农科机构知识库联盟

Sulfated glucan can improve the immune efficacy of Newcastle disease vaccine in chicken

文献类型：外文期刊

第一作者： Wang, Mi

作者： Wang, Mi;Yang, Ruile;Zhang, Lifang;Meng, Xinyu;Fei, Chenzhong;Zhang, Keyu;Wang, Xiaoyang;Zheng, Wenli;Xiao, Sui;Zhang, Saiqi;Xue, Feiqun;Wang, Mi;Hu, Yuanliang

作者机构：

关键词： Sulfated glucan from Saccharomyces;cerevisiae;Newcastle disease vaccine;Serum antibody titer;Lymphocyte proliferation;Cytokines

期刊名称：INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES （影响因子：6.953；五年影响因子：6.737 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： To evaluate the immune effect of sulfated glucan from saccharomyces cerevisiae (_sGSC) on chickens, two experiments were researched. In vitro experiment, the effects of _sGSC on chicken splenic lymphocyte proliferation were determined. The results displayed that _sGSC could significantly stimulate chicken splenic lymphocyte proliferation. In vivo experiment, 200 14-day-old chickens were averagely divided into 5 groups. The chickens, except blank control (BC) group, were vaccinated with Newcastle disease (ND) vaccine, repeated vaccination at 28 days old. At the same time of the first vaccination, the chickens in three _sGSC groups were injected, respectively, with the _sGSC at low, medium and high concentrations, in vaccination control (VC) and BC group, with equal volume of physiological saline, once a day for three successive days. On days 7, 14, 21,28,35 and 42 after the first vaccination, the lymphocyte proliferation, serum antibody titer and interleukin-2 (IL-2) and interferon-gamma (IFN-γ) were measured. The results showed that _sGSC at suitable dose could significantly promote lymphocyte proliferation, enhance serum antibody titer, and improve serum IL-2 and IFN-γ concentrations. It indicated that _sGSC could significantly improve the immune efficacy of Newcastle disease vaccine, and would be as the candidate of a new-type immune adjuvant.

分类号： Q71

相关文献

[1]Cordyceps militaris polysaccharides can improve the immune efficacy of Newcastle disease vaccine in chicken. Wang, Mi,Qin, Tao,Hu, Yuanliang,Wang, Mi,Meng, Xinyu,Yang, Ruile,Li, Ying,Zhang, Lifang,Fei, Chengzhong,Zhen, Wenli,Zhang, Keyu,Wang, Xiaoyang,Xue, Feiqun.

[2]Effect of epimedium polysaccharide-propolis flavone immunopotentiator on immunosuppression induced by cyclophosphamide in chickens. Fan, Yunpeng,Wang, Deyun,Liu, Jiaguo,Zhao, Xiaojuan,Luong Nguyen,Hu, Yuanliang,Fan, Yunpeng,Song, Xiaoping,Zhang, Weimin,Lu, Yu.

[3]Immune-enhancing activity comparison of sulfated ophiopogonpolysaccharide and sulfated jujube polysaccharide. Zhang, Jing,Wang, Deyun,Hu, Yuanliang,Qin, Tao,Liu, Cui,Sheng, Xin,The Luong Nguyen,Chen, Jin,Zhang, Cunshuai.

[4]Co-expression of human protein disulfide isomerase (hPDI) enhances secretion of bovine follicle-stimulating hormone (bFSH) in Pichia pastoris. Huo, Xiangdong,Liu, Yueyong,Wang, Xu,Ouyang, Pingkai,Niu, Zhengdong,Shi, Yuhu,Qiu, Bingsheng.

[5]Enhancement of mucosal immune responses by intranasal co-delivery of Newcastle disease vaccine plus CpG oligonucleotide in SPF chickens in vivo. Zhang, Linghua,Zhang, Meirong,Li, Jiaoqing,Cao, Ting,Tian, Xingshan,Zhou, Fengzhen. 2008

[6]Compound Chinese herbal medicinal ingredients can enhance immune response and efficacy of RHD vaccine in rabbit. Yang, Longsheng,Hu, Yuanliang,Wang, Deyun,Kong, Xiangfeng,Yang, Longsheng,Xue, Jiabin,Wang, Fang,Xu, Weizhong,Li, Peng,Kong, Xiangfeng,Kong, Xiangfeng. 2008

[7]The Plasma Load of Inoculated EIAV Vaccine Strain EIAV(FDDV) Was Not Boosted by Immune Suppression. Ma Jian,Jiang Cheng-Gang,Lin Yue-Zhi,Guo Liang,Guo Wei,Kong Xian-Gang,Shen Rong-Xian,Zhou Jian-Hua,Ma Jian,Guo Liang,Shao Yi-Ming,Zhang Xiao-Yan. 2008

[8]Effect of supplemental beta-carotene in the periparturient diet on plasma vitamin A and beta-carotene concentrations and lymphocyte proliferation in Holstein cows. He, W. J.,Ren, L. P.,Meng, Q. X.,He, W. J.,Ren, L. P.,Meng, Q. X.,Zhang, Q. D.. 2007

[9]Hypoglycemic Activity of Polysaccharide from Fruiting Bodies of the Shaggy Ink Cap Medicinal Mushroom, Coprinus comatus (Higher Basidiomycetes), on Mice Induced by Alloxan and Its Potential Mechanism. Zhou, Shuai,Liu, Yanfang,Yang, Yan,Tang, Qingjiu,Zhang, Jingsong.

[10]Immunomodulatory activities of a new pentapeptide (Bursopentin) from the chicken bursa of Fabricius. Li, D. Y.,Chen, P. Y.,Geng, Z. R.,Zhu, H. F.,Miao, D. N.,Wang, C..

[11]Optimization of selenylation conditions for Chinese angelica polysaccharide based on immune-enhancing activity. Qin, Tao,Wang, Deyun,Hu, Yuanliang,Wang, Mi,Zhang, Jing,Nguyen, The Luong,Liu, Cui,Liu, Xu,Chen, Jin.

[12]Development of liposomal Ganoderma lucidum polysaccharide: Formulation optimization and evaluation of its immunological activity. Liu, Zhenguang,Huang, Yee,Bo, Ruonan,Gao, Zhenzhen,Yu, Yun,Hu, Yuanliang,Liu, Jiaguo,Wu, Yi,Wang, Deyun,Ma, Xia,Deng, Bihua.

[13]Modification of lily polysaccharide by selenylation and the immune-enhancing activity. Hou, Ranran,Yue, Chanjuan,Li, Xiuping,Liu, Jie,Gao, Zhenzhen,Liu, Cui,Wang, Deyun,Hu, Yuanliang,Chen, Jin,Lu, Yu,Li, Hongquan.

[14]Selenylation modification can enhance immune-enhancing activity of Chinese angelica polysaccharide. Qin, Tao,Wang, Deyun,Hu, Yuanliang,Zhang, Jing,Wang, Mi,Qiu, Shulei,Gao, Zhenzhen,Liu, Rongrong,Yu, Yun,Huang, Yee,Wang, Qiaoxiu,Chen, Jin,Wang, Qiaochu.

[15]Optimization of selenylation modification for garlic polysaccharide based on immune-enhancing activity. Gao, Zhenzhen,Qiu, Shulei,Li, Youying,Wang, Deyun,Liu, Cui,Li, Xiuping,Hou, Ranran,Yue, Chanjuan,Liu, Jie,Hu, Yuanliang,Chen, Jin,Li, Hongquan.

[16]The Selenylation Modification of Epimedium Polysaccharide and Isatis Root Polysaccharide and the Immune-enhancing Activity Comparison of Their Modifiers. Li, Xiuping,Hou, Ranran,Yue, Chanjuan,Liu, Jie,Gao, Zhenzhen,Wang, Deyun,Liu, Cui,Hu, Yuanliang,Li, Xiuping,Chen, Jin,Lu, Yu.

[17]Humoral and cellular immune responses to Fasciola gigantica experimental infection in buffaloes. Zhang, WY,Moreau, E,Yang, BZ,Li, ZQ,Hope, JC,Howard, CJ,Huang, WY,Chauvin, A. 2006

[18]Effects of different cytokines on immune responses of rainbow trout in a virus DNA vaccination model. Cao, Yongsheng,Xu, Liming,Li, Shaowu,Wang, Di,Zhao, Jingzhuang,Liu, Hongbai,Lu, Tongyan,Cao, Yongsheng,Zhang, Qiya,Feng, Jian. 2017

[19]Infection of Goose with Genotype VIId Newcastle Disease Virus of Goose Origin Elicits Strong Immune Responses at Early Stage. Xu, Qianqian,Chen, Yuqiu,Zhao, Wenjun,Zhang, Tingting,Liu, Chenggang,Qi, Tianming,Ma, Deying,Xu, Qianqian,Chen, Yuqiu,Zhao, Wenjun,Zhang, Tingting,Liu, Chenggang,Qi, Tianming,Han, Zongxi,Shao, Yuhao,Liu, Shengwang. 2016

[20]Innate Immune Responses in ALV-J Infected Chicks and Chickens with Hemangioma In Vivo. Feng, Min,Xie, Tingting,Li, Zhenhui,Zhang, Xiquan,Feng, Min,Xie, Tingting,Li, Zhenhui,Zhang, Xiquan,Feng, Min,Xie, Tingting,Li, Zhenhui,Zhang, Xiquan,Dai, Manman,Shi, Meiqing. 2016

作者其他论文更多>>

Genome-wide CRISPR screens identify CLC-2 as a drug target for anti-herpesvirus therapy: tackling herpesvirus drug resistance

作者：Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Tong, Wu;Liu, Changlong;Tong, Guangzhi;Gu, Feng;Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Gu, Feng;Yang, Fayu;Lan, Qingping;Kuang, Ersheng;Zheng, Bo

关键词：herpesviruses; CRISPR; host-directed therapy; CLC-2; DIDS
Comparative transcriptome analysis and functional verification revealed that GhSAP6 negatively regulates salt tolerance in upland cotton

作者：Peng, Zhen;Rehman, Abdul;Jiang, Xuran;Tian, Chunyan;Li, Hongge;Azhar, Muhammad Tehseen;Du, Xiongming;He, Shoupu;Peng, Zhen;Wang, Zhenzhen;Li, Hongge;Wang, Xiaoyang;Du, Xiongming;He, Shoupu;Peng, Zhen;Li, Hongge;Du, Xiongming;He, Shoupu;Ahmad, Adeel;Azhar, Muhammad Tehseen

关键词：GhSAP6; Salt stress; Transcriptome; Upland cotton; Y2H; LCI
Discovery of xanthone-based nitric oxide donors targeting biofilm clearance

作者：Tang, Qun;Ye, Wenchong;Lv, Sai;Zhang, Keyu;Han, Xiangan;Wang, Chunmei;Wang, Xiaoyang;Zhou, Wen;Tang, Qun;Ye, Wenchong;Lv, Sai;Zhang, Keyu;Wang, Chunmei;Wang, Xiaoyang;Zhou, Wen;Chandarajoti, Kasemsiri;Chandarajoti, Kasemsiri;Ge, Rile;Bai, Han

关键词：biofilm clearance; biofilm infection; nitric oxide (NO); alpha-mangostin-based NO donors
Late embryogenesis abundant gene GhLEA-5 of semi-wild cotton positively regulates salinity tolerance in upland cotton

作者：Tian, Chunyan;Rehman, Abdul;Li, Hongge;Du, Xiongming;Peng, Zhen;He, Shoupu;Wang, Xiaoyang;Li, Hongge;Du, Xiongming;Peng, Zhen;He, Shoupu;Peng, Zhen;He, Shoupu;Wang, Zhenzhen;Ma, Jun

关键词：Cotton; Salt tolerance; GhLEA-5; Functional verification
The stock enhancement for blackhead seabream (Acanthopagrus schlegelii): Insights from whole-genome resequencing

作者：Wang, Xiaoyang;Yang, Yanyan;Song, Na;Zhang, Hu;Shi, Yunrong;Xu, Anle;Zhang, Xiumei

关键词：Acanthopagrus schlegelii; Whole-genome resequencing; Stock enhancement; Population genomics; Paternity analysis
Genome-wide identification of SERKs in four Gossypium species reveals GhBAK1 potentially promotes cotton defoliation

作者：Qin, Ning;Du, Xiongming;Li, Hongge;Qin, Ning;Tian, Yuan;Rehman, Abdul;Ma, Xinli;Wang, Xiaoyang;Wang, Xiangru;Peng, Zhen;Pan, Zhaoe;He, Shoupu;Du, Xiongming;Li, Hongge;Tian, Yuan;Rehman, Abdul;Ma, Xinli;Peng, Zhen;He, Shoupu;Du, Xiongming;Li, Hongge

关键词：Cotton; SERKs; Genome-wide identification; Gene expression; Defoliant
Identification of UDP-glucosyltransferase involved in the biosynthesis of phloridzin in Gossypium hirsutum

作者：Zhang, Xiaomeng;Tian, Xinquan;Luo, Junyu;Wang, Xiaoyang;He, Shoupu;Pan, Zhaoe;Chen, Baojun;Hu, Daowu;Wang, Liru;Pang, Baoyin;Xing, Aishuang;Fu, Guoyong;Wang, Baoquan;Cui, Jinjie;Ma, Lei;Du, Xiongming;Zhang, Xiaomeng;Sun, Gaofei;Dai, Panhong;He, Shoupu;Dong, Ruidan;Ma, Lei;Du, Xiongming;He, Shoupu;Du, Xiongming;Wang, Xiao

关键词：phloridzin; GWAS; molecular docking; population transcriptome analysis; overexpression

Sulfated glucan can improve the immune efficacy of Newcastle disease vaccine in chicken

作者其他论文 更多>>

Genome-wide CRISPR screens identify CLC-2 as a drug target for anti-herpesvirus therapy: tackling herpesvirus drug resistance

Comparative transcriptome analysis and functional verification revealed that GhSAP6 negatively regulates salt tolerance in upland cotton

Discovery of xanthone-based nitric oxide donors targeting biofilm clearance

Late embryogenesis abundant gene GhLEA-5 of semi-wild cotton positively regulates salinity tolerance in upland cotton

The stock enhancement for blackhead seabream (Acanthopagrus schlegelii): Insights from whole-genome resequencing

Genome-wide identification of SERKs in four Gossypium species reveals GhBAK1 potentially promotes cotton defoliation

Identification of UDP-glucosyltransferase involved in the biosynthesis of phloridzin in Gossypium hirsutum

作者其他论文更多>>