Author:
Pose-Boirazian Tomás,Eibes Gemma,Barreiro-Piñeiro Natalia,Díaz-Jullien Cristina,Lema Juan M.,Martínez-Costas Jose
Abstract
AbstractA methodology that programs eukaryotic or bacterial cells to encapsulate proteins of any kind inside micro/nanospheres formed by muNS-Mi viral protein was developed in our laboratory. In the present study such “in cellulo” encapsulation technology is utilized for immobilizing a protein with an enzymatic activity of industrial interest, CotA laccase. The encapsulation facilitates its purification, resulting in a cost-effective, one-step way of producing immobilized enzymes for industrial use. In addition to the ability to be recycled without activity loss, the encapsulated protein showed an increased pH working range and high resistance to chemical inactivation. Also, its activity was almost unaffected after 30 min incubation at 90 °C and 15 min at the almost-boiling temperature of 95 °C. Furthermore, the encapsulated laccase was able to efficiently decolorate the recalcitrant dye RB19 at room temperature.
Funder
Spanish Ministerio de Economía y Competitividad
Consellería de Cultura, Educación e Ordenación Universitaria, Xunta de Galicia
European Regional Development Fund - ERDF and COST Action
Spanish Ministry of Science, Innovation and Universities
Publisher
Springer Science and Business Media LLC
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