Separation of peroxidases from Miscanthus x giganteus, their partial characterisation and application for degradation of dyes
Due to wide applicative potential of peroxidases (POXs), the search for novel sources and
forms, possibly with better characteristics and performances, is justified. In this study, POXs
from Miscanthus x giganteus rhizomes grown in chernozem-like soil and mine tailings were
examined. Higher activity of POXs in samples originating from the metal-contaminated soil
was found. The quantity of acidic isoforms was much greater than basic. The rates of
reactions catalysed by acidic POX isoforms decreased slightly at 50° C, whereas stability of …
forms, possibly with better characteristics and performances, is justified. In this study, POXs
from Miscanthus x giganteus rhizomes grown in chernozem-like soil and mine tailings were
examined. Higher activity of POXs in samples originating from the metal-contaminated soil
was found. The quantity of acidic isoforms was much greater than basic. The rates of
reactions catalysed by acidic POX isoforms decreased slightly at 50° C, whereas stability of …
Abstract
Due to wide applicative potential of peroxidases (POXs), the search for novel sources and forms, possibly with better characteristics and performances, is justified. In this study, POXs from Miscanthus x giganteus rhizomes grown in chernozem-like soil and mine tailings were examined. Higher activity of POXs in samples originating from the metal-contaminated soil was found. The quantity of acidic isoforms was much greater than basic. The rates of reactions catalysed by acidic POX isoforms decreased slightly at 50 °C, whereas stability of basic isoforms was affected at 40 °C. Concentrations of Zn, Mn and Fe were higher in rhizomes grown in mine tailings, and negatively correlated with the concentration of proteins. Basic POX isoforms effectively degraded CBB R250, while Amidoblack 10b was predominantly degraded by acidic isoforms. Thus, Miscanthus x giganteus can be used as a source of POXs which can be applied for dye decomposition and, possibly, waste water management.
Elsevier