Influencing factors and mechanism of Cr(VI) reduction by facultative anaerobic Exiguobacterium sp. PY14

Y Huang, J Tang, B Zhang, ZE Long, H Ni… - Frontiers in …, 2023 - frontiersin.org
Microbial reduction is an effective way to deal with hexavalent chromium [Cr (VI)]
contamination in the environment, which can significantly mitigate the biotoxicity and …

Transcriptome analysis reveals self-redox mineralization mechanism of azo dyes and novel decolorizing hydrolases in Aspergillus tabacinus LZ-M

X Yu, C Mao, S Zong, A Khan, W Wang, H Yun… - Environmental …, 2023 - Elsevier
Bio-degradation is the most affordable method of azo dye decontamination, while its
drawbacks such as aromatic amines accumulation and low degradation efficiency must be …

Immobilizing chromate reductase NfoR on magnetic biochar reduced Cr (VI) in copper-containing wastewater

H Han, P Song, Z Cai, W Dong, A Khan, K Yang… - Journal of Cleaner …, 2022 - Elsevier
Heavy metals (eg copper) in smelting wastewater inhibited microbial Cr (VI) reduction,
previous report found that a novel chromate reductase NfoR exhibited Cu (II)-enhanced …

Enhancing anthraquinone dyestuff degradation with composite activator: Proteomics of Burkholderia sp. DDMZ1-1

Q Zhang, X Liu, X Xie, D Xu, X Zhang, S Chen… - International …, 2024 - Elsevier
In this study, the composite activator was introduced to enhance the biodegradation of
recalcitrant anthraquinone dyestuff (reactive blue 19, RB19) by Burkholderia sp. DDMZ1-1 …

Identification of a Novel Chromate and Selenite Reductase FesR in Alishewanella sp. WH16-1

Z Zhou, L Zhu, Y Dong, L You, S Zheng… - Frontiers in …, 2022 - frontiersin.org
A ferredoxin protein (AAY72_06850, named FesR) was identified to associate with chromate
[Cr (VI)] resistance in Alishewanella sp. WH16-1. FesR and its similar proteins were …

[引用][C] 细菌六价铬还原及吸附机制研究进展

施国静, 吴效俭, 王莹莹 - 微生物学报, 2022

Anaerobic degradation of acid red 73 by obligately aerobic Aspergillus tabacinus LZ-M though a self-redox mechanism

X Yu, S Zong, C Mao, A Khan, W Wang, H Yun… - bioRxiv, 2022 - biorxiv.org
Fungi are potential biological resources for refractory organics degradation, but their
anaerobic degradation of azo dyes are rarely reported. In this study, a fungus Aspergillus …

[引用][C] Characterization of the chromium reduction activity of an endemic bacterium from the Atoyac river with potential use in water bioremediation

RI Puón Meraz - Instituto Tecnológico y de Estudios …