吉林省农业科学院机构知识库

Genetic diversity and population structure of ginseng in China based on RAPD analysis

收藏
分享
全文链接

文献类型：外文期刊

作者： Wang, Shi-jie ² ; Chen, Xiao-lin ³ ; Han, Feng-bo ² ; Li, Ru-sheng ² ; Li, Gang ⁴ ; Zhao, Yan ¹ ; Xu, Yong-hua ¹ ; Zhang, ¹ ;

作者机构： 1.Jilin Agr Univ, Coll Chinese Med Mat, Changchun 130118, Jilin Province, Peoples R China

2.Jilin Agr Sci & Technol Univ, Coll Tradit Chinese Med, Jilin 132101, Jilin Province, Peoples R China

3.Jilin Ginseng & Pilose Antler Off, Changchun 130022, Jilin Province, Peoples R China

4.Jilin Acad Agr Sci, Changyi 130033, Jilin Province, Peoples R China

关键词： Panax ginseng;RAPD;genetic diversity;population structure

期刊名称：OPEN LIFE SCIENCES （影响因子：0.938；五年影响因子：1.154 ）

ISSN： 2391-5412

年卷期： 2016 年 11 卷 1 期

页码：

收录情况： SCI

摘要： Population genetic diversity was estimated from forty-four individual ginseng (Panax ginseng C. A. Meyer) plants collected from seven geographical populations located in Heilongjiang, Liaoning, and Jilin Provinces of China as well as the People's Republic of Korea by using randomly amplified polymorphic DNA (RAPD) markers. Overall, 41 polymorphic loci were amplified using ten primer pairs. The polymorphism percentage ranged from 50% to 100% among seven local populations of ginseng, indicating that there is plentiful genetic diversity in wild ginseng populations. The genetic diversity at the species level was higher than that at the population level. Variance analysis showed that there was a significant difference among populations in genetic diversity. The genetic differentiation coefficient (i.e., F-ST) indicates that 43% of the variation occurred among populations, which indicates that substantial genetic differentiation occurred among populations. At the same time, the measured value of gene flow (Nm) was 0.66 based on the observed genetic differentiation coefficient among populations, suggesting there was moderate gene flow among populations.

相关文献

[1]Comparison of Genetic Diversity between Chinese and American Soybean (Glycine max (L.)) Accessions Revealed by High-Density SNPs. Liu, Zhangxiong,Li, Huihui,Li, Yinghui,Guan, Rongxia,Guo, Yong,Qiu, Lijuan,Wen, Zixiang,Wang, Dechun,Fan, Xuhong,Wang, Shuming. 2017

[2]寒地苹果、梨种质资源遗传多样性研究. 张冰冰,梁英海,宋洪伟,芦宁超. 2007

[3]42个苜蓿品种间亲缘关系的RAPD分析. 孙卉,朴政玉,曲柏宏,孙祎龙. 2017

[4]莪术种质资源的RAPD-PCR分析. 刘双利,王晓慧,姜程曦,袁玮,张金华. 2016

[5]RAPD分析中大豆基因组DNA的快速制备. 苏颖,王鼐,王江红,赵洪锟,郭中校,董英山. 2006

[6]吉林省大豆骨干亲本及主推品种DNA指纹图谱的构建. 赵洪锟,李启云,王玉民,张明,庄炳昌. 2000

[7]花生RAPD反应体系的优化及其遗传多样性分析. 徐彪,冯艺川,李玉发,何中国,吴松权. 2021

[8]中国不同纬度不同进化类型大豆的RAPD分析. 庄炳昌,王玉民,徐豹,惠东威,顾京,陈受宜. 1994

[9]向日葵自育恢复系RAPD分子标记遗传多样性分析. 徐彪,任孝慈,吴松权,李洋,李晓伟,何中国,王佰众. 2021

[10]紫花苜蓿耐盐种质资源的遗传多样性分析. 姜健,杨宝灵,夏彤,于淑梅,乌云娜. 2011

[11]吉林省玉米灰斑病菌RAPD分析. 任智惠,苏前富,孟玲敏,李红,宋淑云,赵振伟,潘洪玉,晋齐鸣. 2011

[12]山楂海棠RAPD亲缘关系研究. 张冰冰,梁英海,田彬彬,王庆芬,张彦波,刘洪章. 2007

[13]利用RAPD技术进行野生大豆种群内分化的研究. 周晓馥,庄炳昌,王玉民,赵洪琨. 2001

[14]利用RAPD与SSR技术进行野生大豆种群内分化的研究. 周晓馥,庄炳昌,王玉民,赵洪琨. 2002

[15]东北地区玉米弯孢菌的致病性分化与RAPD分析. 张欣芳,苏前富,宋淑云,杜俊岐,刘影,张伟,李红,晋齐鸣. 2010

[16]17个苹果属野生植物种的RAPD亲缘关系研究. 张冰冰,梁英海,田彬彬,宋洪伟,李峰,刘洪章. 2008

[17]Genetic Variation and Geographic Differentiation Among Populations of the Nonmigratory Agricultural Pest Oedaleus infernalis (Orthoptera: Acridoidea) in China. Sun, Wei,Dong, Hui,Su, Qian-Fu,Qian, Hai-Tao,Cong, Bin,Sun, Wei,Gao, Yue-Bo,Su, Qian-Fu,Bai, Hong-Yan,Zhang, Zhu-Ting. 2015

[18]Analysis of genetic diversity of salt-tolerant alfalfa germplasms. Jiang, J.,Yang, B. L.,Wu, Y. N.,Jin, H.,Xia, T.,Yu, S. M.,Li, J. R.. 2015

[19]Analysis of microsatellite DNA polymorphisms in five China native cattle breeds and application to population genetics studies. Jin, HG,Zhao, YM,Zhou, GL. 2005

[20]The genetic diversity of annual wild soybeans grown in China. Dong, YS,Zhuang, BC,Zhao, LM,Sun, H,He, MY. 2001

作者其他论文更多>>

Nitrogen stabilizers mitigate nitrous oxide emissions across maize production areas of China: A multi-agroecosystems evaluation

作者：Liu, Churong;Liu, Hongrun;Liu, Xueqing;Zhang, Yushi;Zang, Huadong;Zhang, Mingcai;Li, Zhaohu;Liu, Churong;Li, Gang;Pan, Binrong

关键词：Nitrous oxide mitigation; Maize production; Yield-scaled nitrous oxide emission; N stabilizers; Soil factors
Chemical Components Analyzed by UPLC-QTOF-MS and In Vitro Antitumor Effects of the Chestnut Mushroom Pholiota adiposa (Agaricomycetes)

作者：Wang, Xiaoyan;Wang, Xiaoyan;Liu, Yan;Wang, Xiaoyan;Kong, Fanli;Li, Gang

关键词：Pholiota adiposa; UPLC-QTOF-MS; CCK-8 method; apoptosis; medicinal mushrooms
Metagenomic analysis insights into the influence of 3,4-dimethylpyrazole phosphate application on nitrous oxide mitigation efficiency across different climate zones in Eastern China

作者：Liu, Churong;Liu, Hongrun;Liu, Xueqing;Zhang, Yushi;Zhang, Mingcai;Li, Zhaohu;Li, Gang;Liu, Churong

关键词：Nitrous oxide; Metagenome; Nitrogen cycling; Functional genes; DMPP efficiency
Estimation of maize straw production and appropriate straw return rate in China

作者：Liu, Wanmao;Liu, Guangzhou;Xie, Ruizhi;Ming, Bo;Wang, Keru;Xue, Jun;Li, Shaokun;Hou, Peng;Liu, Wanmao;Liu, Yuee;Yang, Yunshan;Guo, Xiaoxia;Wang, Yonghong;Zhao, Rulang;Zhang, Wenjie;Wang, Yongjun;Bian, Shaofeng;Ren, Hong;Zhao, Xiaoyan;Liu, Peng;Chang, Jianzhi;Zhang, Guohe;Liu, Jiayou;Yuan, Liuzheng;Zhao, Haiyan;Shi, Lei;Zhang, Lili;Yu, Lin;Gao, Julin;Yu, Xiaofang;Wang, Zhigang;Shen, Liguo;Ji, Ping;Yang, Shuzong;Zhang, Zhongdong;Xue, Jiquan;Wang, Xiuquan;Wang, Xiuquan;Lu, Tingqi;Dong, Benchun;Li, Gang;Ma, Baoxin;Li, Jinqin;Deng, Xiufeng;Liu, Yonghong;Yang, Qin;Jia, Chunlan;Chen, Xianping;Fu, Hua

关键词：Maize straw production; Straw return; Carbon input; Carbon emission; Soil carbon sequestration
Estimation of maize straw production and appropriate straw return rate in China

作者：Liu, Wanmao;Liu, Guangzhou;Xie, Ruizhi;Ming, Bo;Wang, Keru;Xue, Jun;Li, Shaokun;Hou, Peng;Liu, Wanmao;Liu, Yuee;Yang, Yunshan;Guo, Xiaoxia;Wang, Yonghong;Zhao, Rulang;Zhang, Wenjie;Wang, Yongjun;Bian, Shaofeng;Ren, Hong;Zhao, Xiaoyan;Liu, Peng;Chang, Jianzhi;Zhang, Guohe;Liu, Jiayou;Yuan, Liuzheng;Zhao, Haiyan;Shi, Lei;Zhang, Lili;Yu, Lin;Gao, Julin;Yu, Xiaofang;Wang, Zhigang;Shen, Liguo;Ji, Ping;Yang, Shuzong;Zhang, Zhongdong;Xue, Jiquan;Wang, Xiuquan;Wang, Xiuquan;Lu, Tingqi;Dong, Benchun;Li, Gang;Ma, Baoxin;Li, Jinqin;Deng, Xiufeng;Liu, Yonghong;Yang, Qin;Jia, Chunlan;Chen, Xianping;Fu, Hua

关键词：Maize straw production; Straw return; Carbon input; Carbon emission; Soil carbon sequestration
Elevated CO2 enhanced water use efficiency of wheat to progressive drought stress but not on maize

作者：Cao, Qingjun;Li, Gang;Cao, Qingjun;Liu, Fulai

关键词：abscisic acid (ABA); climate change; elevated CO2; gas exchange; stomatal conductance
Quantifying maize grain yield losses caused by climate change based on extensive field data across China

作者：Hou, Peng;Liu, Wanmao;Xie, Ruizhi;Wang, Keru;Ming, Bo;Liu, Guangzhou;Xue, Jun;Li, Shaokun;Liu, Yuee;Liu, Wanmao;Yang, Haishun;Wang, Yonghong;Zhao, Rulang;Zhang, Wenjie;Wang, Yongjun;Bian, Shaofeng;Ren, Hong;Zhao, Xiaoyan;Liu, Peng;Chang, Jianzhi;Zhang, Guohe;Liu, Jiayou;Yuan, Liuzheng;Zhao, Haiyan;Shi, Lei;Zhang, Lili;Yu, Lin;Gao, Julin;Yu, Xiaofang;Wang, Zhigang;Shen, Liguo;Ji, Ping;Yang, Shuzong;Zhang, Zhongdong;Xue, Jiquan;Ma, Xiangfeng;Wang, Xiuquan;Lu, Tingqi;Dong, Benchun;Li, Gang;Ma, Baoxin;Li, Jinqin;Deng, Xiufeng;Liu, Yonghong;Yang, Qin;Jia, Chunlan;Chen, Xianping;Fu, Hua

关键词：Maize; Grain yield; Climate change; Temperature; Solar radiation

Genetic diversity and population structure of ginseng in China based on RAPD analysis

作者其他论文 更多>>

Nitrogen stabilizers mitigate nitrous oxide emissions across maize production areas of China: A multi-agroecosystems evaluation

Chemical Components Analyzed by UPLC-QTOF-MS and In Vitro Antitumor Effects of the Chestnut Mushroom Pholiota adiposa (Agaricomycetes)

Metagenomic analysis insights into the influence of 3,4-dimethylpyrazole phosphate application on nitrous oxide mitigation efficiency across different climate zones in Eastern China

Estimation of maize straw production and appropriate straw return rate in China

Estimation of maize straw production and appropriate straw return rate in China

Elevated CO2 enhanced water use efficiency of wheat to progressive drought stress but not on maize

Quantifying maize grain yield losses caused by climate change based on extensive field data across China

意 见 箱

作者其他论文更多>>

意见箱