Safety assessment of subchronic feeding of insect-resistant and herbicide-resistant transgenic soybeans to juvenile channel catfish (Ictalurus punctatus)
文献类型: 外文期刊
第一作者: Xiang, Dan
作者: Xiang, Dan;Wen, Zhengrong;Chen, Xiaoyun;Wang, Xiaofu;Xu, Xiaoli;Wei, Wei;Xu, Junfeng;Xiang, Dan;Luo, Mingzhong;Wen, Zhengrong;Jiang, Fukun
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.6; 五年影响因子:4.9 )
ISSN: 2045-2322
年卷期: 2023 年 13 卷 1 期
页码:
收录情况: SCI
摘要: Transgenic soybean is one of the most planted crops for human food and animal feed. The channel catfish (Ictalurus punctatus) is an important aquatic organism cultured worldwide. In this study, the effect of six different soybean diets containing: two transgenic soybeans expressing different types of cp4-epsps, Vip3Aa and pat genes (DBN9004 and DBN8002), their non-transgenic parent JACK, and three conventional soybean varieties (Dongsheng3, Dongsheng7, and Dongsheng9) was investigated in juvenile channel catfish for eight weeks, and a safety assessment was performed. During the experiment, no difference in survival rate was observed in six groups. The hepatosomatic index (HSI) and condition factor (CF) showed no significant difference. Moreover, comparable feed conversion (FC), feeding rate (FR), and feed conversion ratio (FCR) were found between transgenic soybean and JACK groups. Assessment of growth performance showed that the weight gain rate (WGR) and specific growth rate (SGR) of channel catfish were consistent. In addition, there were no changes in enzyme activity indexes (lactate dehydrogenase (LDH), total antioxidant capacity (T-AOC), aspartate aminotransferase (AST) and alanine aminotransferase (ALT)) in channel catfish among treatments. The research provided an experimental basis for the aquaculture feed industry to employ transgenic soybean DBN9004 and DBN8002 for commercial purposes.
分类号:
- 相关文献
作者其他论文 更多>>
-
Tillage effect on soil N uptake and utilization by the changes of chiA and aprA gene under parallel nitrogen application
作者:Ran, Linling;Wang, Junqiang;Wu, Haoyang;Xue, Yunyin;Hu, Xinkun;Qiu, Xiaoqin;Yan, Shuang;Wang, Jinglong;Wei, Wei;Wang, Jinglong;Wei, Wei;Shi, Hao;Zheng, Shaikun
关键词:Tillage; chiA; aprA; Nitrogen; Nitrogen uptake efficiency (NUpE); Nitrogen utilization efficiency (NUtE)
-
Tillage effects on maize yield, N use efficiency and GHG emissions under parallel N application in Northwest China
作者:Wu, Hao-yang;Ran, Lin-ling;Wang, Jun-qiang;Yan, Shuang;Zhang, Yu;Shi, Hao;Zheng, Shai-kun;Xue, Yun-yin;Wang, Jun-qiang;Xia, Fei;Wei, Wei
关键词:Tillage practices; Maize yield; NUE; N balance and N surplus; GHG emission; Semi-arid agroecosystem
-
The CXCL8/MAPK/hnRNP-K axis enables susceptibility to infection by EV-D68, rhinovirus, and influenza virus in vitro
作者:Yang, Qingran;Yang, Qingran;Guo, Haoran;Li, Huili;Li, Zhaoxue;Ni, Fushun;Wei, Wei;Wen, Zhongmei;Liu, Kai;Kong, Huihui;Kong, Huihui;Wei, Wei
关键词:
-
Combined exposure to microplastics and copper elicited size-dependent uptake and toxicity responses in red swamp crayfish ( Procambarus clarkia)
作者:Zeng, Huixin;Zhong, Yanfei;Luo, Mingzhong;Wei, Wei;Xu, Xiaoli
关键词:Microplastics; Copper; Accumulation; Combined toxicity; Antioxidant enzyme
-
A Novel Quantification Method for Gene-Edited Animal Detection Based on ddPCR
作者:Wang, Kaili;Lan, Hangzhen;Ji, Yi;Peng, Cheng;Wang, Xiaofu;Yang, Lei;Xu, Junfeng;Chen, Xiaoyun;Ji, Yi;Peng, Cheng;Wang, Xiaofu;Yang, Lei;Xu, Junfeng;Chen, Xiaoyun
关键词:gene editing; MSTN; nucleic acid detection; ddPCR
-
Ingenious integration of synthetic biology and droplet microfluidics
作者:Zhang, Panrui;Wu, Haoyu;Zhang, Runxin;Zhao, Danshan;Wei, Wei;Yang, Qiaoyi;Shi, Tianqiong;Wang, Yuetong;Zhang, Panrui;Wu, Haoyu;Zhang, Runxin;Zhao, Danshan;Wei, Wei;Yang, Qiaoyi;Shi, Tianqiong;Wang, Yuetong;Wang, Zhe;Wang, Zhe
关键词:Synthetic biology; Droplet microfluidics; High-throughput; Green biofabrication; Cell-free systems
-
Beyond Single-Pathogen Models: Understanding Mixed Infections Involving Phytoplasmas and Other Plant Pathogens
作者:Yu, Shao-Shuai;Wei, Wei
关键词:'one pathogen, one disease' concept; plant pathobiome paradigm; co-infection; unculturable plant pathogen; plant disease prevention
