New locus reveals the genetic architecture of sex reversal in the Chinese tongue sole (Cynoglossus semilaevis)
文献类型: 外文期刊
第一作者: Cui, Yu
作者: Cui, Yu;Cui, Yu;Wang, Weifeng;Li, Hengde;Wang, Weifeng;Wang, Huanling;Ma, Liyong;Jie, Jinhua;Zhang, Yanhong;Li, Hengde;Li, Hengde
作者机构:
期刊名称:HEREDITY ( 影响因子:3.821; 五年影响因子:4.553 )
ISSN: 0018-067X
年卷期: 2018 年 121 卷 4 期
页码:
收录情况: SCI
摘要: Sex reversal in insects, amphibians, reptiles, and fishes is a complicated and interesting biological phenomenon. Sex reversal changes the sex ratio of populations and may complicate breeding schemes. In the Chinese tongue sole (Cynoglossus semilaevis), genetic females may change into pseudomales, thereby increasing aquaculture costs because of the lower growth rate of the males than that of the females. Here we identify a new locus associated with sex reversal; this single nucleotide polymorphism (SNP) is located in the third intron of the doublesex and mab-3 related transcription factor 1 (Dmrt1) gene on the Z chromosome (named Cyn_Z_8564889) and has two alleles, A and G. Cyn_Z_8564889 regulates sex reversal interactively with our previously detected SNP (Cyn_Z_6676874), with the genetic females simultaneously carrying the T allele of Cyn_Z_6676874 and the A allele of Cyn_Z_8564889 changing into pseudomales. Other Dmrt1 polymorphisms were detected, which formed two haplotypes. Two SNPs in the second exon of Dmrt1 result in amino acid changes, suggesting that Dmrt1 is essential in sex reversal. We also verified that pseudomales produce no or little W sperm. The interaction and linkage between Cyn_Z_6676874 and Cyn_Z_8564889 and the absence of W sperm from pseudomales unravel the genetic architecture of sex reversal in C. semilaevis.
分类号:
- 相关文献
作者其他论文 更多>>
-
Transcriptomic Change in the Effects of Dichloroquinolinic Acid on the Development and Growth of Nicotiana tabacum
作者:Li, Bingjie;Ding, Anming;Wang, Weifeng;Cui, Mengmeng;Sun, Yuhe;Lv, Jing;Dai, Changbo;Li, Bingjie;Ding, Anming;Wang, Weifeng;Cui, Mengmeng;Sun, Yuhe;Lv, Jing;Dai, Changbo;Li, Bingjie
关键词:dichloroquinolinic acid; transcriptome; hormone-type herbicide; herbicide resistance; gene editing
-
Naringenin restricts the colonization and growth of Ralstonia solanacearum in tobacco mutant KCB-1
作者:Shi, Haoqi;Jiang, Jiale;Ding, Anming;Wang, Weifeng;Sun, Yuhe;Shi, Haoqi;Jiang, Jiale;Yu, Wen;Cheng, Yazhi;Wu, Shengxin;Zong, Hao;Wang, Xiaoqiang
关键词:
-
Integrative omics reveals clues as to why Cynoglossus semilaevis pseudomales produce no W sperm
作者:Zhang, Yaqun;Wang, Liping;Xu, Feng;Ye, Zhan;Li, Hengde;Zhang, Yaqun;Wang, Liping;Xu, Feng;Ye, Zhan;Li, Hengde;Wang, Liping;Xu, Feng;Ye, Zhan;Chen, Songlin;Chen, Songlin;Chen, Songlin;Li, Hengde
关键词:Spermatogenesis; Transcriptome; Proteome; Ubiquitination; Pseudomale; Cynoglossus semilaevis
-
Fire effects on soil CH4 and N2O fluxes across terrestrial ecosystems
作者:Guo, Jiahuan;Feng, Huili;Peng, Changhui;Kneeshaw, Daniel;Roberge, Gabrielle;Peng, Changhui;Du, Juan;Wang, Weifeng;Pan, Chang;Feng, Lei;Chen, Anping;Chen, Anping
关键词:Fire; Soil; Methane; Nitrous oxide; Climate change; Terrestrial ecosystems
-
ADP-ribosylation factor 6 promotes infectious bursal disease virus replication by affecting the internalization process via clathrin
作者:Zhang, Xinxin;Gao, Pei;Wang, Li;Liu, Liu;Wang, Qiuxia;Xu, Zhiyong;Zhang, Yanhong;Yu, Yan;Ma, Jinyou;Zhang, Xinxin
关键词:ARF6; IBDV; Replication; Internalization; Clathrin
-
Asymmetric evolution of ISG15 homologs and the immune adaptation to LBUSV infection in spotted seabass (Lateolabrax maculatus)
作者:Zhang, Bo;Yan, Lulu;Lin, Changhong;Liu, Yong;Zhao, Chao;Wang, Pengfei;Qiu, Lihua;Zhang, Bo;Yan, Lulu;Zhao, Chao;Wang, Pengfei;Qiu, Lihua;Lin, Changhong;Zhang, Yanhong;Qiu, Lihua
关键词:Spotted seabass; ISG15; Antiviral immune; LBUSV; Asymmetric evolution
-
Chronic low salinity stress rescued masculinization effect in farmed Cynoglossus semilaevis population
作者:Liu, Yuxiang;Li, Xiaoqi;Jin, Chaofan;Wang, Zhigang;Liu, Jinxiang;Zhang, Quanqi;Zhang, Quanqi;Bai, Shujun;Liu, Jinxiang;Li, Hengde;Zhai, Jieming;Li, Wensheng
关键词:Salinity; Masculinization; Growth; Gonadal histology; Transcriptome; Cynoglossus semilaevis
