Purification and characterization of an extracellular laccase from solid-state culture of Pleurotus ostreatus HP-1

Abstract: A native isolate of Pleurotus ostreatus HP-1 (Genbank Accession No. EU420068) was found to have an excellent laccase producing ability. The extracellular laccase was purified to electrophoretic homogeneity from copper sulphate induced solid-state fermentation medium by ammonium sulphate precipitation and ion-exchange chromatography. The enzyme was determined to be monomeric protein with an apparent molecular mass of 68,420 kDa, and an isoelectric point (pI) of 3.5. The inductively coupled plasma spectroscopy s… Show more

“…The laccase from Xylaria sp. had an optimal reaction temperature between 50 and 60ºC (Fig.3b), which is similar to what was obtained for other reported fungal laccases (Forootanfar et al, 2011;Patel et al, 2014). The stability evaluated in the range from 4-70ºC showed that the laccase was mostly stable at temperatures below 30ºC but rapidly inactivated at temperatures of 40ºC and higher (Fig.3c); consistent results were obtained for the laccase of X. polymorpha (Liers et al, 2007), where the enzyme showed great stability at 20ºC for 4 hours but marked changes in residual activity at 40ºC and higher.…”

“…These behaviors are interesting if is considered that one of the main features of the enzyme is that a metal is found on the active site. However, this behavior has also been found in other laccases (De-Souza and Peralta 2003;Patel et al, 2014), and it might be caused by the influence of the substrate on the inhibitory effect of EDTA. Lorenzo et al (2005) found that EDTA strongly inhibits the activity of enzymes when syringaldazine or 2,6-dimethoxyphenol are used as substrates, and when ABTS is used, EDTA did not behave as an efficient inhibitor.…”

“…However, it is important to underscore that the yield obtained for the purification process in different reports, which apply different strategies, is highly variable and is related to the specific characteristics for each crude extract and enzyme. Among this variability, excellent yields such as 77.6% have been obtained by Patel et al, (2014) working with P. ostreatus, but low yields have been reported by other researchers such as Sahay et al, (2008) with 3,46% yield using Pleorotus sajor-caju MTCC 141; or Diaz et al, (2010) with 2,2 and 2,6% yield for laccase isoforms I and II from Coriolopsis rigida; or Junghans et al, (2009) with 0,95% yield using Phoma sp. In contrast, the specific activity value obtained in this study was superior to the activity value obtained for the purified enzymes from other organisms.…”

Optimization of the production, purification and characterization of a laccase from the native fungus Xylaria sp.

“…The laccase from Xylaria sp. had an optimal reaction temperature between 50 and 60ºC (Fig.3b), which is similar to what was obtained for other reported fungal laccases (Forootanfar et al, 2011;Patel et al, 2014). The stability evaluated in the range from 4-70ºC showed that the laccase was mostly stable at temperatures below 30ºC but rapidly inactivated at temperatures of 40ºC and higher (Fig.3c); consistent results were obtained for the laccase of X. polymorpha (Liers et al, 2007), where the enzyme showed great stability at 20ºC for 4 hours but marked changes in residual activity at 40ºC and higher.…”

“…These behaviors are interesting if is considered that one of the main features of the enzyme is that a metal is found on the active site. However, this behavior has also been found in other laccases (De-Souza and Peralta 2003;Patel et al, 2014), and it might be caused by the influence of the substrate on the inhibitory effect of EDTA. Lorenzo et al (2005) found that EDTA strongly inhibits the activity of enzymes when syringaldazine or 2,6-dimethoxyphenol are used as substrates, and when ABTS is used, EDTA did not behave as an efficient inhibitor.…”

“…However, it is important to underscore that the yield obtained for the purification process in different reports, which apply different strategies, is highly variable and is related to the specific characteristics for each crude extract and enzyme. Among this variability, excellent yields such as 77.6% have been obtained by Patel et al, (2014) working with P. ostreatus, but low yields have been reported by other researchers such as Sahay et al, (2008) with 3,46% yield using Pleorotus sajor-caju MTCC 141; or Diaz et al, (2010) with 2,2 and 2,6% yield for laccase isoforms I and II from Coriolopsis rigida; or Junghans et al, (2009) with 0,95% yield using Phoma sp. In contrast, the specific activity value obtained in this study was superior to the activity value obtained for the purified enzymes from other organisms.…”

Optimization of the production, purification and characterization of a laccase from the native fungus Xylaria sp.

“…No activity of laccase was measured from 65 °C upwards. This is similar as in articles 30,31 . For immobilized laccase on microparticles, activity decreased from 20 °C.…”

Immobilization of Laccase on Magnetic Carriers and Its Use in Decolorization of Dyes

“…Nonetheless, a higher affinity to ABTS is reported in comparison to other substrates such as syringaldazine or guaiacol among others, with lower oxidation velocity and higher K m values [4, 5, 35]. …”

Plackett-Burman Design for rGILCC1 Laccase Activity Enhancement in Pichia pastoris: Concentrated Enzyme Kinetic Characterization