Home
  • English
  • Čeština
  • Deutsch
  • Español
  • Français
  • Gàidhlig
  • Latviešu
  • Magyar
  • Nederlands
  • Português
  • Português do Brasil
  • Suomi
  • Log In
    Have you forgotten your password?
Home
  • Browse Our Collections
  • Publications
  • Researchers
  • Research Data
  • Institutions
  • Statistics
    • English
    • Čeština
    • Deutsch
    • Español
    • Français
    • Gàidhlig
    • Latviešu
    • Magyar
    • Nederlands
    • Português
    • Português do Brasil
    • Suomi
    • Log In
      Have you forgotten your password?
  1. Home
 
Options

Paddy straw saccharification using immobilized laccase on magnetized multiwall carbon nanotubes

Journal
Biotechnology Letters
ISSN
0141-5492
1573-6776
Date Issued
2024-05
Author(s)
Hasnol Azahari Natasha Yasmin
Universiti Malaysia Perlis
Kunasundari Balakrishnan
Universiti Malaysia Perlis
Siew Hoong Shuit
Universiti Tunku Abdul Rahman
Mohamad Fahrurrazi Tompang
Universiti Malaysia Perlis
DOI
10.1007/s10529-024-03494-z
Handle (URI)
https://link.springer.com/article/10.1007/s10529-024-03494-z
https://link.springer.com/
https://hdl.handle.net/20.500.14170/16275
Abstract
he effective recovery of the immobilized enzymes using magnetic carriers has led to growing interest in this technology. The objective of this research was to evaluate the efficiency of immobilized laccase on magnetized multiwall carbon nanotubes (m-MWCNTs) in terms of stability and reusability. Laccases were efficiently adsorbed onto magnetized multiwall carbon nanotubes (m-MWCNTs) synthesized using water. The concentration of 7 mg laccase/mL was found to be ideal for immobilization. The optimal activity of both free and immobilized laccases was observed at pH 5, while for the latter, the optimal temperature was shifted from 40 to 50 °C. Compared to the free laccase, the immobilized laccase exhibited a greater range of stability at more extreme temperatures. At the fourth cycle of reactions, the immobilized laccase exhibited more than 60% relative activity in terms of reusability. Based on the fourier-transform infrared spectroscopy (FTIR) peak at 2921 cm−1, saccharification of paddy straw using immobilized laccase verified lignin degradation. The easy recovery of the immobilized laccase on m-MWCNTs lends credence to its potential use in biomass hydrolysis.
Subjects
  • Immobilized laccase

  • Magnetized multiwall ...

  • Paddy straw

  • Recovery

  • Saccharification

Thumbnail Image
  • About Us
  • Contact Us
  • Policies