期刊论文详细信息
BMC Genomics
Genome analysis and avirulence gene cloning using a high-density RADseq linkage map of the flax rust fungus, Melampsora lini
Research Article
Cameron A. Jack1  Narayana M. Upadhyaya2  Jeffrey G. Ellis2  Peter N. Dodds2  Gregory J. Lawrence2  Adnane Nemri3  Ann-Maree Catanzariti4  Adrienne R. Hardham4  Claire Anderson4  David A. Jones4  Muhammad Adil Khan5 
[1] ANU Bioinformatics Consulting Unit, The John Curtin School of Medical Research, The Australian National University, 131 Garran Road, 2601, Acton, ACT, Australia;CSIRO Agriculture, GPO Box 1600, 2601, Canberra, ACT, Australia;CSIRO Agriculture, GPO Box 1600, 2601, Canberra, ACT, Australia;Current address: KWS SAAT SE, Grimsehlstraße 31, 37574, Einbeck, Germany;Research School of Biology, The Australian National University, 134 Linnaeus Way, 2601, Acton, ACT, Australia;Research School of Biology, The Australian National University, 134 Linnaeus Way, 2601, Acton, ACT, Australia;Current address: ARC Centre of Excellence in Plant Energy Biology, The University of Western Australia, 35 Stirling Highway, 6009, Crawley, WA, Australia;
关键词: Avirulence gene;    Genetic linkage map;    Loss of heterozygosity (LOH);    Map-based cloning;    Melampsora lini;    Recombination;    Restriction-site associated DNA sequencing (RADseq);    Rust fungus;    Scaffold anchoring;   
DOI  :  10.1186/s12864-016-3011-9
 received in 2016-04-19, accepted in 2016-08-11,  发布年份 2016
来源: Springer
PDF
【 摘 要 】

BackgroundRust fungi are an important group of plant pathogens that cause devastating losses in agricultural, silvicultural and natural ecosystems. Plants can be protected from rust disease by resistance genes encoding receptors that trigger a highly effective defence response upon recognition of specific pathogen avirulence proteins. Identifying avirulence genes is crucial for understanding how virulence evolves in the field.ResultsTo facilitate avirulence gene cloning in the flax rust fungus, Melampsora lini, we constructed a high-density genetic linkage map using single nucleotide polymorphisms detected in restriction site-associated DNA sequencing (RADseq) data. The map comprises 13,412 RADseq markers in 27 linkage groups that together span 5860 cM and contain 2756 recombination bins. The marker sequences were used to anchor 68.9 % of the M. lini genome assembly onto the genetic map. The map and anchored assembly were then used to: 1) show that M. lini has a high overall meiotic recombination rate, but recombination distribution is uneven and large coldspots exist; 2) show that substantial genome rearrangements have occurred in spontaneous loss-of-avirulence mutants; and 3) identify the AvrL2 and AvrM14 avirulence genes by map-based cloning. AvrM14 is a dual-specificity avirulence gene that encodes a predicted nudix hydrolase. AvrL2 is located in the region of the M. lini genome with the lowest recombination rate and encodes a small, highly-charged proline-rich protein.ConclusionsThe M. lini high-density linkage map has greatly advanced our understanding of virulence mechanisms in this pathogen by providing novel insights into genome variability and enabling identification of two new avirulence genes.

【 授权许可】

CC BY   
© The Author(s). 2016

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