农科机构知识库联盟

NOD-like subfamily of the nucleotide-binding domain and leucine-rich repeat containing family receptors and their expression in channel catfish

文献类型：外文期刊

第一作者： Sha, Zhenxia

作者： Sha, Zhenxia;Abernathy, Jason W.;Wang, Shaolin;Li, Ping;Kucuktas, Huseyin;Liu, Hong;Peatman, Eric;Liu, Zhanjiang;Sha, Zhenxia

作者机构：

关键词： NLR;Receptor;Catfish;Fish;Ictalurus punctatus;Immunity;Disease resistance;NACHT;NOD;CARD;Pathogen recognition

期刊名称：DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY （影响因子：3.636；五年影响因子：3.654 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： The NLRs (nucleotide-binding domain and leucine-rich repeat containing family receptors) area recently identified family of pattern recognition receptors in vertebrates. Several subfamilies of NLRs have been characterized in human, mouse, and zebrafish, but studies of NLRs in other species. especially teleost species, have been lacking. Here we report characterization of five NLRs from channel catfish: NOD1, NOD2, NLRC3, NLRC5, and NLRX1. Structural analysis indicated that the genes were organized in a similar fashion as in the mammals and in zebrafish. Phylogenetic analysis suggested that they were orthologous to the NOD-like subfamily of NLRs. All five NOD-like genes exist as a single copy gene in the catfish genome. Hybridization of gene-specific probes allowed mapping of three NLR genes to the catfish physical map, laying a foundation for genome characterization and for establishing orthologies with NLR genes from other species. These genes are widely expressed in various tissues and leukocyte cell lines. While the majority of the NLR genes appeared to be constitutively expressed, NOD1 was induced after infection with a bacterial pathogen, Edwardsiella ictaluri, the causative agent of enteric septicemia of catfish (ESC), suggesting its involvement in immunity against the intracellular pathogen.

分类号： R392

相关文献

[1]Pathogen recognition receptors in channel catfish: I. Identification, phylogeny and expression of NOD-like receptors. Rajendran, K. V.,Zhang, Jiaren,Liu, Shikai,Kucuktas, Huseyin,Wang, Xiuli,Liu, Hong,Sha, Zhenxia,Terhune, Jeffery,Peatman, Eric,Liu, Zhanjiang,Rajendran, K. V.,Zhang, Jiaren,Liu, Shikai,Kucuktas, Huseyin,Wang, Xiuli,Liu, Hong,Sha, Zhenxia,Terhune, Jeffery,Peatman, Eric,Liu, Zhanjiang,Rajendran, K. V.,Sha, Zhenxia.

[2]The two channel catfish intelectin genes exhibit highly differential patterns of tissue expression and regulation after infection with Edwardsiella ictaluri. Takano, Tomokazu,Sha, Zhenxia,Peatman, Eric,Terhune, Jeffery,Li, Hong,Kucuktas, Huseyin,Li, Ping,Liu, Zhanjiang,Sha, Zhenxia,Edholm, Eva-Stina,Wilson, Melanie.

[3]The warm temperature acclimation protein Wap65 as an immune response gene: Its duplicates are differentially regulated by temperature and bacterial infections. Sha, Zhenxia,Yu, Peng,Takano, Tomokazu,Liu, Hong,Terhune, Jeffrey,Liu, Zhanjiang,Sha, Zhenxia,Liu, Hong. 2008

[4]Structure and expression of transferrin gene of channel catfish, Ictalurus punctatus. Liu, Hong,Takano, Tomokazu,Abernathy, Jason,Wang, Shaolin,Sha, Zhenxia,Jiang, Yanliang,Terhune, Jeffery,Kucuktas, Huseyin,Peatman, Eric,Liu, Zhanjiang,Liu, Hong,Takano, Tomokazu,Abernathy, Jason,Wang, Shaolin,Sha, Zhenxia,Jiang, Yanliang,Terhune, Jeffery,Kucuktas, Huseyin,Peatman, Eric,Liu, Zhanjiang,Liu, Hong,Sha, Zhenxia. 2010

[5]BIRC7 gene in channel catfish (Ictalurus punctatus): Identification and expression analysis in response to Edwardsiella tarda, Streptococcus iniae and channel catfish Hemorrhage Reovirus. Li, Min,Wang, Qi-Long,Chen, Song-Lin,Sha, Zhen-Xia,Li, Min,Liu, Yang.

[6]Chinese herbs (Astragalus membranaceus and Lonicera japonica) and boron enhance the non-specific immune response of Nile tilapia (Oreochromis niloticus) and resistance against Aeromonas hydrophila. Ardo, Laszlo,Varadi, Laszlo,Jeney, Zsigmond,Jeney, Galina,Yin, Guojun,Xu, Pao,Szigeti, Gabor.

[7]Nutriphysiological and cytological responses of juvenile channel catfish (Ictalurus punctatus) to dietary oxidized fish oil. Dong, G. F.,Huang, F.,Mei, M. X.,Hu, Q. W.,Liu, H. Y.,Dong, G. F.,Zhu, X. M.,Zhang, L.. 2012

[8]Magnolol protects channel catfish from Aeromonas hydrophila infection via inhibiting the expression of aerolysin. Dong, Jing,Ding, Hao,Liu, Yongtao,Yang, Qiuhong,Xu, Ning,Yang, Yibin,Ai, Xiaohui,Dong, Jing,Ding, Hao,Liu, Yongtao,Yang, Qiuhong,Xu, Ning,Yang, Yibin,Ai, Xiaohui. 2017

[9]Variation analysis and sample size estimation for growth indicators during PIT-tag-assisted family construction of channel catfish (Ictalurus punctatus). Song, Chao,Qiu, Liping,Ming, Junchao,Chen, Jiazhang,Zhong, Liqiang,Chen, Xiaohui,Bian, Wenji.

[10]Editing of the Luteinizing Hormone Gene to Sterilize Channel Catfish, Ictalurus punctatus, Using a Modified Zinc Finger Nuclease Technology with Electroporation. Qin, Zhenkui,Li, Yun,Su, Baofeng,Cheng, Qi,Ye, Zhi,Perera, Dayan A.,Fobes, Michael,Shang, Mei,Dunham, Rex A.,Qin, Zhenkui,Li, Yun,Su, Baofeng,Shang, Mei,Perera, Dayan A..

[11]Hafnia alvei: a Pathogen Causing Infectious Intussusception Syndrome (IIS) in Farmed Channel Catfish Ictalurus punctatus. Cao, Haipeng,He, Shan,Li, Yi,Cao, Haipeng,Yang, Yibin,Ai, Xiaohui. 2016

[12]Expression profiles of toll-like receptors in channel catfish (Ictalurus punctatus) after infection with Ichthyophthirius multifiliis. Zhao, Fei,Pan, Hou-Jun,Shi, Cun-Bin,Wu, Shu-Qin,Zhao, Fei,Li, Yan-Wei,Luo, Xiao-Chun,Li, An-Xing.

[13]Class II, major histocompatibility complex, transactivator (CIITA) in channel catfish: identification and expression patterns responding to different pathogens. Sha, Zhenxia,Liu, Yang,Meng, Yanqing,Wang, Qilong,Sha, Zhenxia.

[14]Characterization, polymorphism assessment, and database construction for microsatellites from BAC end sequences of channel catfish (Ictalurus punctatus): a resource for integration of linkage and physical maps. Somridhivej, Benjapom,Wang, Shaolin,Sha, Zhenxia,Liu, Hong,Quilang, Jonas,Xu, Peng,Li, Ping,Liu, Zhanjiang,Sha, Zhenxia,Liu, Hong,Quilang, Jonas,Hue, Zhiliang.

[15]Spermatogonial stem cells specific marker identification in channel catfish, Ictalurus punctatus and blue catfish, I-furcatus. Shang, Mei,Su, Baofeng,Perera, Dayan A.,Li, Chao,Qin, Zhenkui,Li, Yun,Cek, Sehriban,Peatman, Eric,Dunham, Rex A.,Shang, Mei,Su, Baofeng,Lipke, Elizabeth A.,Dunn, David A.,Li, Chao,Cek, Sehriban.

[16]Expression profile analysis of two cathepsin S in channel catfish (Ictalurus punctatus) mucosal tissues following bacterial challenge. Dong, Xiaoyu,Song, Lin,Li, Chao,Ye, Zhi,Zhao, Honggang,Peatman, Eric,Su, Baofeng.

[17]Exploration of volatile compounds causing off-flavor in farm-raised channel catfish (Ictalurus punctatus) fillet. Liu, Shaoyang,McCrummen, Stephen T.,Liao, Tao,Hanson, Terrill R.,Wang, Yifen.

[18]Analysis of immune-relevant genes expressed in red sea bream (Chrysophrys major) spleen. Chen, SL,Xu, MY,Hu, SN,Li, L.

[19]Galectins in channel catfish, Ictalurus punctatus: Characterization and expression profiling in mucosal tissues. Zhou, Shun,Li, Chao,Zhao, Honggang,Thongda, Wilawan,Zhang, Dongdong,Peatman, Eric,Su, Baofeng,Yu, Dan.

[20]Phenoscape: Identifying Candidate Genes for Evolutionary Phenotypes. Edmunds, Richard C.,Westerfield, Monte,Su, Baofeng,Dunham, Rex A.,Balhoff, James P.,Dahdul, Wasila M.,Lapp, Hilmar,Vision, Todd J.,Eames, B. Frank,Dahdul, Wasila M.,Mabee, Paula M.,Lundberg, John G.,Vision, Todd J.,Edmunds, Richard C.,Su, Baofeng,Balhoff, James P.,Lapp, Hilmar.

作者其他论文更多>>

Integrated Genetic Diversity and Multi-Omics Analysis of Colour Formation in Safflower

作者：Qin, Yonghua;Fan, Kangjun;Yimamu, Aidiya;Zhan, Peng;Lv, Lu;Li, Gang;Liu, Jiao;Liu, Hong;Qin, Rui;Hu, Zunhong;Hu, Xueli;Yan, Xingchu

关键词：Carthamus tinctorius L.; genetic diversity; core germplasm; transcriptome; metabolome
Seaweed residue hydrolysate enhances the intestinal health, immunity and disease resistance in northern snakehead (Channa argus)

作者：Wang, Minmin;Wang, Wenwen;Tan, Suxu;Chang, Mengyang;Shi, Kunpeng;Nie, Yanzhao;Sha, Zhenxia;Guo, Lei;Xue, Hongtao;Yang, Yingming;Wang, Ya;Cao, Xiao;Sha, Zhenxia

关键词：Seaweed residue hydrolysate; Northern snakehead; Intestinal microbiota; Oxidative stress; Immune enhancer; Bacterial infection
Regulating heat-induced fibrous whey protein-wheat starch composite emulsion gels as dysphagia food by preheating temperature: Insights from protein-starch interactions

作者：Wang, Zhiming;Zeng, Jiarui;Deng, Yuanyuan;Zhou, Pengfei;Li, Ping;Zhao, Zhihao;Liu, Guang;Zhang, Mingwei;Wang, Zhiming;Zhang, Mingwei;Zhang, Mingwei

关键词：Texture-modified; IDDSI test; Protein aggregates; Gel network structure; Starch digestibility
Hydrothermal temperature-dependent compositions and copper complexing behaviors of hydrochar-derived dissolved organic matter: Insights from FT-ICR MS and multi-spectroscopic analysis

作者：Chen, Bingfa;You, Bensheng;Chen, Bingfa;Gu, Xincai;Feng, Yanfang;Zheng, Jingcheng;Han, Shiqun;Gu, Xincai;Zheng, Jingcheng;Liu, Hong;Feng, Muhua;Wang, Bingyu;Han, Shiqun

关键词：Hydrochar; Dissolved organic matter; Molecular characterizations; Cu(II) binding; Two-dimensional correlation analysis (2D-COS)
TPT disrupts early embryonic development and glucose metabolism of marine medaka in different salinites

作者：Li, Tengzhou;Liu, Bin;Xing, Shaoying;Liu, Ling;Li, Ping;Li, Zhi-Hua;Li, Luoxin

关键词：Oryzias melastigma; Triphenyltin; Salinity; Insulin signaling pathway
Genome-wide association study and transcriptome analysis provide the SNPs and molecular insights into the visceral nodular disease tolerance in half-smooth tongue sole (Cynoglossus semilaevis)

作者：Chang, Mengyang;Shi, Kunpeng;Xia, Jinqi;Zhang, Ruixue;Li, Yishuai;Zang, Shaoqing;Tan, Suxu;Wang, Wenwen;Sha, Zhenxia;Chen, Songlin;Sha, Zhenxia;Chen, Songlin

关键词：Cynoglossus semilaevis; Visceral nodular disease; GWAS; RNA-seq; Disease tolerance; Multi omics
SHP-1 interacts with NFκB1 to inhibit its phosphorylation and nuclear translocation to exert its anti-bacterial function

作者：Wang, Ningning;Tan, Suxu;Wang, Muyuan;Liu, Hongning;Han, Sen;Wu, Zhendong;Ma, Jie;Chen, Songlin;Sha, Zhenxia;Wang, Ningning;Chen, Songlin;Chen, Songlin;Sha, Zhenxia

关键词：SHP-1; Immune response; Phosphorylation of NF kappa B1; Nuclear translocation

NOD-like subfamily of the nucleotide-binding domain and leucine-rich repeat containing family receptors and their expression in channel catfish

作者其他论文 更多>>

Integrated Genetic Diversity and Multi-Omics Analysis of Colour Formation in Safflower

Seaweed residue hydrolysate enhances the intestinal health, immunity and disease resistance in northern snakehead (Channa argus)

Regulating heat-induced fibrous whey protein-wheat starch composite emulsion gels as dysphagia food by preheating temperature: Insights from protein-starch interactions

Hydrothermal temperature-dependent compositions and copper complexing behaviors of hydrochar-derived dissolved organic matter: Insights from FT-ICR MS and multi-spectroscopic analysis

TPT disrupts early embryonic development and glucose metabolism of marine medaka in different salinites

Genome-wide association study and transcriptome analysis provide the SNPs and molecular insights into the visceral nodular disease tolerance in half-smooth tongue sole (Cynoglossus semilaevis)

SHP-1 interacts with NFκB1 to inhibit its phosphorylation and nuclear translocation to exert its anti-bacterial function

作者其他论文更多>>