Mitochondrial DNA sequence variation of Japanese anchovy Engraulis japonicus from the Yellow Sea and East China Sea

文献类型: 外文期刊

第一作者: Yu, ZN

作者: Yu, ZN;Kong, XY;Guo, TH;Jiang, YY;Zhuang, ZM;Jin, XS

作者机构:

关键词: Engraulis japonicus;Japanese anchovy;mitochondrial cytochrorne b gene;mitochondrial cytochrorne c oxidase subunit I gene;population;sequence variation

期刊名称:FISHERIES SCIENCE ( 影响因子:1.617; 五年影响因子:1.531 )

ISSN: 0919-9268

年卷期: 2005 年 71 卷 2 期

页码:

收录情况: SCI

摘要: Sequence variation of a fragment of the mitochondrial cytochrome b (cyt b) and cytochrome c oxiclase subunit I (COI) gene was examined using polymerase chain reaction and direct sequencing among three populations of Japanese anchovy Engraulis japonicus from the Yellow Sea and East China Sea. A total of 24 and 47 nucleoticle sites were detected variable defining 29 and 32 haplotypes in cyt b and COI data, respectively. All variable sites except one in COI were silent in the two sets of sequences. The Ewens-Watterson test indicated that the observed allelic configurations in both data sets were in full agreement with neutral expectations. The variation level was high, with h = 0.957 +/- 0.018, pi = 0.644 +/- 0.387 (%) in cyt b data set and h = 0.958 +/- 0.021, pi = 0.640 +/- 0.386 (%) in COI data set, respectively. However, at the population level, Fst values between pairs of populations were not significantly different from zero (P > 0.05) in both data sets. The analysis of haplotype frequency distribution showed no significant differences among populations. Similarly, the analysis of the partitioning of molecular variance indicated that all or almost all of the genetic variation was distributed within populations. Based on the data from this study, the existence of separate genetic stocks in this area were not detected. Mixing of stocks to some extent in migration cycle and dispersal capacity of anchovy's planktonic larvae could be the reasons for genetic homogeneity in this species in the Yellow Sea and East China Sea.

分类号:

  • 相关文献

[1]Polymorphic microsatellite loci for the Japanese anchovy Engraulis japonicus (Engraulidae). Lin, L.,Zhu, L.,Liu, S. -F.,Zhuang, Z. -M.,Lin, L.,Su, Y. -Q.. 2011

[2]Fatty acids and stable isotopes of a marine ecosystem: Study on the Japanese anchovy (Engraulis japonicus) food web in the Yellow Sea. Wu, Ying,Zhang, Jing,Gao, Lei,Wang, Na,Wan, Ruijing,Huang, Liang. 2010

[3]The Pacific decadal oscillation and changes in anchovy populations in the Northwest Pacific. Zhou, Xin,Huang, Wen,Sun, Liguang,Zhou, Xin,Huang, Wen,Sun, Liguang,Sun, Yao,Tang, Qisheng,Huang, Wen,Smol, John P.. 2015

[4]The point of no return and pectoral angle of Japanese anchovy (Engraulis japonicus) larvae during growth and starvation. Wan Ruijing,Li Xiansen,Zhuang Zhimeng,Johannessen, Arne. 2007

[5]Variation in the distribution of wintering anchovy Engraulis japonicus and its relationship with water temperature in the central and southern Yellow Sea. Niu Mingxiang,Wang Jun,Wang Jun,Niu Mingxiang,Wang Jun,Niu Mingxiang,Wang Jun. 2017

[6]Effects of spatio-temporal and environmental factors on distribution and abundance of wintering anchovy Engraulis japonicus in central and southern Yellow Sea. Jin Xianshi. 2014

[7]Late Pleistocene divergence and subsequent population expansion of two closely related fish species, Japanese anchovy (Engraulis japonicus) and Australian anchovy (Engraulis australis). Liu, Jin-Xian,Gao, Tian-Xiang,Zhuang, Zhi-Meng,Jin, Xian-Shi,Yokogawa, Koji,Zhang, Ya-Ping.

[8]A genome-wide analysis of the lysophosphatidate acyltransferase (LPAAT) gene family in cotton: organization, expression, sequence variation, and association with seed oil content and fiber quality. Wang, Nuohan,Yu, Jiwen,Yu, Shuxun,Zhang, Jinfa,Ma, Jianjiang,Pei, Wenfeng,Wu, Man,Li, Haijing,Li, Xingli,Yu, Shuxun,Yu, Jiwen,Wang, Nuohan,Zhang, Jinfa. 2017

[9]Characterization of Dicrocoelium chinensis from domestic yaks in Gansu and Sichuan provinces, China, using genetic markers in two mitochondrial genes. Wang, Xing-ye,Zhao, Guang-hui,Lin, Qing,Wang, Xing-ye,Zhao, Guang-hui,Liu, Guo-hua,Li, Jia-yuan,Zhou, Dong-hui,Xu, Min-jun,Lin, Qing,Zhu, Xing-quan,Liu, Guo-hua,Zhu, Xing-quan,Li, Jia-yuan,Zhu, Xing-quan.

[10]The internal transcribed spacer 1 (ITS-1), a controversial marker for the genetic diversity of Trypanosoma evansi. Tian, Zhancheng,Liu, Guangyuan,Xie, Junren,Shen, Hui,Zhang, Liyan,Zhang, Ping,Luo, Jin.

[11]Analysis of variable genomic loci in white spot syndrome virus to predict its origins in Procambarus clarkii crayfish farmed in China. Zeng, Yong,Zeng, Wei,Fei, Rong-Mei,Zeng, Ling-Bing,Wei, Kai-Jin.

[12]Discrimination between Haemaphysalis longicornis and H. qinghaiensis based on the partial 16S rDNA and the second internal transcribed spacer (ITS-2). Tian, Zhancheng,Liu, Guangyuan,Xie, Junren,Yin, Hong,Luo, Jianxun,Zhang, Liyan,Zhang, Ping,Luo, Jin.

[13]Identification of Tropilaelaps mites (Acari, Laelapidae) infesting Apis mellifera in China. Luo, Qi Hua,Zhou, Ting,Wang, Qiang,Dai, Ping Li,Wu, Yan Yan,Song, Huai Lei,Luo, Qi Hua,Zhou, Ting,Wang, Qiang,Dai, Ping Li,Wu, Yan Yan,Song, Huai Lei.

[14]Sequence variation in the Toxoplasma gondii ROP20 gene among strains from different hosts and geographical locations. Ning, H. R.,Zhu, X. Q.,Ning, H. R.,Wang, J. L.,Qin, S. Y.,Huang, S. Y.,Lou, Z. L.,Hu, L. Y.,Zhu, X. Q.,Qin, S. Y.,Lou, Z. L.,Huang, S. Y.,Zhu, X. Q.. 2015

[15]Low-level sequence variation in Toxoplasma gondii calcium-dependent protein kinases among different genotypes. Wang, J. L.,Zhang, N. Z.,Huang, S. Y.,Xu, Y.,Zhu, X. Q.,Xu, Y.,Wang, R. A.. 2015

[16]Sequence Variation in ROP9 Gene among Toxoplasma gondii Strains from Different Hosts and Geographical Locations. Chen, Jia,Li, Zhong-Yuan,Fang, Su-Fang,Chen, Jia,Li, Zhong-Yuan,Zhou, Dong-Hui,Liu, Guo-Hua,Zhu, Xing-Quan,Liu, Guo-Hua,Zhu, Xing-Quan. 2012

[17]Sequence variation in Toxoplasma gondii MIC13 gene among isolates from different hosts and geographical locations. Ren, Di,Zhou, Yang,Lin, Ze-Ping,Lin, Rui-Qing,Wu, Song-Ming,Lin, Shao-Qi,Yuan, Zi-Guo,Ren, Di,Zhou, Dong-Hui,Xu, Min-Jun,Zhou, Yang,Wu, Song-Ming,Yuan, Zi-Guo,Yang, Jian-Fa,Zou, Feng-Cai. 2012

[18]Genetic Diversity of Toxoplasma gondii Strains from Different Hosts and Geographical Regions by Sequence Analysis of GRA20 Gene. Ning, Hong-Rui,Xu, Qian-Ming,Zhu, Xing-Quan,Ning, Hong-Rui,Huang, Si-Yang,Wang, Jin-Lei,Zhu, Xing-Quan. 2015

[19]Detection of the genetic variation of polygalacturonase-inhibiting protein gene 2 in autotetraploid alfalfa (Medicago sativa) using an improved SSCP technique. Gui, Z.,Liu, H. Q.,Xin, N.,Zhang, X.,Pi, Y. S.,Gao, J. M.,Wang, Y.,Yuan, Q. H.,Li, X. L.. 2014

[20]Sequence Variation in Rhoptry Neck Protein 10 Gene among Toxoplasma gondii Isolates from Different Hosts and Geographical Locations. Zhao, Yu,Sun, Xiaolin,Zhao, Yu,Zhou, Donghui,Chen, Jia. 2017

作者其他论文 更多>>

微信小程序