鸡催乳素受体基因多态性与就巢及产蛋性状的关联分析

doi:10.3864/j.issn.0578-1752.2013.12.017

Abstract

Abstract: 【Objective】 In order to reveal the relationship between bloodiness and egg reproduction of Chinese indigenous chicken and prolactin receptor (PRLR) gene,which closely related to reproductive traits among amimals.【Method】Using the PCR-SSCP method and 576 Ningdu Yellow chicken, the experiment studied the polymorphism of PRLR gene and its association with nesting and egg production traits.【Result】The results confirmed previous studies that SNP1 (T10862C, exon 3) and SNP2 (T25670C, exon 6) had no significant association with broody traits (P＞0.05). The effect of SNP2 on egg production of 300 d (EN-300 d) was significantly (P＜0.05). The new SNP3 (G30716A, intron 8) significantly influenced the age at first egg (AFG) (P＜0.05). The novel SNP4 (A31900G, exon 10) had an extremely remarkable (P＜0.01) impact on the nesting rate, significant (P＜0.05) impact on the total broody days and EN-300 d. The differences among different haplotypes constructed by the four SNPs, in AFG reached an extremely significant level (P＜0.01), in other traits were no significant differences (P＞0.05). 【Conclusion】 PRLR gene polymorphism was associated with broodiness and egg production traits, especially the effect of SNP4.

Key words: Ningdu yellow chicken , PRLR gene , polymorphism , broodiness , egg production traits

DU Xiao-Hui, LI Cong-Yan, LIU Jun-Ying, NIU Wei-He, ZHANG Xi-Quan. Polymorphism of Chicken Prolactin Receptor Gene and It’s Association with Broodiness and Egg Reproduction Traits[J].Scientia Agricultura Sinica, 2013, 46(12): 2558-2565.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://www.chinaagrisci.com/EN/10.3864/j.issn.0578-1752.2013.12.017

https://www.chinaagrisci.com/EN/Y2013/V46/I12/2558

References

[1]Proudman J A. Circulating prolactin levels at the end of the photophase and the end of the scotophase throughout the reproductive cycle of the turkey hen. Poultry Science, 1998, 77(2): 303-308.

[2]Sharp P J, MacNamee M C, Talbot R T, Sterling R J, Hall T R. Aspects of the neuroendocrine control of ovulation and broodiness in the domestic hen. The Journal of Experimental Zoology, 1984, 232(3): 475-483.

[3]Chen C F, Shiue Y L, Yen C J, Tang P C, Chang H C, Lee Y P. Laying traits and underlying transcripts, expressed in the hypothalamus and pituitary gland, that were associated with egg production variability in chickens. Theriogenology, 2007, 68(9): 1305-1315.

[4]Bole-Feysot C, Goffin V, Edery M, Binart N, Kelly P A. Prolactin (PRL) and its receptor: actions, signal transduction pathways and phenotypes observed in PRL receptor knockout mice. Endocrine Reviews, 1998, 19(5): 225-268.

[5]谭敦勇, 彭湘萍. 催乳素受体研究. 生理科学进展, 2012, 43(1): 17-23.

Tan D Y, Peng X P. Progress in prolactin receptor research. Progress in Physiological Sciences, 2012, 43(1): 17-23. (in Chinese)

[6]Tan D, Chen K E, Khoo T, Walker A M. Prolactin increases survival and migration of ovarian cancer cells: importance of prolactin receptor type and therapeutic potential of S179D and G129R receptor antagonists. Cancer Letters, 2011, 310(1): 101-108.

[7]Vincent A L, Tuggle C K, Rothschild M F, Evans G, Short T H, Southwood O I, Plastow G S, Tuggle C, Rothschild M. The prolactin receptor gene is associated with increased litter size in pigs. Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, Armidale, Australia, 1998: 15-18.

[8]Drogemuller C, Hamann H, Distl O. Candidate gene markers for litter size in different German pig lines. Journal of Animal Science, 2001, 79(10): 2565-2570.

[9]Linville R C, Pomp D, Johnson R K, Rothschild M F. Candidate gene analysis for loci affecting litter size and ovulation rate in swine. Journal of Animal Science, 2001, 79: 60-67.

[10]Tomas A, Casellas J, Ramirez O, Munoz G, Noguera J L, Sanchez A. High amino acid variation in the intracellular domain of the pig prolactin receptor(PRLR) and its relation to ovulation rate and piglet survival traits. Journal of Animal Science, 2006, 84(8): 1991-1998.

[11]Tempfli K, Farkas G, Simon Z, Papp A B. Effects of prolactin receptor genotype on the litter size of Mangalica. Acta Veterinaria Hungarica, 2011, 59(2): 269-277.

[12]郑心力, 王峰, 孙瑞萍, 黄丽丽, 晁哲, 魏立民. 海南黑山羊PRLR内含子Ⅰ和Ⅱ多态性与产羔数的相关分析. 畜牧与兽医, 2012, 44(9): 25-28.

Zheng X L, Wang F, Sun R P, Huang L L, Chao Z, Wei L M. Polymorphism of intron Ⅰ and Ⅱ of PRLR genes and its relation to prolificacy in hainan black goats. Animal Husbandry and Veterinary Medicine, 2012, 44(9): 25-28. (in Chinese)

[13]Li G, An X P, Fu M Z, Hou J X, Sun R P, Zhu G Q, Wang J G,Cao B Y. Polymorphism of PRLR and LHβ genes by SSCP marker and their association with litter size in Boer goats. Livestock Science, 2011, 136(2): 281-286.

[14]张向楠, 孙伟, 储明星, 张有法, 陈玲, 吴文忠, 周洪, 徐厚生. 绵羊催乳素受体基因外显子10多态性及其与产羔数相关分析. 中国畜牧杂志, 2012, 48(17): 1-5.

Zhang X N, Sun W, Chu M X, Zhang Y F, Chen L, Wu W Z, Zhou H, Xu H S. Analysis on genetic polymorphism of exon 10 of prolactin receptor gene and its relationship with litter size of sheep. Chinese Journal of Animal Science, 2012, 48(17): 1-5. (in Chinese)

[15]陈勇, 雒秋江, 杨菊清, 杨风云, 张亚军, 李登忠, 朱文渊. 绵羊PRLR基因内含子9和外显子10多态性与产羔数的关系研究. 中国畜牧兽医, 2010, 37(1): 100-106.

Chen Y, Luo Q J, Yang J Q, Yang F Y, Zhang Y J, Li D Z, Zhu W Y. Relationships between genetic polymorphisms of intron 9 and exon 10 of prolactin rceptor gene and litter size of sheep. China Animal Husbandry and Veterinary Medicine, 2010, 37(1): 100-106. (in Chinese)

[16]李广录, 赵宗胜, 薛安勇, 许汉峰, 阿米娜. 绵羊催乳素受体基因外显10的多态性分析. 生物技术, 2009, 36(1): 45-49.

Li G L, Zhao Z S, Xue A Y, Xu H F, Amina. Polymorphism analysis for exon 10 of prolactin receptor gene in sheep. China Animal Husbandry and Veterinary Medicine, 2009, 36(1): 45-49. (in Chinese)

[17]Lü A, Hu X, Chen H, Dong Y, Zhang Y, Wang X. Novel SNPs of the bovine PRLR gene associated with milk production traits. Biochemical Genetics, 2011, 49(3/4): 177-189.

[18]Lü A, Hu X, Chen H, Dong Y, Pang Y. Single nucleotide polymorphisms of the prolactin receptor (PRLR) gene and its association with growth traits in chinese cattle. Molecular Biology Reports, 2011, 38(1): 261-266.

[19]Dunn I C, McEwan G, Okhubo T, Sharp P J, Paton I R, Burt D W. Genetic mapping of the chicken prolactin receptor gene: a candidate gene for the control of broodiness. British Poultry Science, 1998, 39(Suppl.1): 23-24.

[20]Tanaka M, Maeda K, Okubo T, Nakashima K. Double antenna structure of chicken prolactin receptor deduced from the cDNA sequence. Biochemical and Biophysical Research Communications, 1992, 188(2): 490-496.

[21]Jiang R S, Xu G Y, Zhang X Q, Yang N. Association of polymorphisms for prolactin and prolactin receptor genes with broody traits in chickens. Poultry Science, 2005, 84(6): 839-845.

[22]洪坤月, 峰汪, 虞德兵, 杜文兴. 太湖鸡 PRL、PRLR和 FSHβ基因多态与前期产蛋性状关系研究. 西北农业学报, 2007, 16(5): 11-14.

Hong K Y, Wang F, Yu D B, Du W X. Polymorphisms in Taihu chicken of PRL, PRLR and FSHβ genes and association with prophase egg production. Acta Agriculture Boreali-Occidentalis Sinica, 2007, 16(5): 11-14. (in Chinese)

[23]Zhang L, Li D, Liu Y, Wang Y, Zhao X,Zhu Q. Genetic effect of the prolactin receptor gene on egg production traits in chickens. Genetics and Molecular Research, 2012, 11(4): 4307-4315.

[24]赵楠, 刘小林, 侯水生, 王杰, 黄苇. 北京鸭 PRLR 基因的 PCR-SSCP 检测. 西北农业学报, 2008, 17(3): 42-45.

Zhao N, Liu X L, Hou S S, Wang J, Huang W. PCR-SSCP detection of prolactin receptor(PRLR) gene in Peking duck. Acta Agriculture Boreali-Occidentalis Sinica, 2008, 17(3): 42-45. (in Chinese)

[25]姜润深. 鸡PRL、PRLR和POU1F1基因变异对繁殖及POU1F1对生长性状的遗传效应[D]. 北京: 中国农业大学, 2005.

Jiang R S, Genetic effects of chicken PRL, PRLR and POU1F1 gene variation on reproductive traits and POU1F1 on growth[D]. Beijing: China Agriculture University, 2005. (in Chinese)

[26]杜晓惠, 李丛艳, 张细权, 聂庆华. 就巢对宁都三黄鸡300 d产蛋性状的影响. 中国畜牧杂志, 2011, 47(13): 12-14.

Du X H, Li C Y, Zhang X Q, Nie Q H. Influence of broodiness on 300 d laying rraits of Ningdu Sanhuang hens. Chinese Journal of Animal Science, 2011, 47(13): 12-14. (in Chinese)

[27]李丛艳, 杜晓惠. 鸡催乳素受体基因的多态性分析. 安徽农业科学, 2011, 39(2): 1030-1031, 1048.

Li C Y, Du X H. Polymorphism analysis for PRLR gene in hens. Journal Of Anhui Agricultural Science, 2011, 39(2): 1030-1031, 1048. (in Chinese)

[28]Chen J, Liu H, Cai Y, Wang G, Liu H, Li J. Mutations in the exon 10 of prolactin receptor gene change the egg production performance in Wanjiang white goose. Molecular Biology Reports, 2012, 39(1): 475-483.

[29]刘庆雨, 于永生, 金鑫, 李娜, 李兆华, 赵晓东, 张树敏. 松辽黑猪和长白猪催乳素受体基因第10外显子多态性与产蛋性状的关联分析. 中国畜牧兽医, 2012, 39(10): 191-195.

Liu Q Y, Yu Y S, Jin X, Li N, Li Z H, Zhao X D, Zhang S M. Association analysis on polymorphisms of prolactin receptor(PRLR) gene exon 10 with reproductive traits in Songliao Black pig and Landrace pig. China Animal Husbandry and Veterinary Medicine, 2012, 39(10): 191-195. (in Chinese)

[30]张跟喜, 储明星, 王金玉, 方丽, 叶素成. 催乳素受体基因外显子10 多态性及其与济宁青山羊高繁殖力关系的研究. 遗传, 2007, 29(3): 329-336.

Zhang G X, Chu M X, Wang J Y, Fang L, Ye S C. Polymorphism of exon 10 of prolactin receptor gene and its relationship with prolificacy of Jining Grey goats. Hereditas, 2007, 29(3): 329-336. (in Chinese)

[31]穆晓琨, 字向东, 王永, 黄磊, 徐华伟, 马力, 付锡三, 朱万岭, 林世武. 乐至黑山羊PRLR基因外显子10多态性与产羔数的关系研究. 生物技术通报, 2011(3): 111-115.

Mu X K, Zi X D, Wang Y, Huang L, Xu H W, Ma L, Fu X S, Zhu W L, Lin S W. Polymorphism of exon 10 of PRLR gene and its relation to prolificacy in Lezhi Black goats. Biotechnology Bulletin, 2011(3): 111-115. (in Chinese)

[32]孙瑞萍, 王利心, 朱广琴, 王建刚, 宋宇轩, 梁昭义, 曹斌云. PRLR基因外显子10多态性与西农萨能奶山羊产奶性能的相关分析. 畜牧兽医学报, 2008, 39(12): 1654-1660.

Sun R P, Wang L X, Zhu G Q, Wang J G, Song Y X, Liang Z Y, Cao B Y. Polymorphism of exon 10 of prolactin receptor gene and its relationship with milk performance of Xinong Saanen Dairy goat. Acta Veterinaria et Zootechnica Sinica, 2008, 39(12): 1654-1660. (in Chinese)

Related Articles 15

[1]	LIN Ping, WANG KaiLiang, YAO XiaoHua, REN HuaDong. Development of DNA Molecular ID in Camellia oleifera Germplasm Based on Transcriptome-Wide SNPs [J]. Scientia Agricultura Sinica, 2023, 56(2): 217-235.
[2]	XiaoChuan LI,ChaoHai WANG,Ping ZHOU,Wei MA,Rui WU,ZhiHao SONG,Yan MEI. Deciphering of the Genetic Diversity After Field Late Blight Resistance Evaluation of Potato Breeds [J]. Scientia Agricultura Sinica, 2022, 55(18): 3484-3500.
[3]	LIANG Peng,ZHANG TianWen,MENG Ke,SHAO ShunCheng,ZOU ShiFan,RONG Xuan,QIANG Hao,FENG DengZhen. Association Analysis of the ADIPOQ Variation with Sheep Growth Traits [J]. Scientia Agricultura Sinica, 2022, 55(11): 2239-2256.
[4]	XU ZhiYing,WANG BaiCui,MA XiaoLan,JIA ZiMiao,YE XingGuo,LIN ZhiShan,HU HanQiao. Polymorphism Analysis Among Chromosomes of Dasypyrum villosum 6V#2 and 6V#4 and Wheat 6A and 6D Based on Wheat SNP Chip [J]. Scientia Agricultura Sinica, 2021, 54(8): 1579-1589.
[5]	ZHANG PengFei,SHI LiangYu,LIU JiaXin,LI Yang,WU ChengBin,WANG LiXian,ZHAO FuPing. Advance in Genome-Wide Scan of Runs of Homozygosity in Domestic Animals [J]. Scientia Agricultura Sinica, 2021, 54(24): 5316-5326.
[6]	Yun PENG,TianGang LEI,XiuPing ZOU,JingYun ZHANG,QingWen ZHANG,JiaHuan YAO,YongRui HE,Qiang LI,ShanChun CHEN. Verification of SNPs Associated with Citrus Bacterial Canker Resistance and Induced Expression of SNP-Related Calcium-Dependent Protein Kinase Gene [J]. Scientia Agricultura Sinica, 2020, 53(9): 1820-1829.
[7]	XU Yunbi,YANG QuanNü,ZHENG HongJian,XU YanFen,SANG ZhiQin,GUO ZiFeng,PENG Hai,ZHANG Cong,LAN HaoFa,WANG YunBo,WU KunSheng,TAO JiaJun,ZHANG JiaNan. Genotyping by Target Sequencing (GBTS) and Its Applications [J]. Scientia Agricultura Sinica, 2020, 53(15): 2983-3004.
[8]	CHEN XiaoHong,HE JieLi,SHI TianTian,SHAO HuanHuan,WANG HaiGang,CHEN Ling,GAO ZhiJun,WANG RuiYun,QIAO ZhiJun. Developing SSR Markers of Proso Millet Based on Transcriptome Sequencing [J]. Scientia Agricultura Sinica, 2020, 53(10): 1940-1949.
[9]	CAO XueTao, PEI ShengWei, ZHANG Jin, LI FaDi, LI Gang, LI WanHong, YUE XiangPeng. Screening of Y Chromosome Specific Primers and Y-SNPs in Sheep [J]. Scientia Agricultura Sinica, 2018, 51(15): 2990-2999.
[10]	GAO XiaoLi, HU Jiang, GUO ShuZhen, SHI BinGang, XIE JianPeng, LUO YuZhu, WANG JiQing, MU YongJuan. Polymorphisms of DGAT1 Gene and Their Association with Milk Quality Traits in Yak [J]. Scientia Agricultura Sinica, 2017, 50(16): 3215-3225.
[11]	LIU LiNa, YANG Jing, XU LiuYan, LI ChengYun. Genetic Diversity Analysis of Pi-ta Gene 3′-UTR in Rice Landraces [J]. Scientia Agricultura Sinica, 2017, 50(15): 2851-2860.
[12]	MA Xiao-meng, XUAN Jun-li,WANG Hui-hua,YUAN Ze-hu, WU Ming-ming, ZHU Cai-ye, LIU Rui-zao, WEI Cai-hong, ZHAO Fu-ping, DU Li-xin, ZHANG Li. Association of the RIPK2 Gene Genetic Variation with Ujumqin Sheep Growth Traits [J]. Scientia Agricultura Sinica, 2016, 49(7): 1391-1407.
[13]	WU Yi-chen, DU Xing, LI Ping-hua, WU Yan, WANG Jun-shun, LIU Hong-lin, LI Qi-fa. Sequence Cloning, Tissue Expression Profile and Polymorphism of VRTN Gene in Suhuai Pig [J]. Scientia Agricultura Sinica, 2016, 49(18): 3639-3648.
[14]	YAO Qi-lun, CHEN Fa-bo, LIU Hong-fang, FANG Ping, ZHAO Cai-fang. B Chromosome Polymorphisms in Maize (Zea mays L.) Landrace Populations from Southwest China [J]. Scientia Agricultura Sinica, 2015, 48(14): 2697-2704.
[15]	YIN Jin-Feng-1, NI Rong-1, WANG Qing-Zeng-1, SUN Wei-1, DING Jia-Tong-1, ZHANG You-Fa-2, CHEN Ling-2, WU Wen-Zhong-2, ZHOU Hong-3. The Genetic Polymorphism, Expression of BMP7 Gene and Its Relationship with Lamb Skin Follicle Traits in Hu Sheep [J]. Scientia Agricultura Sinica, 2014, 47(9): 1811-1818.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

Polymorphism of Chicken Prolactin Receptor Gene and It’s Association with Broodiness and Egg Reproduction Traits

PDF