Welcome to Acta Agronomica Sinica,Apr. 13, 2025

Acta Agron Sin ›› 2014, Vol. 40 ›› Issue (06): 984-993.doi: 10.3724/SP.J.1006.2014.00984

• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles     Next Articles

Characterization of Tamyb10 Haplotypes and Their Association with Pre-harvest Sprouting Resistance in a Set of Chinese Red-Grained Wheats

WANG Gen-Ping1,2,**,BI Hui-Hui2,**,SUN Yong-Wei2,WANG Cheng-She1,*,XIA Lan-Qin2,*   

  1. 1 College of Agronomy, Northwest A&F University / State Key Laboratory of Crop Stress Biology in Arid Areas, Shanxi Yangling 712100, China; 2Institute of Crop Science, Chinese Academy of Agricultural Sciences, Beijing 100081, China
  • Received:2013-11-13 Revised:2014-03-04 Online:2014-06-12 Published:2014-04-09
  • Contact: 夏兰琴, E-mail: xialanqin@caas.cn; 王成社, E-mail: wangcs2008@126.com

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Abstract:

Pre-harvest sprouting (PHS) is one of important factors affecting yield and quality of wheat (Triticum aestivum L.). Generally, red-grained wheat has higher PHS resistance than white wheat. Transcription factor Tamyb10 is a strong candidate for R-1 gene and the expression of its homologues determines wheat seed coat color. In this study, we attempted to analyze the relationship between Tamyb10 haplotype and PHS resistance using amplification result of Tamyb10 specific markers and germination index (GI) evaluated in two locations over two years. In the 119 red-grain Chinese wheat varieties collected from different wheat growth zones in China, seven Tamyb10 haplotypes (Tamyb10-A1, Tamyb10-B1, and Tamyb10-D1 locus) were detected, namely baa, aba, bba, aab, bab, abb, and bbb. Tamyb10 haplotypes were associated with GI value. Tamyb10-D1 had the greatest effect on PHS resistance, followed by Tamyb10-B1 gene, and Tamyb10-A1 had the least effect. Tamyb10 haplotypes distribution showed no obvious regional characteristic, butTamyb10 haplotype bbb correlated with high PHS resistance in the Northeast Spring Wheat Region in China.

Key words: Red-grained wheat, Pre-harvest sprouting, Tamyb10haplotype, Wheat growth zone in China

[1]Bewley J D. Seed germination and dormancy. Plant Cell, 1997, 9: 1055–1066



[2]Lenton J R. Opportunities for the manipulation of development of temperate cereals. Adv Bot Res, 2001, 34: 127–164



[3]Humphreys D G, Noll J. Methods for characterization of preharvest sprouting resistance in a wheat breeding program. Euphytica, 2002, 126: 61–65



[4]Gale M D, Lenton J R. Preharvest sprouting in wheat: a complex genetic and physiological problem affecting bread making quality in UK wheat. Asp Appl Biol, 1987, 15: 115–124



[5]孙果忠, 闫长生, 肖世和. 小麦穗发芽机制研究进展. 中国农业科技导报, 2003, 5(6): 13–18



Sun G Z, Yan C S, XIAO S H. The Mechanism on wheat pre-harvest sprouting. J AgricSci Tech, 2003, 5(6): 13–18 (in Chinese with English abstract)



[6]Gale M D, Flintham J E, Arthur E D. Alpha-amylase production in the late stages of grain development—an early sprouting damage risk period. In: Third IntSymp on Pre-Harvest Sprouting in Cereals.Boulder:Westview Press, 1983. pp 29–35



[7]Adkins S W, Bellairs S M, Loch D S. Seed dormancy mechanisms in warm season grass species. Euphytica, 2002, 126: 13–20



[8]Mares D, Mrva K, Cheong J, Williams K, Watson B, Storlie E, Sutherland M, Zou Y. A QTL located on chromosome 4A associated with dormancy in white-and red-grained wheats of diverse origin. TheorAppl Genet, 2005, 111: 1357–1364



[9]Kulwal P L, Kumar N, Gaur A, Khurana P, Khurana J P, Tyagi A K, Balyan H S, Gupta P K. Mapping of a major QTL for pre-harvest sprouting tolerance on chromosome 3A in bread wheat. TheorAppl Genet, 2005, 111: 1052–1059



[10]Yang Y, Zhang C L, Liu S X, Sun Y Q, Meng J Y, Xia L Q. Characterization of the rich haplotypes of Viviparous-1A in Chinese wheats and development of a novel sequence-tagged site marker for pre-harvest sprouting resistance. Mol Breed, 2014, 33: 75–88



[11]Yang Y, Zhao X L, Xia L Q, Chen X M, Xia X C, Yu Z, He Z H, Röder M. Development and validation of a Viviparous-1 STS marker for pre-harvest sprouting tolerance in Chinese wheats. TheorAppl Genet, 2007, 115: 971–980



[12]Warner R L, Kudrna D A, Spaeth S C, Jones S S. Dormancy in white-grain mutants of Chinese Spring wheat (Triticum aestivum L.). Seed Sci Res, 2000, 10: 51–60



[13]胡汉桥, 王罡, 张艳贞, 张领兵, 杜娟. 春小麦穗发芽抗性鉴定及机理研究. 麦类作物学报, 2001, 21(3): 13–17



Hu H Q, Wang G, Zhang Y Z, Zhang L B, Du J. The resistance and mechanism of pre harvest sprouting in spring wheat. J Triticeae Crops, 2001, 21(3): 13–17 (in Chinese with English abstract)



[14]Holton T A, Cornish E C. Genetics and biochemistry of anthocyanin biosynthesis. Plant Cell, 1995, 7: 1071–1083



[15]Himi E, Noda K. Isolation and location of three homoeologous dihydroflavonol-4-reductase (DFR) genes of wheat and their tissue-dependent expression. J Exp Bot, 2004, 55: 365–375



[16]Himi E, Nisar A, Noda K. Colour genes (R and Rc) for grain and coleoptile upregulate flavonoid biosynthesis genes in wheat. Genome, 2005, 48: 747–754



[17]Himi E, Noda K. Red grain colour gene (R) of wheat is a Myb-type transcription factor. Euphytica, 2005, 143: 239–242



[18]Bi H H, Sun Y W, Xiao Y G, Xia L Q. Characterization of DFR allelic variations and their associations with pre-harvest sprouting resistance in a set of red-grained Chinesewheat germplasm. Euphytica, 2014, 195: 197–207



[19]Himi E, Maekawa M, Miura H, Noda K. Development of PCR markers for Tamyb10 related to R-1, red grain color gene in wheat. Theor Appl Genet, 2011, 122: 1561–1576



[20]Walker Simmons M. Enhancement of ABA responsiveness in wheat embryos by high temperature. Plant, Cell & Environ, 1988, 11: 769–775



[21]蒋国梁, 吴兆苏. 小麦穗发芽抗性鉴定与白粒抗源的筛选. 上海农业学报, 1992, 8(3): 9–14



Jiang G L, Wu Z S. Preliminary report on determining seed germinability in spikes and selecting white-kerneled germplasm resources with sprouting resistance in Triticum aestivum. Acta Agric Shanghai, 1992, 8(3): 9–14 (in Chinese with English abstract)



[22]Flintham J E. Different genetic components control coat-imposed and embryo-imposed dormancy in wheat. Seed Sci Res, 2000, 10: 43–56



[23]Himi E, Mares D J, Yanagisawa A, Noda K. Effect of grain colour gene (R) on grain dormancy and sensitivity of the embryo to abscisic acid (ABA) in wheat. J Exp Bot, 2002, 53: 1569–1574



[24]Mcintosh R A, Hart G E, Gale M D. Catalogue of gene symbols for wheat: 1990 supplement. Cereal Res Commun, 1990, 18: 141–157



[25]陈杰, 陈锋, 詹克慧, 刘宝龙, 崔党群. 普通小麦籽粒Tamyb10基因等位变异的分子检测. 麦类作物学报, 2013, 33: 224–229



Chen J, Chen F, Zhan K H, Liu B L, Cui D Q. Allelic variations of Tamyb10 gene controlling grain color of bread wheat(Triticum aestimum L.). J Triticeae Crops, 2013, 33: 224–229 (in Chinese with English abstract)
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