Arsenic resistance in fungi conferred by extracellular bonding and vacuole septa compartmentalization
文献类型: 外文期刊
第一作者: Li, Lijuan
作者: Li, Lijuan;Zeng, Xibai;Gao, Xin;Shan, Hong;Su, Shiming;Williams, Paul N.;Zhang, Lijuan;Zhang, Junzheng
作者机构:
关键词: As detoxification; Subcellular tissues; GSH; STXM
期刊名称:JOURNAL OF HAZARDOUS MATERIALS ( 影响因子:10.588; 五年影响因子:10.129 )
ISSN: 0304-3894
年卷期: 2021 年 401 卷
页码:
收录情况: SCI
摘要: Microbes play a crucial role in arsenic (As) biogeochemical cycling and show great potential for environmental detoxification and bioremediation. Efflux, transformation, and compartmentalization are key processes in microbial As resistance. However, organelle specific As detoxification and fate during intracellular transfer and compartmentalization is not well understood. We conducted a time course experiment (2-5 days) of the organelle separation for fungal strains to explore subcellular As distributions. After exposure to 10 mg L-1 of arsenate (As(V)), the As accumulation among fungal organelles was generally in the order of extracellular (65 %) > cell wall (15 %) > vacuole (10 %) > other organelles (8 %). The vacuole As accounted for 55 % of the protoplast As. Extracellular bonding and vacuole compartmentalization were the main mechanisms of As resistance in the fungal strains tested. Glutathione (GSH) increases in fungal protoplast in response to As toxicity, acting as a reasonable indicator of As tolerance. Fourier transform infrared (FT-IR) spectroscopy indicated that carboxyl and amines groups within fungal cell walls potentially bind with As preventing As influx. Further analysis using scanning transmission X-ray microscopy (STXM) identified that fungal septa besides vacuole could also immobilize As.
分类号:
- 相关文献
作者其他论文 更多>>
-
Effects of combined applications of S-nZVI and organic amendments on cadmium and arsenic accumulation in rice: Possible mechanisms and potential impacts on soil health
作者:Sun, Shuo;Zhang, Nan;Wang, Yanan;Zhang, Yang;Su, Shiming;Zeng, Xibai;Huang, Jiaqing;Wen, Jiong;Peng, Zhi
关键词:Cd & As immobilization; Combined application; Rice uptake Cd & As; Soil health; Soil health
-
Citric Acid Improves Egg White Protein Foaming Characteristics and Meringue 3D Printing Performance
作者:Zhang, Huajiang;Hua, Shihui;Liu, Mengzhuo;Chuang, Rui;Gao, Xin;Li, Hanyu;Xia, Ning;Xiao, Chaogeng
关键词:egg whites; citric acid; foaming property; meringue; rheological property; 3D printing
-
Unveiling the Role of GhP5CS1 in Cotton Salt Stress Tolerance: A Comprehensive Genomic and Functional Analysis of P5CS Genes
作者:Fang, Hui;Gao, Xin;Wu, Yunhao;Zhang, Ke;Wu, Ying;Li, Junyi;Qian, Dongmei;Li, Ruochen;Gu, Haijing;Mehari, Teame Gereziher;Wang, Baohua;Mehari, Teame Gereziher;Shen, Xinlian
关键词:cotton genomics;
P5CS gene family;GhP5CS1 function; salt stress; proline; virus-induced gene silencing (VIGS) -
Ecological drivers shaping mainstem and tributary fish communities in the upper Jinsha River, southeastern Qinghai-Tibet Plateau
作者:Lin, Pengcheng;Xia, Zhijun;Wang, Chunling;Chang, Tao;Gao, Xin;Lin, Pengcheng;Wu, Xinghua;Fujiwara, Masami;Ma, Baoshan
关键词:Community assembly; Environmental filtering; Dispersal limitation; Qinghai-Tibet Plateau
-
Bioprospecting of a Native Plant Growth-Promoting Bacterium Bacillus cereus B6 for Enhancing Uranium Accumulation by Sudan Grass (Sorghum sudanense (Piper) Stapf)
作者:Wu, Longyuan;Wang, Yanzhi;Sun, Meng;Shi, Chong;Zhang, Lijuan;Wang, Ning;Huang, Wei;Wang, Yanzhi;Sun, Meng;Wang, Wei;Zhang, Lijuan;Zheng, Guofeng
关键词:
Bacillus cereus ; plant growth-promoting activity; uranium stress -
The impact of supplementation with highland barley in different nutrients on weight loss: The nutrients and function relationship
作者:Xie, Fan;Yan, Yuting;Gao, Xin;She, Haocheng;Wang, Jingyi;Li, Jie;Ai, Lianzhong;Zhang, Jun;Zhang, Zhou;Zhang, Yi
关键词:Highland barley; Different peeling times; Lose weight; Key nutrients
-
Application of Fe-based S-rich material mitigates As and Cd toxicity in rice by alleviating root tip structural damage and improving bacterial community function
作者:Luo, Peisang;Sun, Mei;Rao, Zhongxiu;Feng, Qiufen;Sun, Yifei;Zhang, Nan;Wu, Cuixia;Zeng, Xibai;Su, Shiming;Luo, Peisang;Xu, Zhangqian;Sun, Yuanyuan
关键词:Heavy metals; Root tip; Passivator; Detoxify; Microbial community
