贵州省花生地方品种的遗传多样性

doi:10.3724/SP.J.1006.2012.01387

Abstract

Abstract: In order to assess the genetic diversity of peanut in Guizhou province and provide a theoretical basis for breeding, 68 accessions of peanut landracescollected from Guizhou province were evaluated by 50 SSR markers. Seventy-nine alleles were amplified by forty-one polymorphic SSR primer pairs. The average number of alleles per locus was 1.93 with a range from 0.045 to 0.951. Total Shannon information index per locus varied widely from 0.2518 (PM79) to 0.6826 (PM188) with an average value of 0.5268; total Nei’s genetic diversity index per locus varied widely between 0.1699(PM79) and 0.4995 (PM188) with an average value of 0.3556. Cluster analysis with UPGMA showed that the landraces could be divided into two groups and the genetic relationship among materials with similar seed sizes was not in accord with their geographical origins. The peanut landrace in Guizhou showed higher genetic diversity.

Key words: Guizhou landrace, Peanut, Genetic diversity

LIN Mao,LI Zheng-Qiang,ZHENG Zhi-Hong,Lü Jian-Wei,MA Tian-Jin,LI Chao,KAN Jian-Quan. Genetic Diversity of Peanut Landraces in Guizhou Province[J].Acta Agron Sin, 2012, 38(08): 1387-1396.

References

[1]Shandong Peanut Research Institute(山东花生研究所). Peanut Cultivation in China (中国花生栽培学). Shanghai: Shanghai Scientific and Technical Publishers, 1982. pp 7–8 (in Chinese)

[2]Li Z-Q(李正强). The dissemination and application of new peanut varieties bred in Guizhou. J Peanut Sci (花生学报), 2003, 32(4): 27–30 (in Chinese with English abstract)

[3]Subramanian V, Gurtu S, Rao R C N, Nigam S N. Identification of DNA polymorphism in cultivated groundnut using random amplified polymorphic DNA (RAPD) assay. Genome, 2000, 43: 656–660

[4]Tang R H, Gao G Q, He L Q, Han Z Q, Shan S H, Zhong R C, Zhou C Q, Jiang J, Li Y R, Zhuang W J. Genetic diversity in cultivated groundnut based on SSR markers. J Genet Genom, 2007, 34: 449–459

[5]Han Z-Q(韩柱强), Gao G-Q(高国庆), Wei P-X(韦鹏宵), Tang R-H(唐荣华), Zhong R-C(钟瑞春). Analysis of DNA polymorphism and genetic relationships in cultivated peanut (Arachis hypogaea L.) using micro-satellite markers. Acta Agron Sin (作物学报), 2004, 30(11): 1097–1101 (in Chinese with English abstract)

[6]Hong Y-B(洪彦彬), Liang X-Q(梁炫强), Chen X-P(陈小平), Lin K-Y(林坤耀), Zhou G-Y(周桂元), Li S-X(李少雄), Liu H-Y(刘海燕). Genetic differences in peanut cultivated types (Arachis hypogaea L.) revealed by SSR polymorphism. Mol Plant Breed (分子植物育种), 2008, 6(1): 71–78 (in Chinese with English abstract)

[7]Naito Y, Suzuki S, I wata Y, Kuboyama T. Genetic diversity and relationship analysis of peanut germplasm using SSR markers. Breed Sci, 2008, 58(3): 293–300

[8]Jiang H F, Liao B S, Reng X P, Lei Y, Mace E, Fu T D, Crouch J H. Comparative assessment of genetic diversity of peanut (Arachis hypogaea L.) genotypes with various levels of resistance to bacteria wilt through SSR and AFLP analyses. J Genet Genom, 2007, 34: 544–554

[9]He G H, Channapatna P. Evaluation of genetic relationships among botanical varieties of cultivated peanut (Arachis hypogaea L.) using AFLP markers. Genet Resour Crop Evol, 2001, 48: 347–352

[10]He G H, Meng R H, Gao H, Guo B Z, Gao G Q, Melanie N, Roy N P, and Prakash C. S. Simple sequence repeat markers for botanical varieties of cultivated peanut (Arachis hypogaea L.). Euphytica, 2005, 142: 131–136

[11]Chen B-Y(陈本银), Jiang H-F(姜慧芳), Liao B-S( 廖伯寿), Ren X-P(任小平), Huang J-Q(黄家权), Lei Y(雷永), Wang S-Y(王圣玉). Genetic diversity analysis of arachis gerplasm by SSR. J Trop Subtrop Bot (热带亚热带植物学报), 2008, 16(4): 296–303 (in Chinese with English abstract)

[12]Jiang H-F(姜慧芳), Ren X-P(任小平), Liao B-S(廖伯寿), Huang J-Q(黄家权), Lei Y(雷永), Chen B-Y(陈本银), Holbpook C C, Upachyaya H D. Peanut core collection established in china and compared with ICRISAT mini core collection. Acta Agron Sin (作物学报), 2008, 34(1): 25–30 (in Chinese with English abstract)

[13]Jiang H-F(姜慧芳), Ren X-P(任小平), Zhang X-J(张晓杰), Huang J-Q(黄家权), Wang S-Y(王圣玉), Lei Y(雷永), Yan L-Y(晏立英), Liao B-S(廖伯寿). Genetic diversity of peanut mini core collection detected by SSR markers. Chin J Oil Crop Sci (中国油料作物学报), 2010, 32( 4): 472–478 (in Chinese with English abstract)

[14]Jiang H-F(姜慧芳), Ren X-P(任小平), Zhang X-J(张晓杰), Huang J-Q(黄家权), Lei Y(雷永), Yan L-Y(晏立英), Liao B-S(廖伯寿), Upachyaya H D, Holbpook C C. Comparison of genetic diversity between peanut mini core collections from China and ICRISAT by SSR markers. Acta Agron Sin (作物学报), 2010, 36(7): 1084–1091 (in Chinese with English abstract)

[15]Jiang H-F(姜慧芳), Ren X-P(任小平), Chen Y-N(陈玉宁), Zhang X-J(张晓杰), Huang J-Q(黄家权), Liao B-S(廖伯寿). Comparison of genetic diversity between landraces and breeding varieties in Chinese peanut mini core collection by SSR markers. Acta Bot Boreali-Occident Sin (西北植物学报), 2011: 31(8): 1551–1559 (in Chinese with English abstract)

[16]Chen J(陈静), Hu X-H(胡晓辉), Miao H-R(苗华荣), Shi Y-Q(石运庆), Chi Y-C(迟玉成), Cui F-G(崔凤高), Wu L-R(吴兰荣), Yu S-L(禹山林). SSR-based analysis of genetic diversity of peanut (Arachis hypogaea L.) varieties from the region tests of Shandong province. Chin Agric Sci Bull (中国农学通报), 2008, 1(24): 105–110 (in Chinese with English abstract)

[17]Wang L-L(王丽丽), Li S-X(李尚霞), Wang Y-F(王月福). Genetic diversity of Shandong peanut popularized in different times by coefficient of parentage. Chin J Oil Crop Sci (中国油料作物学报), 2008, 30(1): 46–50 (in Chinese with English abstract)

[18]Krishna G K, Zhang J, Burow M, Pittman R N, Delikostadinov S G, Lu Y Z, Puppala N. Genetic diversity analysis in peanut (Arachis hypogaea L.) using microsatellite markers. Cell Mol Biol Lett, 2004, 9: 685–697

[19]Ferguson M E, Bramel P J, Chandra S. Gene diversity among botanical varieties in peanut (Arachis hpogaea L.). Crop Sci, 2004, 44: 1847–1854

[20]Tang R-H(唐荣华), He L-Q(贺梁琼), Zhuang W-J(庄伟建), Hang Z-Q(韩柱强), Zhong R-C(钟瑞春), Zhou C-Q(周翠球), Gao G-Q(高国庆), Li Z(李忠). Phylogenetic relationships in the genus Arachis based on SSR molecular marker profiles. Chin J Oil Crop Sci (中国油料作物学报), 2007, 29(2): 142–147 (in Chinese with English abstract)

[21]Zhang J-C(张建成), Wang C-T(王传堂), Yang X-D(杨新道). SSR and STS polymorphisms in seed testing for peanut cultivars. J Plant Genet Resour (植物遗传资源学报), 2006, 7(2): 215–219 (in Chinese with English abstract)

[22]Nei M, Li W H. Mathematical model for studying genetic variation in terms of restriction endonucleases. Proc Natl Acad Sci USA, 1979, 76: 5269–5273

[23]Yin D-M(殷冬梅), Wang Y(王允), Shang M-Z(尚明照), Cui D-Q(崔党群). Genetic diversity analysis of peanut genotypes based on molecular markers. Sci Agric Sin (中国农业科学), 2010, 43(11): 2220–2228 (in Chinese with English abstract)

[24]Jiang H-F(姜慧芳), Ren X-P(任小平), Zhang X-J(张晓杰), Huang J-Q(黄家权), Lei Y(雷永), Yan L-Y(晏立英), Liao B-S(廖伯寿). Comparison of genetic diversity between peanut mini core collections from china and ICRISAT by SSR markers. Acta Agron Sin (作物学报), 2010, 36(7): 1084–1091 (in Chinese with English abstract)

[25]Chen J(陈静), Hu X-H(胡晓辉), Miao H-R(苗华荣), Shi Y-Q(石运庆), Yu S-L(禹山林). Analysis of genetic diversity of peanut (Arachis hypogaea L.) varieties under the region tests of north China based on SSR marker. J Plant Genet Resour (植物遗传资源学报), 2009, 10(3): 360–366 (in Chinese with English abstract)

[26]Hu X-H(胡晓辉), Wu L-R(吴兰荣), Miao H-R(苗华荣), Shi Y-Q(石运庆), Cui F-G(崔凤高), Chen J(陈静). Genetic diversity of 33 peanut varieties. J Peanut Sci (花生学报), 2010, 39 (2): 24–28 (in Chinese with English abstract)

[27]Wang C-T(王传堂), Yang X-D(杨新道), Yu X(于翔), Zhang J-C(张建成), Liu G-Z(刘光臻), Xu J-Z(徐建芝). Utilization of DNA molecular marker technology in the discrimination of peanut cultivars. Acta Agric Boreali-Sin (华北农学报), 2006, 21: 110–113 (in Chinese with English abstract)

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Genetic Diversity of Peanut Landraces in Guizhou Province

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