References (page 40 of 40)⌂ Home

11730. Cao QA, Zhu ZW, Xu DA, Wu JH, Xu XW, Dong Y, Bian YJ, Ding FG, Zhao DH, Tu Y, Wu L, Dejun DJ, Lan CX, Xia XC, He ZH and Hao YF 2024 Characterization of a 4.1 Mb inversion harboring the stripe rust resistance gene_YR86_on wheat chromosome 2AL. The Crop Journal 12: 1168-1175. DOI: 10.1016/j.cj.2024.05.011.
11731. Xu XY, Li GQ, Bai GH, Carver BF, Bian RL, Bernardo A, Scott Armstrong J. 2023 Genomic location of_Gb1_, a unique gene conferring wheat resistance to greenbug biotype F. The Crop Journal 11: 1595-1599. DOI: 10.1016/j.cj.2023.02.002.
11732. Fu BS, Zhang ZL, Zhang QF, Wu XY, Wu JZ and Cai SB 2017 Identification and mapping of a new powdery mildew resistance allele in the Chinese wheat landrace Hongyoumai. Molecular Breeding 37, 133. DOI 10.1007/s11032-017-0728-3.
11733. Mackenzie A, Norman M, Gessese M, Chen CH, Sorensen C, Hovmoller M, Ma LN, Forrest K, Hickey L, Bariana H, Bansal U and Periyannan S 2023 Wheat stripe rust resistance locus_YR63_is a hot spot for evolution of defence genes – a pangenome discovery. BMC Plant Biology 23, 590. DOI: 10.1186/s12870-023-04576-2.
11734. Qian ZJ, Han GH, Yu NN, Liu C, Han R, Jameson PE, Wang JJ, Zhao Y, Xiao B, LiuRS, Zhang JD, Jin YL, Li HJ and Ma PT 2024 Fine mapping of the powdery mildew resistance gene_PmXQ-0508_in bread wheat. The Crop Journal 12: 1176-1184. doi.org/10.1016/j.cj.2024.05.016
11735. Asuke S, Morita K, Shimizu M, Abe F, Terauchi R, Nago C, Takahashi Y, Shibata M, Yoshioka M, Iwakawa M, Kishi-Kaboshi M, Su ZO, Nasuda S, Handa H, Fujita M, Tougou M, Hatta K, Mori N, Matsuoka Y, Kato K and Tosa Y 2024 Evolution of wheat blast gene _Rmg8_accompanied by differentiation of variants recognizing the powdery mildew fungus. Nature Plants 10: 971-983. DOI: 10.1101/2023.09.26.559445.
11736. Yoshioka M, Kishii M, Singh PK, Inoue Y, Vy TTP, Tosa Y and Asuke S 2024_Rmg10_, a novel wheat blast resistance gene derived from_Aegilops tauschii_. Phytopathology Draft manuscript. /DOI: 10.1094/PHYTO-01-24-0018-R
11737. Torada A, Koike M, Ogawa T, Takenouchi Y, Tadamura K, Wu JZ, Matsumoto T, Kawaura T and Ogihara Y 2016 A causal gene for seed dormancy on wheat chromosome 4A encodes a MAP kinase kinase. Current Biology 26: 782-787. DOI:10.1038/s41477-024- 01711-1.
11738. Abe F, Haque E, Hisano H, Tanaka T, Kamiya Y, Mikami M, Kawaura K, Endo M, Onishi K, Hayashi T and Sato K 2019 Genome-edited triple-recessive mutation alters seed dormancy in wheat. Cell Reports 28: 1362–1369. DOI: 10.1016/j.celrep.2019.06.090.
11739. Song J, Li L, Liu BY, Dong YC, Dong Y, Li FJ, Liu SY, Luo XM, Sun MJ, Ni ZQ, Fei SP, Xia XC, Ni ZF, He ZH and Cao ZH 2023 Fine mapping of reduced height locus_RHT26_in common wheat Theoretical and Applied Genetics 136, 62. DOI: 10.1007/s00122-023- 04331-z.
11740. Liu XL, Zheng SS, Tian SQ, Si YQ, Ma SW, Ling H-Q and J Niu JQ2024 Natural variant of_Rht27_, a dwarfing gene, enhances yield potential in wheat. Theoretical and Applied Genetics 137, 128 DOI: 10.1007/s00122-024-04636-7.
11741. Xu DA, Jia CF, Lyu XR, Yang, Qin HM, Wang YL, Hao QL, Liu WX, Dai XH, Zeng JB, Zhang HS, Xia XC, He ZH, Cao SH and Ma WJ 2023 In silico curation of QTL-rich clusters and candidate gene identification for plant height of bread wheat.The Crop Journal 11: 1480–1490. DOI: 10.1016/j.cj.2023.05.007.
11742. Lu CT, Du J, Chen HY, Gong SJ, Jin YY, Meng XR, Zhang T, Fu BS, Molnár I, Holušová K, Said M, Xing LP, Kong LN, Doležel J, Li GY, Wu JZ, Chen PD, Cao AZ and Zhang RQ 2024 Wheat_Pm55_alleles exhibit distinct interactions with an inhibitor to cause different powdery mildew resistance. Nature Communications 15, 503. DOI:10.1038/s41467-024- 44796-0.
11743. Elliott C, Zhou FS, Spielmeyer W, Panstruga R and Schultze-Lefert P 2002 Functional conservation of wheat and rice_Mlo_orthologs in defense modulation to the powdery mildew fungus. Molecular Plant Microbe Interactions 15: 1069–1077. DOI: 10.1094/MPMI.2002.15.10.1069.
11744. Wang YP, Cheng X, Shan QW, Zhang Y, Liu JX, Gao CX and Qiu JL 2014. Simultaneous editing of three homoeoalleles in hexaploid bread wheat confers heritable resistance to powdery mildew. Nature Biotechnology 32: 947-951. DOI: 10.1038/nbt.2969.
11745. Li SN, Lin DX, Zhang YW, Deng M, Chen YX, Lv B, Li BS, Lei Y, Wang YP, Zhao L, Liang YT, Liu JX, Chen KL, Liu ZY, Xiao J, Qiu J-L and Gao CX 2022 Genome-edited powdery mildew resistance in wheat without growth penalties. Nature 602: 455-460. DOI: 10.1038/s41586-022-04395-9.
11746. Wang J, Li HY, Shen T, Lyu SK, ur Rehman S, Li HN, Wang GP, Xu BY, Wang Q, Hub WY, Li KR, Bai SS, Mac J, Yu HT, Rouse MN and Chen SS 2023 High-resolution genetic mapping and identification of candidate genes for the wheat stem rust resistance gene _Sr8155B1_. The Crop Journal 11: 1852–1861. DOI: 10.1016/j.cj.2023.09.006.
11747. Zhang JP, Nirmala J, Chen SS, Jost M, Steuernagel B, Karafiatova M, Hewitt T, Li HN, Edae E, Sharma K, HoxhaS, Bhatt D, Antoniou-Kourounioti R, Dodds P, Wulff BBH, Dolezel J, Ayliffe M, Hiebert C, McIntosh R, Dubcovsky J, Zhang P, Rouse MN, and Lagudah E 2023 Single amino acid change alters specificity of the multi-allelic wheat stem rust resistance locus_SR9_. Nature Communications 14, 7354. DOI: 10.1038/s41467-023- 42747-9.
11748. Xue SL, Huan Wang HA, Ma YY, Sun TP, Wang YX, Meng F, Wang XT, Yang ZH,·Zhang JL, Du JX, Li SP and Li ZF 2024 Fine mapping of powdery mildew resistance gene_PmXNM_in a Chinese wheat landrace Xiaonanmai, Theoretical and Applied Genetics 137, 3510. DOI: 1007/s00122-024-04544-w.
11749. Xue SL, Hu SS, Chen XA, Ma YY, Lu MX, Bai SL, Wang XT, Sun TP, Wang YX, Wan HS, An X and Li SP. 2022 Fine mapping of_Pm58_from_Aegilops tauschii_conferring powdery mildew resistance. Theoretical and Applied Genetics 135:1657–1669. DOI: 10.1007/s00122-022-04061-8.
11750. Corsi, B, Percival‑Alwyn L, Downie RC, Venturini L, Iagallo EM, Campos Mantello M, McCormick‑Barnes C, Theen See P, Oliver RP, Moffat CS and Cockram J 2020·Genetic
11751. Running KLD, Momotaz A, Kariyawasam GK, Zurn JD, Acevedo M, Carter AH, Liu Z and Faris JD 2022 Genomic analysis and delineation of the tan spot susceptibility locus_Tsc1_in wheat. Frontiers in Plant Science 13,793925. DOI: 0.3389/fpls.2022.793925.
11752. Xu XY, Li GQ, Cowger C, Bai GH, Carver BF, Bian RL and Bernardo A 2023 Identification of a novel_Pm65_allele conferring a wide spectrum of resistance to powdery mildew in wheat accession PI 351817. Phytopathology 113: 1979-1984. DOI: 10.1094/Phyto-01-23-0032-R.
11753. Xu XT, Ni ZQ, Zou XY, Zhang YL, Tong JY, Xu XW, Dong YC, Han B, Li SM, Wang DS, Xia XC, He ZH and Hao YF 2023 QTP mapping reveals both all-stage and adult plant resistance to powdery mildew in Chinese elite cultivars. Plant Disease 107: 3230-3237. DOI: 10.1094/PDIS-02-23-0399-RE.
11754. Li HN, Luo J, Zhang WJ, Hua L, Li K, Wang JA, Xu BY, Yang C, Wang GP, Rouse MN, Dubcovsky J and Chen SS 2023 High‑resolution mapping of_SrTm4_, a recessive resistance gene to wheat stem rust. Theoretical and Applied Genetics 136:120 DOI: 10.1007/s00122- 023-04369-z.
11755. Islam MT, Nago C, Yoshioka M, Vy TTP, Tosa Y and Asuke S. 2024. Identification of _Rmg11_in tetraploid wheat as a new blast resistance gene with tolerance to high temperature. Phytopathology XXXX. DOI:10.1094/PHYTO-02-24-0074-R.
11756. Li HH, Men WQ, Ma C, Liu QW, Dong ZJ, Tian XB, Wang CL, Liu C, Gill HS, Ma PT, Zhang ZB, Liu B, Zhao Y, Sehgal SK and Liu WX 2024 Wheat powdery mildew resistance gene_Pm13_encodes a mixed lineage kinase domain-like protein. Nature Communications 15, 2449. DOI:10.1038/s41467-024-46814-7.
11757. Gao P, Zhou Y, Gebrewahid TW, Zhang PP, Wang SM, Liu DQ and Li ZF 2024 QTL mapping for adult-plant resistance to leaf rust in Italian wheat cultivar Libellula. Plant Disease 108: 13-19. DOI: 10.1094/PDIS-01-23-0105-SR.
11758. Saini J, Faris JD Zhang QD, Rouse, MN, Jin Y, Long YM, Klindworth DL, Elias EM, McClean PE, Edwards MC and Xu SS 2018. Identification, mapping, and marker development of stem rust resistance genes in durum wheat ‘Lebsock’. Molecular Breeding 38, 77. DOI: 10.1007/s11032-018-0833-y.
11759. Deng M, Long L, Cheng YK, Yao FJ, Guan FN, Wang YQ, Li H, Zhien Pu, Li W, Jiang QT, Wei YM, Ma JA, Kang HY, Qi PF, Wang JR, Zheng YL, Jiang YR and Chen GY 2022 Mapping a stable adult-plant stripe rust resistance QTL on chromosome 6AL in Chinese wheat landrace Yibinzhuermai. Crop J 10: 1111-1119. DOI: 10.1016/j.cj.2021.10.011.
11760. Wang YQ, Gao MR, Jiang YF, Huang WZ, Zhao X, Zhu W, Li H, Y,· Zeng JA, Wu DD, Wei YM, Zhou YH, Zheng YL, Zhang P, Chen GY and Kang HY 2024 Identification of candidate genes for adult plant stripe rust resistance transferred from_Aegilops ventricosa_ 2NvS into wheat via fine mapping and transcriptome analysis. Theoretical and Applied Genetics (2024) 137, 116. DOI: 10.1007/s00122-024-04620-1.
11762. Naz AA, Bungartz A, Serfling A, Kamruzzaman M, Schneider M, Wulff BBH, Pillen, Ballvora A, Oerke E-C, Ordon F and Léon J 2021._Lr21_diversity unveils footprints of wheat evolution and its new role in broad-spectrum leaf rust resistance. Plant, Cell & Environment 44, 3445-3458. DOI: 10.1111/pce.141443458
11763. Dibley K, Jost M, McIntosh R, Lagudah E and Zhang P 2024. The wheat stripe rust gene _YrCG _is_Yr10_. Nature Communications 15, 3291. DOI: 10.1038/s41467-024-47513-z.
11764. Alfares W, Bouguennec A, Balfourier F, Gay G, Berges H, Vautrin S, Sourdille S, Bernard M and Feuillet C. 2009 Fine mapping and marker development for the crossability gene _SKr_on chromosome 5BS of hexaploid wheat (_Triticum aestivum_L.). Genetics 183: 469– 481. DOI: 10.1534/genetics.109.107706.
11765. Rey M-D, Martín AC, Higgins J, Swarbreck D, Uauy C, Shaw P and Moore 2017 Exploiting the_ZIP4_homologue within the wheat_Ph1_locus has identified two lines exhibiting homoeologous crossover in wheat-wild relative hybrids. Molecular Breeding 37: 95. DOI: 10.1007/s11032-017-0700-2.
11766. Boden SA, Langridge P, Sprangenberg G and Able JA 2009_TaASY1_promotes homologous chromosome interactions and is affected by deletion of_Ph1_. The plant Journal 57: 487-497. DOI: 10.1111/j.1365-313x.2008.03701.
11767. Di Dio C, Serra H, Sourdille P and Higgins JD 2023 ASYNAPSIS 1 ensures crossover fidelity in polyploid wheat by promoting homologous recombination and suppressing non- homologous recombination. Frontiers in Plant Science XXXX. DOI: 10.3389/fpls.2023.1188347
11768. Manan F, Shi GJ, Gong HM, Hou HY, Khan H, Leng YQ, Castell-Miller C, Ali S, Faris JD, Zhong SB, Steffenson BJ and Liu ZH 2023 Prevalence and importance of the necrotrophohic effector gene_ToxA_in_Bipolaris sorokiniana_populations collected from spring wheat and barley. Plant Disease 107: 2424-2430. DOI: 10.1094/PDIS-08-22-2011- RE.
11769. Krolow K 1970 Investigations on compatibility between wheat and rye. Zeitschrift fur Pflanzenzuchtung, 64, 44-72. DOI: NOT AVAILABLE.
11771. Muterko A, Kalendar R and Salina E 2016 Allelic variation at the VERNALIZATION-A1, VRN-B1, VRN-B3, and PHOTOPERIOD-A1 genes in cultivars of_Triticum durum_. Planta 244:1253-1263. DOI: 10.1007/s00425-016-2584-5.
11772. Xie ZC, Zhang QA, Xia CV, Dong CH, Li DP, Liu X, Kong XY and Zhang 2024 Identification of the early leaf senescence gene_ELS3_in bread wheat (_Triticum aestivum_L.). Planta 259, 5. DOI: 10.1007/s00425-023-04278-x.
11773. Wang XT, Xiang MJ, Li HZ, Li XX, Mu KQ, Huang S, Zhang YB, Cheng XR, Yang SQ, Yuan XY, Singh RP, Bhavani S, Zeng QD, Wu JH, Kang ZS, Liu SJ and Han DJ 2024 High‑density mapping of durable and broad‑spectrum stripe rust resistance gene_Yr30_in wheat. Theoretical and Applied Genetics 137, 152. DOI: 10.1007/s00122-024-04654-5.
11774. Yao DY, Ijaz W, Li Y, Hu JH, Peng WT, Zhang BW, Wen XL, Wang J, Qiu D, Li HI, Xiao SH and Sun GZ 2022. Identification of a_Pm4_allele as a powdery mildew resistance gene in wheat line Xiaomaomai. International Journal of Molecular Science 23, 1194. DOI: 10.3390/ijms23031194.
11775. O’Hara T, Steed A, Goddard R, Gaurav K, Arora S, Quiroz-Chávez J, Ramírez-González R, Badgami R, Gilbert D, Sánchez-Martín J, Wingen L, Feng C, Jiang M, Cheng SF, Dreisigacker S, Keller B, Wulff BBH, Uauy C and Nicholson P 2024 The wheat powdery mildew resistance gene_Pm4_also confers resistance to wheat blast. Nature Plants 10: 894- 993. DOI: 10.1038/s41477-024-01718-8.
11776. Singh PK, Gahtyari NC, Roy C, Roy KK, He XY, Tembo B, Xu KJ, Juliana P, Sonder K, Kabir MR and Chawade A (2021) Wheat blast: A disease spreading by intercontinental
11777. Klymiuk V, Wiebe K, Chawla HS1, Ens J, Subramaniam R and Pozniak CJ 2024 Coordinated function of paired NLRs confers_Yr84_-mediated stripe rust resistance in wheat. bioXiv11689 DOI: 10.1101/2024.06.14.599041.
11778. Xu BY, Shen T, Chen H, Li HN, ur Rehman, Lyu SK, Hua L, Wang GP, Zhang CZ, Li KR, Hao Li H, Lan CX, Chen G-Y, Hao M and Chen SS. 2024 Mapping and characterization of rust resistance genes_Lr53_and_Yr35_introgressed from_Aegilops_species. Theoretical and Applied Genetics 137, 113. DOI: 10.1007/s00122-024-04616-x.
11779. Mago R, Verlin D, Zhang P, Bansal U, Bariana H, Jin Y, Ellis J, Hoxha S and Dundas I 2013 Development of wheat–_Aegilops speltoides_recombinants and simple PCR-based markers for_Sr32_and a new stem rust resistance gene on the 2S#1 chromosome. Theoretical and Applied Genetics 126: 2943-2955. DOI: 10.1007/s00122-013-2184-8.
11780. Li HY, Li KR, Li HN, Yang C, Perera G, Wang GP, Lyu LK, Hua L, ur Rehman S, Zhang YZ, Ayliffe M, Yu HT and Chen SS 2024. Mapping and candidate gene analysis of an all- stage stem rust resistance gene in durum wheat landrace PI 94701. DOI: 10.20944/preprints202407.0406.v1.
11781. Wu CJ, Ma KJ, Chen WB, Li JB, Liu MJ, Cheng P, Wang BT and Li QA 2023 Identification and molecular mapping of the gene_YrF_in wheat cultivar Flanders with durable resistance to stripe rust. Plant Disease 107: 2716-2723. DOI: 10.1094/PDIS-11-22- 2683-RE.
11783. Yang GT, Boshoff WHP, Li HW, Pretorius ZA, Luo QL, Li B, Li ZS and Zheng Q 2021 Chromosomal composition analysis and molecular marker development for the novel Ug99‑resistant wheat–_Thinopyrum ponticum_translocation line WTT34. Theoretical and Applied Genetics 134: 1587-1599. DOI: 10.1007/s00122-021-03796-0.