Development of a novel and efficient strategy for practical identification of Pyrus spp (Rosaceae) cultivars using RAPD fingerprints

文献类型: 外文期刊

第一作者: Lin, J.

作者: Lin, J.;Chang, Y. H.;Wang, X. C.;Fang, J. G.;Wang, X. C.;Fang, J. G.

作者机构:

关键词: Pear;RAPD;Cultivar identification;Molecular markers

期刊名称:GENETICS AND MOLECULAR RESEARCH ( 影响因子:0.764; 五年影响因子:0.912 )

ISSN: 1676-5680

年卷期: 2011 年 10 卷 2 期

页码:

收录情况: SCI

摘要: Accurate and reliable cultivar identification of crop species is essential to guarantee plant material identity for purposes of registration, cultivar protection and production. To facilitate identification of plant cultivars, we developed a novel strategy for efficient recording of DNA molecular fingerprints in genotyped plant individuals. These fingerprints can be used as efficient referential information for quick plant identification. We made a random amplified polymorphic DNA (RAPD) marker analysis of 68 pear cultivars. All pear genotypes could be distinguished by a combination of eight 11-mer primers. The efficiency of the method was further verified by correct identification of four cultivars randomly chosen from the initial 68. The advantages of this identification include use of fewer primers and ease of cultivar separation by the corresponding primers marked on the cultivar identification diagram. The cultivar identification diagram can efficiently serve for pear cultivar identification by readily providing the information needed to separate cultivars. To the best of our knowledge, this is the most efficient strategy for identification of plant varieties using DNA markers; it could be employed for the development of the pear industry and for the utilization of DNA markers to identify other plant species.

分类号:

  • 相关文献

[1]Efficient identification of ornamental peach cultivars using RAPD markers with a manual cultivar identification diagram strategy. Han, J.,Wang, W. Y.,Leng, X. P.,Jiang, W. B.,Guo, L.,Yu, M. L.,Ma, R. J.. 2014

[2]An improved strategy based on RAPD markers efficiently identified 95 peach cultivars. Yu, M. L.,Ma, R. J.,Shen, Z. J.,Wang, W. Y.,Fang, G.,Wang, W. Y.,Fang, G.. 2012

[3]A new strategy employed for identification of sweet orange cultivars with RAPD markers. Sun, X.,Mu, Q.,Wang, C.,Wang, X. C.,Fang, J. G.,Jiang, D.. 2012

[4]The relationships among Cymbidium sinense cultivars based on RAPD analysis. Zhu, Genfa,Li, Dongmei,Li, Dongmei,Ye, Qingsheng,Guo, Zhenfei. 2008

[5]Analysis of the Germplasm Resources and Genetic Relationships among Cymbidium tortisepalum Cultivars Using Amplified Fragment Length Polymorphism Markers. Wu, X. Y.,Li, D. M.,Zhu, G. F.. 2013

[6]Establishment of Molecular Identity Cards for Cucumis melo Cultivars Using SSR Markers. Li, Li,Xu, Xiulan,Wu, Ping,Li, Li,Xu, Xiulan,Wu, Ping,Li, Li,Xu, Xiulan,Wu, Ping,Zhang, Guo,Zhang, Xiaobing. 2018

[7]Molecular Characterization of Chinese Grape Landraces (Vitis L.) Using Microsatellite DNA Markers. Li, Beibei,Jiang, Jianfu,Fan, Xiucai,Zhang, Ying,Sun, Haisheng,Liu, Chonghuai,Li, Beibei,Zhang, Guohai.

[8]DEVELOPMENT AND CHARACTERIZATION OF 20 NOVEL POLYMORPHIC STS MARKERS IN VICIA FABA (FAVA BEAN). Wang, Haifei,Yang, Tao,Guan, Jianping,Ma, Yu,Sun, Xuelian,Zong, Xuxiao.

[9]A new strategy for complete identification of sea buckthorn cultivars by using random amplified polymorphic DNA markers. Yang, G.,Ding, J.,Wu, L. R.,Duan, Y. D.,Shan, J. Y.,Wu, Y. X.,Li, A. Y.. 2015

[10]Development of SNP and InDel markers via de novo transcriptome assembly in Sesamum indicum L.. Wei, Libin,Miao, Hongmei,Li, Chun,Duan, Yinghui,Niu, Jiaojiao,Zhang, Tide,Zhang, Haiyang,Zhao, Qiongyi.

[11]Identification and characterization of microsatellite markers from Musa balbisiana. Feng, Su-ping,Wu, Yao-ting,Wang, Jing-yi,Wang, Jing-yi,Huang, Bing-zhi,Chen, Ye-yuan.

[12]Identification and expression patterns of alcohol dehydrogenase genes involving in ester volatile biosynthesis in pear fruit. Qin Gai-hua,Qi Yong-jie,Gao Zheng-hui,Pan Hai-fa,Xu Yi-liu,Qin Gai-hua,Qi Xiao-xiao,Qi Yong-jie,Gao Zheng-hui,Pan Hai-fa,Xu Yi-liu,Qi Xiao-xiao. 2017

[13]Dynamics of Oxine-Copper in Pears and Soil by High-Performance Liquid Chromatography. Li, Zeng-Mei,Deng, Li-Gang,Zhang, Shu-Qiu,Liang, Jing-Yun,Guo, Chang-Ying,Dong, Yan-Jie,Zhao, Shan-Cang,Li, Zeng-Mei,Deng, Li-Gang,Zhang, Shu-Qiu,Liang, Jing-Yun,Guo, Chang-Ying,Dong, Yan-Jie,Zhao, Shan-Cang,Wang, Yong-Qin. 2016

[14]Molecular cloning and gene expression differences of the anthocyanin biosynthesis-related genes in the red/green skin color mutant of pear (Pyrus communis L.). Yang, Ya-nan,Zhao, Guang,Zhang, Shao-ling,Gu, Chao,Wu, Jun,Yue, Wen-quan. 2013

[15]Characteristic Wavelengths Selection of Soluble Solids Content of Pear Based on NIR Spectral and LS-SVM. Fan Shu-xiang,Zhao Chun-jiang,Fan Shu-xiang,Huang Wen-qian,Li Jiang-bo,Zhao Chun-jiang,Zhang Bao-hua. 2014

[16]Studies on Correlation between Flowering and Maturing Stage in Pears. Li, X. G.,Yang, Q. S.,Lin, J.,Wang, Zh. H.,Chang, Y. H.. 2011

[17]Abscisic acid is involved in the water stress-induced betaine accumulation in pear leaves. Gao, XP,Pan, QH,Li, MJ,Zhang, LY,Wang, XF,Shen, YY,Lu, YF,Chen, SW,Liang, Z,Zhang, DP. 2004

[18]Calcium treatments promote the aroma volatiles emission of pear (Pyrus ussuriensis 'Nanguoli') fruit during post-harvest ripening process. Wei, Shuwei,Qin, Gaihua,Zhang, Huping,Tao, Shutian,Wu, Jun,Zhang, Shaoling,Wei, Shuwei,Wang, Shaomin,Qin, Gaihua.

[19]Evolution of the Aroma Volatiles of Pear Fruits Supplemented with Fatty Acid Metabolic Precursors. Qin, Gaihua,Tao, Shutian,Zhang, Huping,Huang, Wenjiang,Wu, Juyou,Zhang, Shaoling,Qin, Gaihua,Qin, Gaihua,Xu, Yiliu.

[20]Morphological, cytological and fertility consequences of a spontaneous tetraploid of the diploid pear (Pyrus pyrifolia Nakai) cultivar 'Cuiguan'. Wang, Xiaoqing,Shi, Chunhui,Zhang, Xueying,Duan, Ke,Luo, Jun,Wang, Xiaoqing,Shi, Chunhui,Zhang, Xueying,Duan, Ke,Luo, Jun,Wang, Haihai.

作者其他论文 更多>>

微信小程序