Exploring the Immunoprotective Potential of a Nanocarrier Immersion Vaccine Encoding Sip against Streptococcus Infection in Tilapia (Oreochromis niloticus)
文献类型: 外文期刊
第一作者: Cao, Ye
作者: Cao, Ye;Wang, Qing;Cao, Ye;Liu, Jia;Liu, Gaoyang;Du, Hui;Liu, Tianqiang;Wang, Gaoxue;Wang, Erlong;Cao, Ye;Liu, Jia;Liu, Gaoyang;Du, Hui;Liu, Tianqiang;Wang, Gaoxue;Wang, Erlong;Zhou, Ya
作者机构:
关键词: Streptococcus; surface immunogenic protein; immersion immunization; Tilapia
期刊名称:VACCINES ( 影响因子:7.8; 五年影响因子:7.4 )
ISSN:
年卷期: 2023 年 11 卷 7 期
页码:
收录情况: SCI
摘要: Tilapia, as one of the fish widely cultured around the world, is suffering severe impact from the streptococcus disease with the deterioration of the breeding environment and the increasing of breeding density, which brings serious economic loss to tilapia farming. In this study, the surface immunogenic protein (Sip) of Streptococcus agalactiae (S. agalactiae) was selected as the potential candidate antigen and connected with bacterial nano cellulose (BNC) to construct the nanocarrier subunit vaccine (BNC-rSip), and the immersion immune effects against S. agalactiae and Streptococcus iniae (S. iniae) in Nile tilapia were evaluated on the basis of the serum antibody level, non-specific enzyme activity, the immune-related gene expression and relative percent survival (RPS). The results indicated that Sip possessed the expected immunogenicity according to the immunoinformatic analysis. Compared with the rSip group, BNC-rSip significantly induced serum antibody production and improved the innate immunity level of tilapia. After challenge, the RPS of BNC-rSip groups were 78.95% (S. agalactiae) and 67.86% (S. iniae), which were both higher than those of rSip groups,31.58% (S. agalactiae) and 35.71% (S. iniae), respectively. Our study indicated that BNC-rSip can induce protective immunity for tilapia through immersion immunization and may be an ideal candidate vaccine for controlling tilapia streptococcal disease.
分类号:
- 相关文献
作者其他论文 更多>>
-
Dynamic changes in the skin transcriptome for the melanin pigmentation in embryonic chickens
作者:Leng, Dong;Feng, Chungang;Leng, Dong;Yang, Maosen;Huang, Zhiying;Li, Mengmeng;Wang, Tao;Li, Diyan;Miao, Xiaomeng;Liu, Jia;Yang, Maosen;Huang, Zhiying
关键词:chicken; skin; transcriptome; embryo; melanin pigmentation
-
Multiomics analyses of the effects of LED white light on the ripening of apricot fruits
作者:Bai, Chunmei;Ma, Lili;Jiang, Yuanye;Wu, Caie;Bai, Chunmei;Zheng, Yanyan;Ma, Lili;Jiang, Yuanye;Chen, Shaoqing;Wang, Hongwei;He, Xuelian;Han, Lichun;Zhou, Xinyuan;Wang, Qing;Zuo, Jinhua;Watkins, Christopher Brian
关键词:Light-emitting diodes; Transcriptomics; Metabolomics; ATAC-Seq
-
Genome-Wide Identification and Comprehensive Analysis of the PPO Gene Family in Glycine max and Glycine soja
作者:Song, Ziye;Dong, Yingshan;Song, Ziye;Wang, Bo;Liu, Jia;Liu, Nianxi;Yi, Zhigang;Li, Zhi;Dong, Zhimin;Zhang, Chunbao;Dong, Yingshan;Li, Yuqiu
关键词:
Glycine max ;Glycine soja ;PPO ; gene family -
Application of microalgae in remediation of heavy metal-contaminated soils and its stimulatory effect on wheat growth
作者:Liu, Jia;Liu, Yajing;Jiang, Han;Yang, Xiaokun;Wu, Yukun;Liang, Chengwei;Zhang, Xiaowen;Ye, Naihao;Zhang, Xiaowen;Ye, Naihao
关键词:Microalgae; Heavy metal-contaminated soils; Bioremediation; Soil fertility; Wheat growth
-
Storage temperature affects metabolism of sweet corn
作者:Liu, Shiyu;Zhou, Xinyuan;Wang, Yunxiang;Wang, Qing;Ma, Lili;Zuo, Jinhua;Zheng, Yanyan;Liu, Shiyu;Wu, Cai'e;Wang, Ronghuan;Shi, Yaxing;Watkins, Christopher B.
关键词:Transcriptome; Metabolome; Texture; Phytohormone; Quality
-
Autophagy promotes p72 degradation and capsid disassembly during the early phase of African swine fever virus infection
作者:Song, Jie;Li, Jiangnan;Li, Shuai;Zhao, Gaihong;Li, Tingting;Chen, Xin;Liu, Jia;Lai, Xinyu;Liu, Sitong;Zhou, Qiongqiong;Huang, Li;Weng, Changjiang;Li, Jiangnan;Li, Tingting;Huang, Li;Weng, Changjiang;Hu, Boli
关键词:African swine fever virus; p72; selective autophagy; Stub1; HSPA8; capsid disassembly
-
Roles and Regulations of Acid Invertases in Plants: Current Knowledge and Future Perspectives
作者:Liu, Jia;Cheng, Yuan;Ruan, Meiying;Ye, Qingjing;Wang, Rongqing;Yao, Zhuping;Zhou, Guozhi;Li, Zhimiao;Liu, Chenxu;Wan, Hongjian;Liu, Jia;Wan, Hongjian
关键词:acid invertases (Ac-Invs); plant physiology; hormonal regulation; environmental stress responses
