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Acta Agron Sin ›› 2014, Vol. 40 ›› Issue (11): 1956-1963.doi: 10.3724/SP.J.1006.2014.01956

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

Resistance to Heterodera filipjevi in Triticum aestivum?Aegilops geniculata Germplasm

XING Xiao-Ping,YANG Jing,YUAN Hong-Xia,ZHANG Jia-Jia,LI Hong-Lian*,LIU Wen-Xuan*   

  1. Henan Agricultural University / Collaborative Innovation Center of Henan Grain Crops / National Key Laboratory of Wheat and Maize Crop Science, Zhengzhou 450002, China
  • Received:2013-12-23 Revised:2014-09-16 Online:2014-11-12 Published:2014-09-26

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Abstract:

Heterodera filipjevi is a pathogenic nematode of wheat newly discovered in Huang-Huai Plain of China. However, germplasm resistant to H. filipjevi has been rarely found in genus Triticum. To mine resistance genes from wheat relative species, we identified the resistance to H. filipjevi in 34 accessions of Aegilops geniculata by inoculating H. filipjevi Xuchang population with mean of female number per plant method and relative resistance index method in greenhouse. Six candidates of germplasm were identified including PI542187 with high resistance and other five accessions (PI564186, PI573396, PI374365, PI361880, and PI374365) with resistance. A set of Chinese Spring (CS)?Ae. geniculata addition lines were used to chromosomally locate the resistance gene(s). Lines 7Ug and 5Mg showed obviously fewer females per plant than CS. In two consecutive years, 17 CS?Ae.geniculata 5Mg-5D translocation lines were further tested for resistance against H. filipjevi. Lines 5Mg464, 5Mg466, and 5Mg457 exhibited resistance to H. filipjevi.

Key words: Aegilops geniculata, Heterodera filipjevi, Additional line, Translocation line, Resistance identification

[1]王明祖, 雷智峰, 肖炎农. 禾谷孢囊线虫寄主范围的研究. 植保保护, 1996, (1): 3−5



Wang M Z, Lei Z F, Xiao Y N. Host range of Heterodera avenae to some important plants. Plant Prot, 1996, (1): 3−5 (in Chinese with English abstract)



[2]Nicol J M, Rivoal R, Taylor S, Zaharieva M. Global importance of cyst (Heterodera spp.) and lesion nematodes (Pratylenchus spp.) on cereals: distribution, yield loss, use of host resistance and integration of molecular tools. Nematol Monogr Perspect, 2003, 2: 1−19



[3]Rivoal R, Nicol J M. Past research on the cereal cyst nematode complex and future needs. In: Ian T R, Nicol J M, Dababat A A. Cereal Cyst Nematodes: Status, Research and Outlook. Antalya, Turkey: CIMMYT, 2009. pp 3−10



[4]陈品三, 王明祖, 彭德良. 我国小麦禾谷孢囊线虫(Heterodera avenae Wollenweber)的发现与鉴定初报. 中国农业科学,1991, 24(5): 89−91



Chen P S, Wang M Z, Peng D L. Preliminary report of identification on cereal cyst nematode of wheat in China. Sci Agric Sin, 1991, 24(5): 89−91 (in Chinese with English abstract)



[5]彭德良, 李惠霞, 王锡锋, Ian Relay, Julie Nicol, 侯生英, 欧师琪. 我国小麦禾谷孢囊线虫的新发生分布地区. 见: 廖金铃, 彭德良, 段玉玺. 中国线虫学研究第2卷. 北京: 中国农业科学技术出版社, 2008. pp 344−345



Peng D L, Li H X, Wang X F, Relay I, Nicol J, Hou S Y, Ou S Q. New distribution of cereal cyst nematode (Heterodera avenae) in China. In: Liao J L, Peng D L, Duan Y X, eds. Nematology research in China. Vol. 2. Beijing: China Agricultural Science and Technology Press, 2008. pp 344−345( in Chinese with English abstract)



[6]Peng D L, Nicol J M, Li H M, Hou S Y, Li H X, Chen S L, Dababat A A. Current knowledge of cereal cyst nematode (Heterodera avenae) on wheat in China. In: Riley I T, Nicol J M, Dababat A A, eds. Cereal Cyst Nematodes: Status, Research and Outlook. Ankara, Turkey: CIMMYT Press, 2009. pp 21−23



[7]Li H L, Yuan H X, Sun J W, Fu B, Nian G L, Hou X S, Xing X P, Sun B J. First record of the cereal cyst nematode Heterodera filipjevi in China. Plant Dis, 2010, 94: 1505



[8]Peng D L, Ye W X, Peng H, Gu X C. First report of the cyst nematode (Heterodera filipjevi) on wheat in Henan Province, China. Plant Dis, 2010, 94: 1262



[9]年高磊, 孙君伟, 侯兴松, 付博, 袁虹霞, 邢小萍, 李洪连. 河南省3个菲利普孢囊线虫群体致病型比较鉴定. 见: 廖金铃,彭德良, 段玉玺. 中国线虫学研究第3卷. 北京: 中国农业科学技术出版社, 2010. pp130−133



Nian G L, Sun J W, Hou X S, Fu B, Yuan H X, Xing X P, Li H L. Identification of pathotypes of three populations of Heterodera filipjevi in Henan province. In: Liao J L, Peng D L, Duan Y X, eds. Nematology Research in China. Vol. 3. Beijing: China Agricultural Science and Technology Press, 2010. pp 130−133 ( in Chinese)



[10]Fu B, Yuan H X, Zhang Y, Hou X S, Nian G L, Zhang P, Xing X P, Sun B J, Riley I T, Li H L. Molecular characterization of cereal cyst nematodes in winter wheat on the Huang-Huai flood plain of China using RFLP and rDNA-ITS sequence analyses. Aust Plant Pathol, 2011, 40: 277−285



[11]张万民, 段玉玺, 陈立杰, 梁晨. 水肥耦合对香蕉园土壤线虫群落结构及多样性的影响. 应用生态学报, 2002, 13: 638−640



Zhang W M, Duan Y X, Chen L J, Liang C. Effect of agrochemicals and bio-control productions on soil nematode community dynamics. Chin J Appl Ecol, 2002, 13: 638−640 (in Chinese with English abstract)



[12]Rathjen A J, Eastwood R F, Lewis J G, Dube A J. Breeding wheat for resistance to Heterodera avenae in Southeastern Australia. Euphytica, 1998, 100: 55–62



[13]O'Brien P C, Fisher J M. Resistance within wheat, barley and oat cultivars to Heterodera avenae in South Australia. Aust J Exp Agric Anim Husb, 1974, 14: 399−404



[14]Bekal S, Jahier J, Rivoal R. Host responses of Triticeae to species of the cereal cyst nematode complex in relation to breeding resistant durum wheat. Fundam Appl Nematol, 1998, 21: 359–370



[15]Montes M J, Andres M F, Sin E, Lopez-Brana I, Martin-Sanchez J A, Romero M D, Delibes A. Cereal cyst nematode resistance conferred by the Cre7 gene from Aegilops triuncialis and its relationship with Cre genes from Australian wheat cultivars. Genome, 2008, 51: 315−319



[16]Coriton O, Barloy D, Huteau V, Lemoine J, Tanguy A M, Jahier J. Assignment of Aegilops variabilis Eig chromosomes and translocations carrying resistance to nematodes in wheat. Genome. 2009, 52: 338−346



[17]阎乃红, 陈静, 余懋群. 小麦禾谷孢囊线虫及抗线虫性基因研究进展. 麦类作物学报, 2003, 23: 90−94



Yang N H, Chen J, Yu M Q. Progress of study on resistance to cereal cyst nematode in wheat. J Triticeae Crops, 2003, 23: 90−94 (in Chinese with English abstract)



[18]Yu M Q, Person-Dedryver F, Jahier J. Resistance to root knot nematode, Meloidogyne naasi (Franklin) transferred from Aegilops variabilis Eig to bread wheat. Agronomie, 1990, 10: 451−458



[19]Yu M Q, Jahier J, Person-Dedryver F. Chromosomal location of a gene (Rkn-mnl) for resistance to the root-knot nematode transferred into wheat from Aegilops variabilis. Plant Breed, 1995, 114: 358−360



[20]Zhai X G, Zhao T, Liu Y H, Long H, Deng G B, Pan Z F, Yu M Q. Characterization and expression profiling of a novel cereal cyst nematode resistance gene analog in wheat. Mol Biol, 2008, 42: 960−965



[21]张佳佳, 袁虹霞, 张瑞奇, 邢小萍, 代君丽, 牛吉山, 李洪连, 陈佩度. 普通小麦–簇毛麦种质对菲利普孢囊线虫的抗性分析. 作物学报, 2012, 38: 1969−1976



Zhang J J, Yuan H X, Zhang R Q, Xing X P, Dai J L, Niu J S, Li H L, Chen P D. Analysis of resistance to Heterodera filipjevi in Triticum aestivum–Dasypyrum villosum germplasm. Acta Agron Sin, 2012, 38: 1969−1976 (in Chinese with English abstract)



[22]Kuraparthy V, Chhuneja P, Dhaliwal H S, Kaur S, Bowden R L, Gill B S. Characterization and mapping of cryptic alien introgression from Aegilops geniculata with new leaf rust and stripe rust resistance genes Lr57 and Yr40 in wheat. Theor Appl Genet, 2007, 114: 1379−1389



[23]詹海仙, 畅志坚, 杨足君, 张晓军, 李欣. 小麦抗白粉病基因来源及抗性评价的研究进展. 中国农学通报, 2010, 26(10): 42−46



Zhan H X, Chang Z J, Yang Z J, Zhang X J, Li X. Sources and evaluation of powdery mildew resistance genes in wheat. Chin Agric Sci Bull, 2010, 26(10): 42−46 (in Chinese with English abstract)



[24]Zeller F J, Kong L, Hartl L, Mohler V, Hsam S L K. Chromosomal location of genes for resistance to powdery mildew in common wheat (Triticum aestivum L. em Thell.): 7. Gene Pm29 in line Pova. Euphytica, 2002, 123:187−194



[25]何中虎, 夏先春, 陈万权. 小麦秆锈病新小种Ug99的抗性研究进展. 麦类作物学报, 2008, 28: 170−173



He Z H, Xia X C, Chen W Q. Breeding for resistance to new race Ug99 of stem rust pathogen. J Triticeae Crops, 2008, 28: 170−173 (in Chinese with English abstract)



[26]Liu W, Rouse M, Friebe B, Jin Y, Gill B S, Pumphrey M O. Discovery and molecular mapping of a new gene conferring resistance to stem rust, Sr53, derived from Aegilops geniculata and characterization of spontaneous translocation stocks with reduced alien chromatin. Chromosome Res, 2011, 19: 669−682



[27]袁虹霞, 张福霞, 张佳佳, 侯兴松, 李洪杰, 李洪连. CIMMYT小麦种质资源对菲利普孢囊线虫(Heterodera filipjevi)河南许昌群体的抗性. 作物学报, 2011, 37: 1956−1966



Yuan H X, Zhang F X, Zhang J J, Hou X S, Li H J Li H L. Resistance of CIMMYT wheat germplasm to Heterodera filipjevi Xuchang population from Henan Province, China. Acta Agron Sin, 2011, 37: 1956−1966 ( in Chinese with English abstract)



[28]Stirling G, Nicol J M, Reay F. Advisory services for nematode pests. Operational guidelines. Rural industries research and development corporation publication, Canberra, ACT, Australia, 1999, Vol. 41. p 111



[29]翟旭光, 邓光兵, 潘志芬, 余懋群. 小麦及其近源属对南方根结线虫的抗性鉴定. 种子, 2008, 27(7): 1−3



 Zhai X G, Deng G B, Pan Z F, Yu M Q. Evaluation on resistance of wheat and its relative resources to root-knot nematode. Seed, 2008, (7): 1−3 (in Chinese with English abstract)



[30]李庆, 叶华智. 小麦近缘野生植物对禾谷缢管蚜的抗蚜性研究. 中国农业科学, 2002, 35: 719−723



Li Q, Ye Z H. Studies on resistance of wild relatives in Triticeae to oat bird-cherry aphids (Homoptera: Aphiddidae). Sci Agric Sin, 2002, 35: 719−723 ( n Chinese with English abstract)



[31]高婷, 庄亮, 郭秀荣, 畅志坚. 易位系在小麦遗传育种中的应用及展望. 山西农业科学, 2004, 32(1): 3−8



Gao T, Zhuang L, Guo X R, Chang Z J. The application and prospect of translocations in Wheat genetics and breeding. J Shanxi Agric Sci, 2004, 32(1): 3−8 (in Chinese with English abstract)



[32]任正隆. 小麦遗传背景对黑麦抗锈基因Lr26表达的影响. 遗传学报, 1993, 20: 312−316



Ren Z L. Effect of Wheat genetic background on the expression of the rye gene Lr26 for resistance to leaf rust in wheat. Acta Genet Sin, 1993, 20: 312−316 (in Chinese with English abstract)



[33]吴红坡, 王亚娟, 王长有, 吉万全. 小麦–卵穗山羊草衍生后代的SSR分子标记鉴定和白粉病抗性评价. 麦类作物学报, 2012, 32: 22−27



Wu H P, Wang Y J, Wang C Y, Ji W Q. Identification of wheat–Aegilops ovata derivatives using SSR markers and evaluation of their powdery mildew resistance. J Triticeae Crops, 2012, 32: 22−27 (in Chinese with English abstract)



[34]杨英仓, 徐如宏, 任明见, 张庆勤. 山羊草基因组及其在小麦改良中的应用研究进展. 种子, 2004, 23(5): 37−40



Yang Y C, Xu R H, Ren M J, Zhang Q Q. Genome of Aegilops and progress of their application in wheat improvement. Seed, 2004, 23(5): 37−40 (in Chinese)



[35]翁跃进. 山羊草属基因库的开拓利用. 作物品种资源, 1995, (2): 16−18



Weng Y J. Exploration of genomes of genus of Aegilops. Crop Genet Res, 1995, (2): 16−18 (in Chinese)
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