利用全基因组SNP芯片分析油菜遗传距离与杂种优势的关系

doi:10.3864/j.issn.0578-1752.2015.12.020

Abstract

Abstract: 【Objective】 To investigate the feasibility of heterosis prediction by single nucleotide polymorphism (SNP) markers in rapeseed, the 60K SNP chip covering the whole genome of Brassica napus was used to estimate the genetic distance (GD) of elite parental lines of B. napus, and the correlation between GD and heterosis was analyzed for the guidance of hybrid development of rapeseed. 【Method】 Forty-six F₁ hybrids were produced using six maintainer lines (1019B, 1055B, 6098B, 8908B, 6019B and ZS11B) and eight restorer lines (R1, R2, R3, R6, R9, R10, R11 and OR1) of Polima cytoplasmic male sterility (CMS) in an incomplete diallel cross design. All the parents and F₁s were grown in three different ecological conditions which are located in Wuhan, Guiyang, and Chaohu. Ten yield-related traits including plant height (PH), branch height (BH), number of effective primary branches (NEPB), silique density (SD), effective length of main inflorescence (ELMI), number of effective siliques on main inflorescence (ESMI), number of effective siliques per plant (ESPP), seed per silique (SPS), 1 000-seed weight (TSW) and yield per plant (YPP) were investigated for mid-parent heterosis and high-parent heterosis. The 14 parental lines were genotyped by 60K SNP chip of Brassicas. GD based on SNP genotyping was estimated with MEGA5.0 software, and cluster analysis was carried out using unweighted pair group method arithmetic averages (UPGMA) method. Correlation analysis between GD and heterosis was conducted by SAS9.1 statistical analysis software.【Result】There were 40 201 loci selected from 52 157 SNP loci as being effective for genetic distance calculation and cluster analysis after quality determination. GDs of the 14 parental lines ranged from 0.1883 to 0.8811, with an average of 0.5217. The GD between 6098B and 6019B was the smallest and that between ZS11B and R6 was the largest. The parental lines were divided into four groups, with six maintainers in one big group, four restorer lines R2, R6, R9 and R10 in a second group, three restorer lines R1, R3 and R11 in the third group, and the remaining one restorer OR1 in the fourth group. This cluster results indicate that the genetic variation in the restorers is greater than that in the maintainers, which is in accordance with their pedigree relationships. The average mid-parent heterosis of the 10 traits ranged from -0.07%-38.78%, and the average high-parent heterosis ranged from -7.74%-20.78%. Except for NEPB, all other nine yield-related traits showed significant heterosis in F₁ hybrids. Especially for PH, SPS, BH and YPP, the average mid-parent heterosis was 6.83%, 15.31%, 16.13% and 38.78%, respectively, with the number of F₁s having positive mid-parent heterosis was 45, 41, 46 and 46; and the average high-parent heterosis reached 3.18%, 5.19%, 7.85% and 20.78%, respectively, with the number of F₁s having positive high-parent heterosis was 41, 31, 42 and 44. A significant positive correlation between heterosis and SNP estimated GD was detected for PH, BH and YPP, with the correlation coefficients between SNP estimated GD and mid-parent heterosis were 0.3884, 0.4051 and 0.4038, respectively. The correlation between heterosis and SNP estimated GD for other traits was not significant.【Conclusion】The genome-wide 60K SNP chip of Brassicas has significant advantages for genotyping, genetic distance estimation and cluster analysis. The GD estimated by genome-wide SNP makers has a very significantly positive correlation with heterosis for traits with high and universal heterosis, including plant yield. Thus, the genome-wide 60K SNP chip of Brassicas can be used to well predict heterosis in rapeseed.

Key words: oilseed rape, SNP marker, genetic distance, heterosis prediction

SANG Shi-fei, WANG Hui, MEI De-sheng, LIU Jia, FU Li, WANG Jun, WANG Wen-xiang, HU Qiong. Correlation Analysis Between Heterosis and Genetic Distance Evaluated by Genome-Wide SNP Chip in Brassica napus[J].Scientia Agricultura Sinica, 2015, 48(12): 2469-2478.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://www.chinaagrisci.com/EN/10.3864/j.issn.0578-1752.2015.12.020

https://www.chinaagrisci.com/EN/Y2015/V48/I12/2469

References

[1] 王汉中. 我国油菜产业发展的历史回顾与展望. 中国油料作物学报, 2010, 32(3): 300-302.

Wang H Z. Review and future development of rapeseed industry in China. Chinese Journal of Oil Crop Sciences, 2010, 32(3): 300-302. (in Chinese)

[2] Sernyk J L, Stefansson B R. Heterosis in summer rape (Brassica napus L.). Canadian Journal Plant Science, 1983, 63: 407-413.

[3] Grant I, Beversdorf W D. Heterosis and combining ability estimates in spring oilseed rape (Brassica napus L.). Canadian Journal Genetics Cytolgy, 1985, 27: 472-478.

[4] 刘捷, 唐章林, 刘列钊, 徐新福, 李加纳. 甘蓝型油菜遗传距离与杂种表现和杂种优势相关性分析. 西南农业学报, 2006, 19(4): 55-559.

Liu J, Tang Z L, Liu L Z, Xu X F, Li J N. Relationship between hybrid performance and heterosis and genetic distance in Brassica napus L.. Southwest China Journal of Agricultural Sciences, 2006, 19(4): 55-559. (in Chinese)

[5] Riaz A, Li G, Quresh Z, Swati M S, Quiros C F. Genetic diversity of oilseed Brassica napus inbred lines based on sequence-related amplified polymorphism and its relation to hybrid performance. Plant Breeding, 2001, 120: 411-415.

[6] 沈金雄, 陆光远, 傅廷栋, 杨光圣. 甘蓝型油菜遗传多样性及其与杂种表现的关系. 作物学报, 2002, 28(5): 622-627.

Shen J X, Lu G Y, Fu T D, Yang G S. Relationships between genetic diversity and hybrid performance in oilseed rape (Brassica napus L.). Acta Agronomica Sinica, 2002, 28(5): 622-627. (in Chinese)

[7] 沈金雄, 傅廷栋, 杨光圣. 甘蓝型油菜SSR、ISSR标记的遗传多样性及其与杂种表现的关系. 中国农业科学, 2004, 37(4): 477-483.

Shen J X, Fu T D, Yang G S. Relationship between hybrid performance and genetic diversity based on SSR and ISSR in Brassica napus L. Scientia Agricultura Sinica, 2004, 37(4): 477-483. (in Chinese)

[8] 徐小栋, 陈飞, 倪西源, 张晓伟, 赵坚义. 甘蓝型油菜分子距离与杂种优势和产量表型的相关分析. 浙江大学学报: 农业与生命科学版, 2010, 36(6): 641-649.

Xu X D, Chen F, Ni X Y, Zhang X W, Zhao J Y. Analysis of relationships between molecular distances and heterosis of F₁ performance in Brassica napus L. Journal of Zhejiang University: Agriculture & Life Sciences , 2010, 36(6): 641-649. (in Chinese)

[9] Yu C Y, Hu S W, Zhao H X, Guo A G, Sun G L. Genetic distances revealed by morphological characters, isozymes, proteins and RAPD markers and their relationships with hybrid performance in oilseed rape (Brassica napus L.). Theoretical and Applied Genetics, 2005, 110(3): 511-518.

[10] 谭祖猛, 李云昌, 胡琼, 梅德圣, 李英德, 徐育松. 通过分子标记估算遗传距离预测甘蓝型油菜的杂种优势. 中国油料作物学报, 2007, 29(2): 126-132.

Tan Z M, Li Y C, Hu Q, Mei D S, Li Y D, Xu Y S. Heterosis prediction based on genetic distance estimated by molecular markers in rapeseed. Chinese Journal of Oil Crop Sciences, 2007, 29(2): 126-132. (in Chinese)

[11] 杜德志, 姚艳梅, 胡琼, 徐亮. 新型特早熟春性甘蓝型油菜的遗传多样性及其杂种优势研究. 中国油料作物学报, 2009, 31(2): 114-121.

Du D Z, Yao Y M, Hu Q, Xu L. Genetic diversity and hybrid vigor of new spring rapeseed varieties (Brassica napus L.) with extreme early maturity. Chinese Journal of Oil Crop Sciences, 2009, 31(2): 114-121. (in Chinese)

[12] 姚艳梅, 聂平, 杜德志. 不同生态类型甘蓝型油菜的SRAP分析及其遗传距离与杂种优势的关系. 西北农业学报, 2012, 21(1): 80-87.

Yao Y M, Nie P, Du D Z. Analysis of different ecotypes of Brassica napus in Qinghai province by SRAP markers and study on the relationship between genetic distance and F₁ performance. Acta Agriculturae Boreali-occidentalis Sinica, 2012, 21(1): 80-87. (in Chinese)

[13] 张晓梅, 苗增建, 杜德志. 新型早熟甘蓝型春油菜恢复系遗传距离及遗传成分与配合力关系. 西北农业学报, 2013, 22(1): 68-72.

Zhang X M, Miao Z J, Du D Z. Relationship of combining ability with genetic components and genetic distance in early-maturing spring Brassica napus L. restorers. Acta Agriculturae Boreali-occidentalis Sinica, 2013, 22(1): 68-72. (in Chinese)

[14] Blair M W, Cortés A J, Penmetsa R V, Farmer A, Carrasquilla-Garcia N, Cook D R. A high-throughput SNP marker system for parental polymorphism screening, and diversity analysis in common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics, 2013, 126(2): 535-548.

[15] Weng J F, Xie C X, Hao Z F, Wang J J, Liu C L, Li M S, Zhang D G, Bai L, Zhang S H, Li X H. Genome-wide association study identifies candidate genes that affect plant height in Chinese elite maize (Zea mays L.) inbred lines. PLoS One, 2011, 6: e29229.

[16] Huang X H, Zhao Y, Wei X H, Li C Y, Wang A H, Zhao Q, Li W J, Guo Y L, Deng L W, Zhu C R, Fan D L, Lu Y Q, Weng Q J, Liu K Y, Zhou T Y, Jing Y F, Si L Z, Dong G J, Huang T, Lu T T, Feng Q, Qian Q, Li J Y, Han B. Genome-wide association study of flowering time and grain yield traits in a worldwide collection of rice germplasm. Nature Genetics, 2012, 44: 32-39.

[17] Snowdon R J, Iniguez Luy F L. Potential to improve oilseed rape and canola breeding in the genomics era. Plant Breeding, 2012, 131: 351-360.

[18] Liu L Z, Qu C M, Wittkop B, Yi B, Xiao Y, He Y J, Snowdon R J, Li J N. A high-density SNP map for accurate mapping of seed fibre QTL in Brassica napus L. PLoS One, 2013, 8(12): e83052.

[19] 刘列钊, 李加纳. 利用甘蓝型油菜高密度SNP遗传图谱定位油酸、亚麻酸及芥酸含量QTL位点. 中国农业科学, 2014, 47(1): 24-32.

Liu L Z, Li J N. QTL Mapping of Oleic Acid, Linolenic Acid and Erucic Acid Content in Brassica napus by using the high density SNP genetic map. Scientia Agricultura Sinica, 2014, 47(1): 24-32. (in Chinese)

[20] Wang N, Li F, Chen B Y, Xu K, Yan G X, Qiao J W, Li J, Gao G Z, Bancroft I, Meng J L, King G J, Wu X M. Genome-wide investigation of genetic changes during modern breeding of Brassica napus. Theoretical and Applied Genetics, 2014, 127(8): 1817-1829.

[21] Riedelsheimer C, Czedik-Eysenberg A, Grieder C, Lisec J, Technow F, Sulpice R, Altmann T, Stitt M, Willmitzer L, Melchinger A E. Genomic and metabolic prediction of complex heterotic traits in hybrid maize. Nature Genetics, 2012, 44(2): 217-220.

[22] Yan J B, Yang X H, Shah T, Sánchez-Villeda H, Li J S, Warburton M, Zhou Y, Crouch J H, Xu Y B. High-throughput SNP genotyping with the GoldenGate assay in maize. Molecular Breeding, 2010, 25(3): 441-451.

[23] Khan M A, Han Y, Zhao Y F, Korban S S. A high-throughput apple SNP genotyping platform using the GoldenGate^TM assay, Gene, 2012, 494(2): 196-201.

[24] 王会, 刘佳, 付丽, 梅德圣. 单核苷酸多态性在多倍体作物油菜中的研究进展. 中国油料作物学报, 2014, 36(3): 422-429.

Wang H, Liu J, Fu L, Mei D S. Review on single nucleotide polymorphisms in polyploid crop Brassica napus. Chinese Journal of Oil Crop Sciences, 2014, 36(3): 422-429. (in Chinese)

[25] Diers B W, McVetty P B E, Osborn T C. Relationship between heteros is and genetic distance based on restriction fragment length polymorphism markers in oils eed rape (Bras sica napus L.). Crop Science, 1996, 36: 79-83.

[26] Li G, Quiros C F. Sequence-related amplified polymorphism (SRAP), a new marker system based on a simple PCR reaction: Its application to mapping and gene tagging in Brassica. Theoretical and Applied Genetics, 2001, 103: 455-461.

Related Articles 15

[1]	WANG KunJiao,REN Tao,LU ZhiFeng,LU JianWei. Effects of Different Magnesium Supplies on the Growth and Physiological Characteristics of Oilseed Rape in Seeding Stage [J]. Scientia Agricultura Sinica, 2021, 54(15): 3198-3206.
[2]	ZHANG Fang,REN Yi,CAO JunMei,LI FaJi,XIA XianChun,GENG HongWei. Genome-wide Association Analysis of Wheat Grain Size Related Traits Based on SNP Markers [J]. Scientia Agricultura Sinica, 2021, 54(10): 2053-2063.
[3]	REN Tao,GUO LiXuan,ZHANG LiMei,YANG XuKun,LIAO ShiPeng,ZHANG YangYang,LI XiaoKun,CONG RiHuan,LU JianWei. Soil Nutrient Status of Oilseed Rape Cultivated Soil in Typical Winter Oilseed Rape Production Regions in China [J]. Scientia Agricultura Sinica, 2020, 53(8): 1606-1616.
[4]	WANG LiMing,YAN HongDong,JIAO ShaoJie,JIANG YanXi,SU DeFeng,SUN GuangQuan. Heterosis Prediction of Sweet Sorghum Based on Combining Ability and Genetic Distance [J]. Scientia Agricultura Sinica, 2020, 53(14): 2786-2794.
[5]	KunKun WANG,ShiPeng LIAO,Tao REN,XiaoKun LI,RiHuan CONG,JianWei LU. Effect of Continuous Straw Returning on Soil Phosphorus Availability and Crop Phosphorus Utilization Efficiency of Oilseed Rape-Rice Rotation [J]. Scientia Agricultura Sinica, 2020, 53(1): 94-104.
[6]	QU YuJie, SUN JunLing, GENG XiaoLi, WANG Xiao, Zareen Sarfraz, JIA YinHua, PAN ZhaoE, HE ShouPu, GONG WenFang, WANG LiRu, PANG BaoYin, DU XiongMing. Correlation Between Genetic Distance of Parents and Heterosis in Upland Cotton [J]. Scientia Agricultura Sinica, 2019, 52(9): 1488-1501.
[7]	LIU QiuXia, REN Tao, ZHANG YaWei, LIAO ShiPeng, LI XiaoKun, CONG RiHuan, LU JianWei. Determination and Application of a Critical Nitrogen Dilution Curve for Direct-Sowing Winter Oilseed Rape in Central China [J]. Scientia Agricultura Sinica, 2019, 52(16): 2835-2844.
[8]	LI ZhiYuan, YU HaiLong, FANG ZhiYuan, YANG LiMei, LIU YuMei, ZHUANG Mu, Lü HongHao, ZHANG YangYong. Development of SNP Markers in Cabbage and Construction of DNA Fingerprinting of Main Varieties [J]. Scientia Agricultura Sinica, 2018, 51(14): 2771-2787.
[9]	YAN Jing, WANG XiaoLei, ZHANG YuChi, ZHANG QingLing, WANG Jian, QIANG Sheng, SONG XiaoLing . Fitness of Herbicide-Resistant BC₃F₄ between two herbicide-resistant transgenic Brassica napus and wild Brassica juncea [J]. Scientia Agricultura Sinica, 2018, 51(1): 105-118.
[10]	ZHANG YaWei, LIU QiuXia, ZHU DanDan, FAN XiaoLin, REN Tao, ZHANG LiMei, LI XiaoKun, CONG RiHuan, LU JianWei. Effects of Different Special Controlled Release Urea Dosages on Yield and Nitrogen Uptake of Oilseed Rape [J]. Scientia Agricultura Sinica, 2018, 51(1): 139-148.
[11]	SUN ZhengWen, KUANG Meng, MA ZhiYing, WANG XingFen. Construction of Cotton Variety Fingerprints Using CottonSNP63K Array [J]. Scientia Agricultura Sinica, 2017, 50(24): 4692-4704.
[12]	ZHANG NanNan, LU ZhenHua, CUI GuoChao, PAN Lei, ZENG WenFang, NIU Liang, WANG ZhiQiang. Gene Mapping of Aphid-Resistant for Peach Using SNP Markers [J]. Scientia Agricultura Sinica, 2017, 50(23): 4613-4621.
[13]	ZHANG Lei, ZHANG WeiLe, LU JianWei, DAI ZhiGang, YI YanRui, CONG RiHuan. Study of Optimum Potassium Reducing Rate of Rice, Wheat and Oilseed Rape Under Different Soil K Supply Levels with Straw Incorporation [J]. Scientia Agricultura Sinica, 2017, 50(19): 3745-3756.
[14]	XIAO YuXiong, WANG CaiHong, TIAN YiKe, YANG ShaoLan, LI DingLi, ZHANG HaiYue. Development of DNA Molecular Markers for the Dwarf Trait in Pear Through the Method of 2b-RAD Sequencing and HRM Analysis [J]. Scientia Agricultura Sinica, 2017, 50(15): 3006-3012.
[15]	ZHANG Wei-le, DAI Zhi-gang, REN Tao, ZHOU Xian-zhu, WANG Zhong-liang, LI Xiao-kun, CONG Ri-huan. Effects of Nitrogen Fertilization Managements with Residues Incorporation on Crops Yield and Nutrients Uptake Under Different Paddy-Upland Rotation Systems [J]. Scientia Agricultura Sinica, 2016, 49(7): 1254-1266.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

Correlation Analysis Between Heterosis and Genetic Distance Evaluated by Genome-Wide SNP Chip in Brassica napus

RichHTML

PDF