OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
Color phenotyping and genome-wide association studies of ...
OpenAlex:
FUNCTIONAL STUDIES ON SIEVE ELEMENT-SPECIFIC PROTEINS
OpenAlex:
Understanding the control of perpetual flowering and cont...
OpenAlex:
Nuclear dynamics in Sclerotinia sclerotiorum
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
Purification and characterization of the laccase produced by the Lysinibacillus boronitolerans and its role in the decolourization of synthetic dyes.
PubMed · 2026-06-23
Researchers purified a dye-degrading enzyme from a soil bacterium and used it to break down toxic textile dyes, achieving up to 84.5% removal of Congo red under optimized conditions. This offers a greener alternative to chemical wastewater treatment.
1
The laccase enzyme was purified 12.19-fold with a 63.86% recovery rate and a molecular weight of ~45 kDa.
2
Congo red dye showed 61% degradation with crude enzyme, rising to 84.5% after optimizing conditions with Response Surface Methodology.
3
Enzyme activity peaked at pH 5 and 40°C, and was boosted by copper ions while being blocked by sodium azide.