Molecular cloning, expression, and in situ hybridization analysis of MnGPx-3 and MnGPx-4 from oriental river prawn, Macrobrachium nipponense, in response to hypoxia and reoxygenation
文献类型: 外文期刊
第一作者: Xu, Lei
作者: Xu, Lei;Yang, Ming;Fu, Hongtuo;Fu, Hongtuo;Sun, Shengming;Qiao, Hui;Zhang, Wenyi;Gong, Yongsheng;Jiang, Sufei;Xiong, Yiwei;Jin, Shubo;Wu, Yan
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.24; 五年影响因子:3.788 )
ISSN: 1932-6203
年卷期: 2020 年 15 卷 2 期
页码:
收录情况: SCI
摘要: Glutathione peroxidase (GPx) has been the focus of increased research because of its important role as an antioxidant and in reactive oxygen species (ROS) induced damage repair. Studies on GPxs have relevance with Macrobrachium nipponense because it has poor tolerance to hypoxia in Macrobrachium nipponense. The two subunits named as MnGPx-3 and MnGPx-4 according to the glutathione peroxidase nomenclature system. Both full-length cDNAs were cloned from the hepatopancreas. In this study, we analyzed the expression of two GPxs in Macrobrachium nipponense in response to changes in environmental oxygen. Expression levels of MnGPx-3 and MnGPx-4 indicated that both have strong responses to hypoxia. In situ hybridization showed that MnGPx-3 and MnGPx-4 were located in secretory and storage cells in hepatopancreas. These results suggest that GPx gene is expressed and released by secretory cells and released response to hypoxia. In the gill tissue, however, GPxs are located in blood cells, suggesting that they perform different functions in different tissues or organs. The results of in situ hybridization were consistent with those of quantitative Real-time PCR. This study provides a basis for understanding the oxidative stress response in M. nipponense under hypoxia.
分类号:
- 相关文献
作者其他论文 更多>>
-
Visualizing plant intracellular inorganic orthophosphate distribution
作者:Guo, Meina;Ruan, Wenyuan;Li, Ruili;Xu, Lei;Zhang, Qianqian;Ren, Jianhao;Yi, Keke;Guo, Meina;Hani, Sahar;David, Pascale;Nussaume, Laurent;Zheng, Bingsong
关键词:
-
Mechanochemical route to fabricate an efficient nitrate reduction electrocatalyst
作者:Liu, Yunliang;Jabeen, Sobia;Liu, Naiyun;Liu, Yixian;Cheng, Yuanyuan;Li, Yaxi;Yu, Jingwen;Wu, Xin;Li, Haitao;Zheng, Zhiyu;Yan, Nina;Xu, Lei;Zheng, Zhiyu;Yan, Nina;Xu, Lei
关键词:mechanochemical route; magnetic biochar; electron transfer; nitrate; ammonia
-
A genome-wide study of the lipoxygenase gene families in Medicago truncatula and Medicago sativa reveals that MtLOX24 participates in the methyl jasmonate response
作者:Xu, Lei;Zhu, Xiaoxi;Liu, Yajiao;Sod, Bilig;Li, Mingna;Chen, Lin;Kang, Junmei;Yang, Qingchuan;Long, Ruicai;Xu, Lei;Yang, Qingchuan;Yi, Fengyan
关键词:Medicago; Lipoxygenase; Methyl jasmonate; Arabidopsis thaliana; Overexpression
-
Identification of Candidate Male-Reproduction-Related Genes from the Testis and Androgenic Gland of Macrobrachium nipponense, Regulated by PDHE1, through Transcriptome Profiling Analysis
作者:Jin, Shubo;Xiong, Yiwei;Zhang, Wenyi;Qiao, Hui;Wu, Yan;Jiang, Sufei;Fu, Hongtuo;Jin, Shubo;Fu, Hongtuo
关键词:pyruvate dehydrogenase E1; testis; androgenic gland; RNA-Seq; male reproduction
-
Beneficial effects of American ginseng (Panax quinquefolius L.) extract residue as a feed additive on production, health status, and gastrointestinal bacteria in sika deer (Cervus nippon)
作者:Wu, Yan;Zhao, Shuting;Qu, Zhengyi;Hou, Wei;Yuan, Weitao;Wang, Kaiying;Zheng, Peihe;Liu, Hanlu;Feng, Tao;Zhan, Xiaofeng;Shen, Jinlong
关键词:American ginseng residue; antioxidant; gastrointestinal bacteria; rumen fermentation; sika deer
-
MiR-106a-5p by Targeting MAP3K2 Promotes Repair of Oxidative Stress Damage to the Intestinal Barrier in Prelaying Ducks
作者:Zhang, Li;Luo, Xiang;Tang, Rui;Wu, Yan;Liang, Zhenhua;Pi, Jinsong;Zhang, Hao;Zhang, Li;Luo, Xiang;Tang, Rui;Liu, Jingbo
关键词:apla-miR-106a-5p; intestinal barrier function; oxidative stress; prelaying ducks
-
Multi-omic characterization of allele-specific regulatory variation in hybrid pigs
作者:Quan, Jianping;Wang, Xingwang;Cai, Gengyuan;Ding, Rongrong;Zhuang, Zhanwei;Zhou, Shenping;Ruan, Donglin;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Meng, Fanming;Wu, Jie;Xu, Cineng;Qiu, Yibin;Wang, Shiyuan;Lin, Meng;Li, Shaoyun;Ye, Yong;Zhou, Fuchen;Lin, Danyang;Li, Xuehua;Deng, Shaoxiong;Zhang, Yuling;Yao, Zekai;Yang, Yingshan;Liu, Yiyi;Zhan, Yuexin;Zhang, Jiaming;Ma, Fucai;Yang, Jifei;Chen, Qiaoer;Yang, Jisheng;Gu, Ting;Huang, Sixiu;Xu, Zheng;Li, Zicong;Yang, Jie;Wu, Zhenfang;Quan, Jianping;Ding, Rongrong;Tan, Suxu;Huang, Wen;Quan, Jianping;Cai, Gengyuan;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Lin, Meng;Huang, Sixiu;Yang, Jie;Quan, Jianping;Ding, Rongrong;Ye, Jian;Dong, Linsong;Wu, Zhenfang;Yang, Ming;Gao, Xin;Liu, Zhihong;Yang, Ming;Ding, Rongrong;Ye, Jian;Dong, Linsong;Wu, Zhenfang;Wang, Xingwang;Cai, Gengyuan;Zhuang, Zhanwei;Zhou, Shenping;Ruan, Donglin;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Wu, Jie;Xu, Cineng;Qiu, Yibin;Wang, Shiyuan;Li, Shaoyun;Ye, Yong;Zhou, Fuchen;Lin, Danyang;Li, Xuehua;Deng, Shaoxiong;Zhang, Yuling;Yao, Zekai;Yang, Yingshan;Liu, Yiyi;Zhan, Yuexin;Zhang, Jiaming;Ma, Fucai;Yang, Jifei;Gu, Ting;Xu, Zheng;Li, Zicong;Yang, Jie;Meng, Fanming
关键词:
