Retrotransposon insertion polymorphism of the porcine esr gene and its association with production performances of Large White pigs.
- Author:
Chenglin CHI
1
;
Yalong AN
1
;
Kaiyuan LI
1
;
Hao GU
1
;
Saisai WANG
1
;
Cai CHEN
1
;
Bo GAO
1
;
Chengyi SONG
1
;
Xiaoyan WANG
1
Author Information
- Publication Type:Journal Article
- Keywords: association analysis; estrogen receptor; pig; retrotransposon; retrotransposon insertion polymorphism
- MeSH: Animals; Genotype; Introns/genetics*; Phenotype; Polymorphism, Genetic/genetics*; Retroelements/genetics*; Swine/genetics*
- From: Chinese Journal of Biotechnology 2021;37(8):2794-2802
- CountryChina
- Language:Chinese
- Abstract: Estrogen receptor (esr) mediates the effects of estrogen on the expression of related genes, thereby regulating the growth and reproduction of mammals. To investigate the effect of retrotransposon insertion polymorphism (RIP) of the porcine esr gene on porcine growth performance, retrotransposon insertion polymorphism of the esr gene were predicted by comparative genomics and bioinformatics, and PCR was used to verify the insertion polymorphisms in different porcine breeds. Finally, the correlation analysis between the genotypes and performance of Large White pigs was conducted. The results showed that four retrotransposon polymorphic sites were identified in the esr1 and esr2 genes, which are esr1-SINE- RIP1 located in intron 2 of the esr1 gene, esr1-LINE-RIP2 and RIP3-esr1- SINE located in intron 5 of the gene, and esr2-LINE-RIP located in intron 1 of the esr2 gene, respectively. Among them, insertion of a 287 bp of SINE into intron 2 of the esr1 gene significantly affected (P<0.05) the live back fat thickness and 100 kg body weight back fat thickness of Large White pigs. Moreover, the live back fat thickness and back fat thickness at 100 kg body weight of homozygous with insertion (SINE+/+) was significantly greater than that of heterozygous with insertion (SINE+/-) and homozygous without insertion (SINE-/-). Therefore, esr1-SINE-RIP1 could be used as a molecular marker to assist the selection of deposition traits in Large White pigs.
