalchi de FigueiredoVitor Gonçalves VitalMariana Rocha RoswellItamar Soares de MeloDebora Noma OkamotoSuzan Pantaroto de Vasconcellos
Published in: Archives of microbiology (2024)
Brazilian biomes are important sources for environmental microorganisms, including efficient metabolic machineries, like actinomycetes. These bacteria are known for their abilities to produce many bioactive compounds, including enzymes with multiple industrial applications. The present work aimed to evaluate lignocellulolytic abilities of actinomycetes isolated from soil and rhizosphere samples collected at Caatinga, Atlantic and Amazon Forest. Laccase (Lac), lignin peroxidase (LiP), manganese peroxidase (MnP) and cellulase were evaluated for their efficiency. These enzymes have an essential role in lignin decomposition, through oxidation of phenolic and non-phenolic compounds, as well as enzymatic hydrolysis of vegetal biomass. In this sense, a total of 173 actinomycetes were investigated. Eleven (11) of them were selected by their enzymatic performance. The actinomycete AC166 displayed some activity in all analysed scenarios in terms of Lac, MnP and LiP activity, while AC171 was selected as the most promising strain, showing the following activities: 29.7 U.L -1 for Lac; 2.5 U.L -1 for LiP and 23 U.L -1 for MnP. Cellulolytic activities were evaluated at two pH conditions, 4.8 and 7.4, obtaining the following results: 25 U.L -1 and 71 U.L -1 , respectively. Thermostability (4, 30 and 60 o C) and salinity concentrations (0 to 4 M) and pH variation (2.0 to 9.0) stabilities of the obtained LiP and Lac enzymatic extracts were also verified. The actinomycete strain AC171 displayed an adaptable response in distinct pH and salt profiles, indicating that bacterial LiP was some halophilic type. Additionally, the strain AC149 produced an alkali and extreme halophilic lignin peroxidase, which are promising profiles for their future application under lignocellulosic biomass at bioethanol biorefineries.
Keyphrases
  • hydrogen peroxide
  • climate change
  • microbial community
  • anaerobic digestion
  • wastewater treatment
  • ionic liquid
  • nitric oxide
  • drinking water
  • human health
  • high resolution
  • risk assessment
  • plant growth