Biotransformation and detoxification of inorganic arsenic in Bombay oyster Saccostrea cucullata

文献类型: 外文期刊

第一作者: Zhang, Wei

作者: Zhang, Wei;Guo, Zhiqiang;Zhou, Yanyan;Zhang, Li;Zhou, Yanyan;Liu, Huaxue

作者机构:

关键词: Arsenic;Speciation;Biotransformation;Detoxification;Oyster

期刊名称:AQUATIC TOXICOLOGY ( 影响因子:4.964; 五年影响因子:5.071 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Arsenic (As) exists as the toxic inorganic forms in marine water and sediment, while marine oysters usually accumulate high As contents mostly as the less toxic organic forms. It has not yet been clear that how As is biotransformed in marine oysters. This study therefore investigated the biotransformation and detoxification of two inorganic As forms (As(III) and As(V)) in Bombay oyster Saccostrea cucullata after waterborne exposures for 30 days. Seven treatments of dissolved As exposure (clean seawater, 1, 5, 20 mg/L As(III), and 1, 5, 20 mg/L As(V)) were performed. Body As concentration increased significantly. after all As exposure treatments except 1 mg/L As(V). Total As, As(III), and As(V) concentration were positive correlated with glutathione-S-transferases (GST) activities, suggesting GST might play an important role in the As biotransformation and detoxification process. Organic As species were predominant in control and the low As exposed oysters, whereas a large fraction of As was remained as the inorganic forms in the high As exposed oysters, suggesting As could be biotransformed efficiently in the oysters in clean or light contaminated environment. The results of As speciation demonstrated the As biotransformation in the oysters included As(V) reduction, methylation to monomethylarsonic acid (MMA) and dimethylarsinic acid (DMA), and subsequent conversion to arsenobetaine (AsB). More As was distributed in the subcellular metallothionein-like proteins fraction (MTLP) functioning sequestration and detoxification in the inorganic As exposed oysters, suggesting it was also a strategy for oysters against As stress. In summary, this study elucidated that marine oysters had high ability to accumulate, biotransform, and detoxify inorganic As. (C) 2014 Elsevier B.V. All rights reserved.

分类号: Q17

  • 相关文献

[1]Characterization of Arsenic Biotransformation by a Typical Bryophyte Physcomitrella patens. Yin, Xixiang,Liu, Yifei,Jiang, Tenglong,Yin, Xixiang,Wang, Lihong,Gao, Jianwei.

[2]Inoculating chlamydospores of Trichoderma asperellum SM-12F1 changes arsenic availability and enzyme activity in soils and improves water spinach growth. Su, Shiming,Zeng, Xibai,Bai, Lingyu,Wang, Yanan,Wu, Cuixia,Williams, Paul N.,Zhang, Lili.

[3]Arsenic accumulation by the aquatic fern Azolla: Comparison of arsenate uptake, speciation and efflux by A. caroliniana and A. filiculoides. Zhang, Xin,Duan, Gui-Lan,Zhu, Yong-Guan,Lin, Ai-Jun,Zhao, Fang-Jie,Xu, Guo-Zhong,Zhu, Yong-Guan.

[4]An efficient method of noroviruses recovery from oysters and clams. Zhou Deqing,Ma Liping,Zhao Feng,Yao Lin,Li Xinguang,Ma Liping,Su Laijin,Li Xinguang. 2013

[5]Characterization of microbial community in high-pressure treated oysters by high-throughput sequencing technology. Cao Rong,Zhao Ling,Sun Huihui,Liu Qi. 2018

[6]Development of a loop-mediated isothermal amplification assay for rapid and sensitive detection of ostreid herpesvirus 1 DNA. Ren, Weicheng,Cai, Yuyong,Wang, Chongming,Renault, Tristan,Cai, Yuyong. 2010

[7]OYSTER AND ASSOCIATED BENTHIC MACROFAUNAL DEVELOPMENT ON A CREATED INTERTIDAL OYSTER (CRASSOSTREA ARIAKENSIS) REEF IN THE YANGTZE RIVER ESTUARY, CHINA. Quan, Weimin,Shen, Xinqiang,Chen, Yaqu,Humphries, Austin T.. 2012

[8]Development of A Monoclonal Antibody-Coated Immunomagnetic Beads for Separation and Detection of Norovirus (Genogroup II) in Oysters. Yao, Lin,Jiang, Yanhua,Jiang, Wei,Li, Fengling,Zhai, Yuxiu,Wang, Lianzhu. 2013

[9]Efficient biotransformation for preparation of pharmaceutically active ginsenoside Compound K by Penicillium oxalicum sp 68. Gao, Juan,Liang, Fei,Jin, Rutian,Wu, Di,Tai, Guihua,Zhou, Yifa,Xu, Wenjing,Fang, Qiang. 2013

[10]Mycosphere Essay 16: Colletotrichum: Biological control, biocatalyst, secondary metabolites and toxins. Jayawardena, R. S.,Li, X. H.,Liu, M.,Zhang, W.,Yan, J. Y.,Jayawardena, R. S.,Jayawardena, R. S.. 2016

[11]Biotransformation of steroidal saponins in sisal (Agave sisalana Perrine) to tigogenin by a newly isolated strain from a karst area of Guilin, China. Wang, Yanchao,Li, Xia,Sun, Hao,Hao, Zaibin,Wang, Yanchao,Hao, Zaibin,Yi, Kexian,Zheng, Jinlong,Zhang, Jie.

[12]Colletotrichum: a catalogue of confusion. Hyde, K. D.,Hyde, K. D.,Prihastuti, H.,Cai, L.,McKenzie, E. H. C.,Yang, Y. L.,Yang, Y. L.,Zhang, J. Z.,Prihastuti, H.. 2009

[13]Complete genome sequence of deoxynivalenol-degrading bacterium Devosia sp strain A16. Yin, Xianchao,Zhu, Ziwei,Zhou, Yidong,Yao, Zhenyu,Xu, Jianhong,Yin, Xianchao,Xu, Jianhong,Yin, Xianchao,Ji, Fang,Shi, Jianrong,Shi, Jianrong,Ji, Fang,Shi, Jianrong.

[14]Fungal biotransformation of tanshinone results in [4+2] cycloaddition with sorbicillinol: evidence for enzyme catalysis and increased antibacterial activity. Liu, Miaomiao,Zhang, Jingyu,Han, Jianying,Dai, Huanqin,Zhang, Lixin,Liu, Xueting,Li, Xiaolin,Zhang, Xiaoping,Abdel-Mageed, Wael M.,Abdel-Mageed, Wael M.,Li, Li,Li, Li,Wang, Wenzhao,Liu, Hung-wen,Liu, Hung-wen,Luo, Houwei,Han, Jianying,Quinn, Ronald J..

[15]Metabolic Profile of Zearalenone in Liver Microsomes from Different Species and Its in Vivo Metabolism in Rats and Chickens Using Ultra High-Pressure Liquid Chromatography-Quadrupole/Time-of-Flight Mass Spectrometry. Yang, Shupeng,Zhang, Jinzhen,Jin, Yue,Zhou, Jinhui,Li, Yi,Yang, Shupeng,Zhang, Huiyan,De Ruyck, Karl,De Saeger, Sarah,De Boevre, Marthe,Yang, Shupeng,Zhang, Huiyan,Sun, Feifei,Wang, Zhanhui,Zhang, Suxia,Li, Yanshen. 2017

[16]Combinatorial approach of LC-MS/MS and LC-TOF-MS for uncovering in vivo kinetics and biotransformation of ochratoxin A in rat. Han, Zheng,Zhao, Zhiyong,Zhao, Zhihui,Wu, Aibo,Shi, Jianxin,Zhang, Dabing,Liao, Yucai,Wu, Yongning,Han, Zheng,De Saeger, Sarah.

[17]Production of nigragillin and dihydrophaseic acid by biotransformation of litchi pericarp with Aspergillus awamori and their antioxidant activities. Lin, Sen,Lin, Sen,He, Jirui,Jiang, Yueming,Wu, Fuwang,Wang, Hui,Wu, Dan,Zhang, Dandan,Qu, Hongxia,Yang, Bao,Sun, Jian. 2014

[18]Development of nitrilase-mediated process for phenylacetic acid production from phenylacetonitrile. Fan, Haiyang,Chen, Lifeng,Wang, Hualei,Liu, Qinghai,Ren, Yuhong,Wei, Dongzhi,Sun, Huihui.

[19]Biotransformation of soybean isoflavones by a marine Streptomyces sp 060524 and cytotoxicity of the products. Hu, S. -C.,Song, Y. -C.,Liu, J. -Y.,Tan, R. -X.,Hu, S. -C.,Hong, K.,Hu, S. -C..

[20]A novel nitrilase from Ralstonia eutropha H16 and its application to nicotinic acid production. Fan, Haiyang,Chen, Lifeng,Wang, Hualei,Ren, Yuhong,Wei, Dongzhi,Sun, Huihui.

作者其他论文 更多>>

微信小程序