References (page 38 of 40)⌂ Home

11529. Qiu LN, Wang HF, Li YH, Wang WD, Liu YJ, Mu JY, Geng MM, Guo WL, Hu ZR, Ma J, Sun QX and Xie CJ 2020 Fine mapping of the wheat leaf rust resistance gene_LrLC10_ (_Lr13_) and validation of its co-segregation markers. Frontiers in Plant Science 11, 470. DOI: 10.3389/fpls.2020.00470.
11530. Hewitt T, Zhang JP, Li H, Upadhyaya N, Li JB, Park RF, Hoxha S, McIntosh R, Lagudah E and Zhang P 2021 Wheat leaf rust resistance gene_Lr13_is a specific_Ne2_allele for hybrid necrosis. Molecular Plant 14: 1025-1028. DOI: 10.1016/j.molp2121.05.010.
11531. Yan XC, Li MM, Zhang PP, Yin GH, Zhang HZ, Gebrewalid TW, Zhang JP, Dong LL, Liu DQ, Liu ZY and Li ZF 2021 High-temperature wheat leaf rust resistance gene_Lr13_ exhibits pleiotropic effects on hybrid necrosis. Molecular Plant 14: 1029-1032. DOI: 10.1016/j.molp.2021.05.009.
11532. Si YQ, Zheng SS, Niu JQ, Tian SQ, Gu MJ, Lu Q, He YL, Zhang J, Shi XL, Li YW and Ling H-Q 2021_Ne2_, a typical CC-NBS-LRR-type gene, is responsible for hybrid necrosis in wheat. New Phytologist. DOI: 10.1111/nph.17575.
11533. Xie JZ, Guo GG, Wang Y, Hu AZ, Li JT, Qiu D, Li JH, Wu QH, Lu P, Chen YX, Dong LL, Li MM, Zhang HZ, Zhang PP, Zhu KY, Li BB, Deal KR, Huo NX, Zhang Y, Luo M-C, Liu SZ, Gu YQ, Li HJ and Liu ZY 2020 A rare single nucleotide variant in_pm5e_confers powdery mildew resistance in common wheat. New Phytologist 228: 1011-1026. DOI: 10.111/nph.16762.
11534. Li QQ, Zhao QS, Jiang HB, Geng JF, Liu LX, Zhang XY, Xie YZ and Wang CS 2017 Characteristics and genetic analysis of wheat mutant I30 with white stripe pattern. Journal of Triticeae Crops 37: 871-879. DOI: 10.7606/j.issn.1009-1041.2017.07.03. In Chinese with English summary.
11535. Li HJ, Jiao ZX, Ni YJ, Jiang YM, Li JC, Pan C, Zhang J, Sun YL, An JH, Liu HJ, Li QY and Niu JS 2021 Heredity and gene mapping of a novel_white stripe leaf_mutant in wheat. Journal of Integrative Agriculture 20: 1743-1752. DOI: 10.1016/S2095-3119(20)63345-7.
11536. Zhang Q,Wei WX, Zuansun XX, Zhang SN, Wang C, Liu NN, Qiu LN, Wang WD, Guo WL, Ma J, Peng HR, Hu ZR, Sun QX and Xie CJ 2012 Fine mapping of the leaf rust resistant gene_Lr65_in spelt wheat ‘Altgold’. Frontiers in Plant Science 12, 666921. DOI: 10.3389/fpls.2021.666921.
11537. Li N, Tan QY, Ding JH, Pan XL and Ma ZQ 2021 Fine mapping of_Ne1_, the hybrid necrosis gene complementary to_Ne2_in common wheat (_Triticum aestivum_L.). Theoretical and Applied Genetics 134: 2813-2821. DOI: 10.1007/s00122-021-03860-9.
11538. Abrouk M, Athiyannan N, Muller T, Pailles Y, Stritt C, Roulin AC, Chu CG, Liu SY, Morita T, Handa H, Poland J, Keller B and Krattinger SG 2012 Population genomics and haplotype analysis in spelt and bread wheat identifies a gene regulating glume color. Communications Biology 4, 375. DOI: 10.1038/s42003-021-01908-6.
11539. Aguiriano E, Ruiz M, Fité R and Carrillo JM 2008 Genetic variation for glutenin and gliadins associated with quality in durum wheat (_Triticum turgidum_L. ssp._turgidum_) landraces from Spain. Spanish Journal of Agricultural Research 6: 599-609. DOI: 10.5424/sjar/2008064-353.
11540. Chacón EA, Vázquez FJ, Giraldo P, Carrillo JM, Benavente E and Rodríguez-Quijano M 2020 Allelic variation for prolamins in Spanish durum wheat landraces and its relationship with quality traits. Agronomy 10, 136. DOI: 10.3390/agronomy10010136.
11541. Fahima T 2021 Personal communication.
11542. Li HY, Baraina HS, Dingh D, Zhang LQ, Dillon S, Whan A, Bansal U and Ayliffe M 2020 A durum wheat adult plant resistance QTL and its relationship with the bread wheat_Yr80_ locus. Theoretical and Applied Genetics 133: 3049-3066. DOI: 10.1008/s00172-020- 03643-5.
11543. Tariq M, Mirza JI, Hussain S, Qureshi N, Forrest K, Bariana H and Bansal U 2021 Molecular mapping of all stage stripe rust resistance gene_YrPak_in wheat landrace PI 388231. Euphytica 217, 121. DOI: 10/s10681-021-02856-2.
11544. Xu XY, Li GQ, Bai GH, Bernardo A, Carver BF, St Amand P and Bian RL 2021 Characterization of an incomplete leaf rust resistance gene on chromosome 1RS and development of KASP markers for_Lr47_in wheat. Phytopathology 111: 649-658. DOI: 10.1094/PHYTO-07-20-02-308-R.
11545. Gebrewahid TW, Zhou Y, Zhang PP, Ren Y, Gao P, Xia XC, He ZH, Li ZF, and Liu DQ 2020 Mapping of stripe rust and leaf rust quantitative trait loci in the Chinese spring wheat line Mianyang351-15. Phytopathology 111: 1074-1081. DOI: 10.1094/PHYTO-08-19- 0316-R.
11546. Shorinola O, Balcarkova B, Hyles J, Tibbits JFG, Hayden MJ, Holusova K, Valarik M, Distelfeld A, Torada A, Barrero JM and Uauy C 2017 Haplotype analysis of the pre- harvest sprouting resistance locus_Phs-A1_reveals a causal role of_TaMKK3-A_in global germplasm. Frontiers in Plant Science 8, 1555. DOI: 10.3389/fpls.2017.01555.
11547. Mares D and Himi E 2021 The role of_TaMYB10-A1_of wheat (_Triticum aestivum_L) in determining grain coat color and dormancy phenotype. Euphytica 217, 89. DOI: 10.1007/s10681-021-02826-8.
11548. Yang X, Pan YB, Singh PK, He XY, Ren Y, Zhao L, Zhang N, Cheng SH, and Chen F 2019 Investigation and genome-wide association study for Fusarium crown rot resistance in Chinese common wheat. BMC Plant Biology 19, 153. DOI: 10.1186/s12870-019-17858-2.
11549. Kolodziej MC, Singla J, Sanchez-Martin J, Zbinden H, Simkova H, Karafiatova M, Dolezel J, Gronnier J, Poretti M, Glauser G, Zhu WS, Koster P, Zipfel C, Wicker T, Krattinger SG and Keller B 2021 A membrane-bound ankyrin repeat protein confers race-specific leaf rust disease resistance in wheat. Nature Communications 12, 956. DOI: 10.1038/s41467- 020-20777-x.
11550. Zhao F, Li Y, Yang B, Yuan H, Jin C, Zhou L, Pei H, Zhao L, Li Y, Zhou Y, Xie J and Shen Q 2020 Powdery mildew disease resistance and marker-assisted screening at the _Pm60_locus in wild diploid wheat_Triticun urartu_. The Crop Journal 8: 252-259. DOI: doi.org/10.1016/j.cj.2019.09.007
11551. Li YH, Wei Z-Z, Fatiukha A, Jaiwar S, Wang HC, Hasan S, Liu ZY, Sela H, Krugman T and Fahima F 2021_TdPm60_identified in wild emmer wheat is an ortholog of_Pm60_and constitutes a strong candidate for_PmG16_powdery mildew resistance. Theoretical and Applied Genetics 134: 2777-2793. DOI: 10.1007/s0122-021-03858-3.
11552. Bansal M, Adamski NM, Toor PI, Kaur S, Molnar I, Holusova K, Vrana J, Dolezel J, Valarik M, Uauy C and Chhuneja P 2020_Aegilops umbellulata_introgression carrying leaf rust and stripe rust resistance genes_Lr76_and_Yr70_located to 9.47‐Mb region on 5DS telomeric end through a combination of chromosome sorting and sequencing. Theoretical and Applied Genetics 133: 903-915. DOI: 10.1007/s00122-019-03514-x.
11553. Steadman J, Schulden T, Kalia B, Koo D-H, Gill BS, Bowden R, Yadav IS, Chhuneja P, Erwin J, Tiwari V and Rawat N 2021 An approach for high-resolution genetic mapping of distant wild relatives of bread wheat: example of fine mapping of_Lr57_and_Yr40_genes. Theoretical and Applied Genetics 134: 2671-2686. DOI: 10.1007/s0122-021-03851-w.
11554. Mago R, Chen RH, Xia XD, Whan A, Forrest K, Basnet BR, Perera G, Chandramohan S, Randhawa M, Upadhyaya N, Hayden M, Bansal U, Huerta-Espino J, Singh RP, Bariana H and Lagudah E (2021) Adult plant stem rust resistance in durum wheat Glossy Huguenot: mapping, marker development and validation. Theoretical and Applied Genetics 135:1541- 1550. DOI: 10.1007/s00122-022-04052-9.
11555. Liu SJ, Huang S, Zeng QD, Wang XT, Yu R, Wang QL, Singh RP, Bhavani S, Kang ZS, Wu JH and Han DJ 2021 Refined mapping of stripe rust resistance gene_YrP10090_with a desirable haplotype for wheat improvement on chromosome 6A. Theoretical and Applied Genetics 134: 2005-2021. DOI: 10.1007/s0021-03801-6.
11556. Lu N, Lu MX, Liu P, Xu HX, Qiu XL, Hu SS, Wu YA, Bai SL, Wu JH and Xue SL 2020 Fine mapping a broad spectrum powdery mildew resistance gene in Chines landrace Datoumai,_PmDTM_, and its relationship with_Pm24_. Plant Disease 104: 1709-1714. DOI: 10.1094/PDIS-11-19-2431-RE
11557. Zhou XL, Zhong X, Roter J, Li X, Yao QA, Yan JH, Yang SZ, Guo QY, Distelfeld A, Selo H and Kong ZS 2020 Genome wide mapping of loci for adult-plant resistance to stripe rust
11558. Yang MY, Li GR, Wan HS, Li LP, Li J, Yang WY, Pu ZJ, Yang ZY and Yang EN 2019 Identification of QTLs for stripe rust resistance in a recombinant inbred line population. International Journal of Molecular Science 20, 3410. DOI: 10.3390/ijms20143410.
11559. Zeng QD, Wu JH, Liu SJ, Chen XM. Yuan FP, Su PP, Wang QL, Huang SO, Mu JM, Han DJ and Kang ZS 2019 Genome-wide mapping for stripe rust resistance loci in common wheat cultivar Qinnong 142. Plant Disease 103: 439-447. DOI: 10.1094/PDOS-05-18- 0846-RE.
11560. Liu L, Wang MN, Feng JY, See DR and Chen XM 2019 Whole-genome mapping of stripe rust resistance quantitative trait loci and race-specificity related to resistance reduction in winter wheat cultivar Eltan. Phytopathology 109: 1226-1235. DOI: 10.1094/PHYTO-10- 0385-R.
11561. Upadhyaya NM, Mago R, Panwar V, Hewitt T, Luo M, Chen J, Sperschneider J, Nguyen- Phuc H, Wang AH, Ortiz D, Hac L, Bhatt D, Li F, Zhang JP, Ayliffe M, Figuerosa M, Kanyuka K, Ellis JG and Dodds P 2021 Genomics accelerated isolation of a new stem rust avirulence gene-wheat resistance gene pair. Nature Plants 7: 1220-1228. DOI: 10.1038/s41477-021-00971-5.
11562. Wu Y, Wang YQ, Yao FJ, Long L, Li J, Pu ZE, Li W, Jiang QT, Wang JR, Wei YM, Ma JA, Kang HY, Qi PF, Dai SF, Deng M, Zheng YL, Jiang YF and Chen GY 2021 Molecular mapping of a novel quantitative trait locus conferring adult plant resistance to stripe rust in Chinese wheat landrace Guantoumai. Plant Disease 105: 1919-1925. DOI: 10.1094/PDIS-07-20-1544-RE.
11563. Wang Y, Xie JZ, Zhang HZ, Guo BM, Ning SZ, Chen YX, Lu P, Wu QH, Li MM, Zhang DY, Guo GH, Zhang Y, Liu DC, Zou SK, Tang JW, Zhou G, Wang XC, Li J, Yang WY, Cao TJ, Yin GH and Liu ZY (2017) Mapping stripe rust resistance gene_YrZH22_in Chinese wheat cultivar Zhoumai 22 by bulked segregant RNA‐Seq (BSR‐Seq) and comparative genomics analyses. Theoretical and Applied Genetics 130: 2191-2201. DOI: 10.1007/s00122-017-2950-0.
11564. Duplicate reference-deleted.
11565. Xue SL, Lu MX, Hu SS, Xu HX, Ma YY, Lu N, Bai SL, Gu AY, Wan HS and Li SP 2021 Characterization of_PmHHXM_, a new broad-spectrum powdery mildew resistance gene in Chinese wheat landrace Honghuaxiaomai. Plant Disease 105: 2089-2096. DOI: 10.1094/PDIS-10-20-2296-RE.
11566. Hu YL, Huang XH, Wang F, He Y, Feng LH, Jiang B, Hao M, Ning SZ, Yuan ZW, Wu JJ, Zhang LQ, Wu BH, Liu DC and Huang L 2021 Development and validation of gene- specific KASP markers for_YrAS2388_conferring stripe rust resistance in wheat. Euphytica 217, 206. DOI: 10.1007/s10681-021-02937-2.
11567. Bokore FE, Knox RE, Hiebert CW, Cuthbert RD, DePauw RM, Meyer B, N’Diaye A, Pozniak CJ and McCallum BD 2022 A combination of leaf rust resistance genes, including _Lr34_and_Lr46_, is the key to the durable resistance of the Canadian wheat cultivar, Carberry. Frontiers in Plant Science 12, 775383. DOI: 10.3389/fpls.2021.775383.
11568. ElDoliefy AEA, Kumar A, Anderson JA, Glover KD, Mamidi S, Elias EM, Seetan R, Alamri MS, Kianian SF, Sapkota S, Green A and Mergoum M 2020 Genetic dissection of Fusarium head blight resistance in spring wheat cv. Glenn. Euphytica 216, 71. DOI: 10.1007/s10681-020-02610-0.
11569. Vetch JM, Stougaard RN, MartinJM, and Giroux MJ 2019 Review: Revealing the genetic mechanisms of pre-harvest sprouting in hexaploid wheat (_Triticum aestivum_L.). Plant Science 281: 180-185.DOI: 10.1016/j.plantsci.2019.01.004.
11570. Huang DQ, Zheng QA, Melchkart T , Bekkaoui Y, Konkin DJF, Kagale S , Martucci M, You FM , Clarke M, Adamski NM , Chinoy C, Steed A, McCartney CA , Cutler AJ, Nicholson P and Feurtado JA 2019 Dominant inhibition of awn development by a putative zinc-finger transcriptional repressor expressed at the_B1_locus in wheat. New Phytologist 225: 340-355. DOI: doi: 10.1111/nph.16154.
11571. DeWitt N, Guedira M, Lauer E, Sarinelli M, Tyagi P, Fu D, Hao Q, Murphy JP, Marshall D, Akhunova A, Jordan K, Akhunov E and Brown-Guedira G 2020. Sequence based mapping identifies a candidate transcription repressor underlying awn suppression at the_B1_locus in wheat. New Phytologist 225: 326-339. doi: 10.1111/nph.16152.
11572. Qin Yao, Ronghua Zhou, Tihua Fu, Weiren Wu, Zhendong Zhu, Aili Li and Jizeng Jia 2009 Characterization and mapping of complementary lesion-mimic genes_lm1_and_lm2_in common wheat. Theoretical and Applied Genetics 119: 1005-1012. DOI 10.1007/s00122- 009-1104-4.
11573. Wang F, Wu W, Wang D, Yang W, Sun J, Liu D and Zhang AM 2016 Characterization and genetic analysis of a novel light-dependent lesion mimic mutant, lm3, showing adult- plant resistance to powdery mildew in common wheat. PLoS ONE 11: e0155358. DOI: 10.1371/journal.pone.0155358.
11574. Wang ZQ, Liu YX, Shi HR, Mo HJ, Wu FK, Lin Y, Gao S, Wang JR, Wei YM, Liu CJ and Zheng YL 2016 Identification and validation of novel low‐tiller number QTL in common wheat. Theoretical and Applied Genetics 129: 603-612. DOI 10.1007/s00122-015-2652-4.
11575. Wang ZQ, Wu FK, Chen XD, Zhou WL, Shi HR, Lin Y, Hou S, Yu SF, Zhou H, Li CX and Liu YX 2022 Fine mapping of the tiller inhibition gene_TIN4_contributing to ideal plant architecture in common wheat . Theoretical and Applied Genetics 135: 527-535. DOI: 10.1007/s00122-021-03981-1.
11576. Li C, Liu H, Wang JA, Pan Q, Wang Y, Wu KY, Jia PY, Mu Y, Tang HP, Xu QA, Jiang QT, Liu YX, Qi PF, Zhang XJ, Huang L, Chen GY, Wang JR, Wei · Zheng YL, Gou LL, Yao QF, Lan XJ and Ma JA 2022 Characterization and fine mapping of a lesion mimic mutant (_Lm5_) with enhanced stripe rust and powdery mildew resistance in bread wheat (_Triticum aestivum_L.). Theoretical and Applied Genetics 135: 421-438. DOI: 10.1007/s00122-021-03973-1
11577. Liu R, Lu J, Zheng SG, Du M, Zhang CH, Wang MX, Li YF, Xing JY, Wu Y and Zhang L 2021 Molecular mapping of a novel lesion mimic gene (_lm4_) associated with enhanced resistance to stripe rust in bread wheat. BMC Genomic Data 221, 1. DOI: 10.1186/s12863- 021-00963-6.
11578. Xing LO, Yuan L, Lv ZS, Wang QA, Yin CH, Huang ZP, Liu JQ, Cao SQ, Zhang RQ, Chen PD, Karafiatova M, Vrana J, Bartos J, Dolezel J and Cao AZ 2021 Long-range assembly of sequences helps to unravel the genome structure and small variation of the wheat–_Haynaldia villosa_translocated chromosome 6VS.6AL. Plant Biotechnology Journal 19: 1567–1578. DOI: 10.1111/pbi.13570.
11579. Walkowiak S, Gao L, Monat C, Haberer G, Kassa MT, Brinton J, Ramirez-Gonzalez RH, Kolodziej MC, Delorean E, Thambugala D, Klymiuk V, Byrns B, Gundlach H, Bandi V, Siri JN, Nilsen K, Aquino C, Himmelbach A, Copetti D, Ban T, Venturini L, Bevan M, Clavijo B, Koo DH, Ens J, Wiebe K, N'Diaye A, Fritz AK, Gutwin C, Fiebig A, Fosker C, Fu BX, Accinelli GG, Gardner KA, Fradgley N, Gutierrez-Gonzalez J, Halstead-Nussloch
11580. Nirmala J, Saini J, Newcomb M, Olivera P, Gale S, Klindworth D, Elias E, Talbert L, Chao SM, Faris J, and Xu S, Jin Y, and Rouse MN 2017 Discovery of a novel stem rust resistance allele in durum wheat that exhibits differential reactions to Ug99 solates. G3: 7: 3481-3490. DOI: /10.1534/g3.117.300209.
11581. Wang DZ, Yu K, Jin D, Sun LH, Chu JF, Wu WY, Xin PY, Gregov E, Li X, Sun JZ, Yang WL, Zhan KH, Zhang AM and Liu DC 2020 Natural variations in the promoter of_Awn_ _Length Inhibitor 1_(_ALI-1_) are associated with awn elongation and grain length in common wheat. The Plant Journal 101: 1075-1090. doi: 10.1111/tpj.14575.
11582. Wurschum T, Jahne F, Phillips AL, Langer SM, Longin CFH, Tucker MR and Leister WL 2020 Misexpression of a transcriptional repressor candidate provides a molecular mechanism for the suppression of awns by_Tipped 1_in wheat. Journal of Experimental Botany 71: 3428-3236 DOI: 10.1093/jxb/eraa106.
11583. Xu X, Kolmer J, Li G, Tan C, Carver BF, Bian R, Bernardo A and Bai G 2022 Identification and characterization of the novel leaf rust resistance gene_Lr81_in wheat. Theoretical and Applied Genetics 135: 2725-2734. DOI: 10.1007/s00122-022-04145-5.
11584. Gill BK, Klindworth DL, Rouse MN, Zhang JL, Zhang QJ, Sharma JS, Chu CG, Long YM, Chao SM, Olivera PD, Friesen TL, Zhong SB, Jin Y, Faris JD, Fiedler JD, Elias EM, Liu SY, Cai XW and Xu SS 2021 Function and evolution of allelic variations of_Sr13_ conferring resistance to stem rust in tetraploid wheat (_Triticum turgidum_L_._)_._The Plant Journal 106: 1674-1691. DOI: 10.1111/tpj.15263.
11585. Klymiuk V, Chawla HS, Wiebe K, Ens J, Fatiukha A, Govta L, Fahima T and Pozniak CJ (2022) Discovery of stripe rust resistance with incomplete dominance in wild emmer wheat using bulked segregant analysis sequencing. Communications Biology 5, 826. DOI: 10.1038/s42003-022-03773-3.
11586. Bariana HS, Babu P, Forrest KL, Park RF and Bansal UK et al. 2022 Discovery of the new leaf rust resistance gene_Lr82_in wheat: Molecular mapping to marker development. Genes 13, 964. DOI: 10.3390/genes13060964.
11587. Chai SY, Yao Q, Liu R, Xiang WH, Xiao XE, Fan X, Zeng JA, Sha LN, Kang HY, Zhang HQ, Long D, Wu DD, Zhou YH and Wang Y 2022 Identification and validation of a major gene for kernel length at the_P1_locus in_Triticum polonicum_. The Crop Journal 10: 387-396. DOI: 10.1016/j.cj.2021.07.006.
11588. Pourkhorshid Z, Dadkhodaie A and Niazi A 2022 Moleculr mapping of the_Aegilops_ _speltoides-_derived leaf rust resistance gene_Lr36_in common wheat (_Triticum aestivum_L.) Euphytica 218, 26. DOI: 10.1007/s10681-022-02975-4.
11589. Zhu KY, Li MM, Wu HB, Zhang DY, Dong LL, Wu QH, Chen YX, Xie JZ, Lu P, Guo GH, Zhang HZ, Zhang PP, Li BB, Wu WL, Dong L, Wang QF, Zhu JH, Hu WL Guo LQ, Wang Rg, Yuan CG, Li HJ, Liu ZY and Hua W 2022 Fine mapping of powdery mildew
11590. Li HN, Hua L, Rouse MN, Li TY, Pang SY, Bai SS, Shen Y, Luo J, Li HY, Zhang WJ, Wang XD, Dubcovsky J and Chen SS 2021 Mapping and characterization of a wheat stem rust resistance gene in durum wheat “Kronos”. Frontiers in Plant Sciience 12: 751398. DOI: 10.3389/fpls.2021.751398.
11591. Dang C, Zhang JL and Dubcovsly J 2022 High-resolution mapping of_Yr78_, an adult plant resistance gene to wheat stripe rust. Plant Genome 15;e20212. DOI: DOI: 10.1002/tpg2.20212.
11592. Zhang PP, Guo GH, Wu QH, Chen X, Xie JZ, Lu P, Li BB, Dong LL, Li MM, Wang RG, Yuan CG, Zhang HZ, Zhu KY, Li WL and Liu ZY 2020 Identification and fine mapping of spot blotch (_Bipolaris sorokiniana_) resistance gene_Sb4_in wheat. Theoretical and Applied Genetics 133:2451-2459. DOI: 10.1007/s00122-020-03610-3.
11593. Athiyannan N, Abroiuk M, Boshoff WHP, Cauet S, Rodde N, Kudra D, Mohammed N, Bettgenhaeuser J, Botha KS, Derman SS, Wing RA, Prins R and Krattinger. 2022 Long- read genome sequencing of bread wheat facilitates disease resistance gene cloning. Nature Genetics 54: 227-231. DOI: 10.1038/s41588-022-01022-1.
11594. Zhang M, Lv SK, Wang YZ, Wang SW, Chen CH, Wang CY, Wang YJ, Zhang H and Li WQ 2022 Fine mapping and distribution analysis of hybrid necrosis genes_Ne1_and_Ne2_in wheat in China. Theoretical and Applied Genetics 135: 1177-1189. DOI: 10.1007/s00122- 021-04023-6.
11595. Vetch JM, Stougaard RN, Martin JM and Giroux MJ 2019 Review: Revealing the genetic mechanisms of pre-harvest sprouting in hexaploid wheat (_Triticum aestivum_L.). Plant Science 281: 180-185. DOI: 10.1016/j.plantsci.2019.01.004.
11596. Niu JQ, Zheng SS, Shi XL, Si YQ, Tian SQ, He YL and Ling H-Q 2020 Fine mapping and characterization of the inhibitor_B1_locus in common wheat (_Triticum aestivum_L. The Crop Journal 8: 613-622. DOI: 10.1016/j.cj.2019.12.005.
11597. Tian XB, Chen QF, Ma C, Men WQ, Liu QQ, Zhao Y, Qian JJ, Fan ZW, Miao JN, He JQ, Sehgal SK, Li HH and Liu WX 2022 Development and characterization of_Triticum_ _aestivum-Aegilops longissima_6Slrecombinants harboring a novel powdery mildew resistance gene_Pm6Sl._Frontiers in Plant Science 13,918508. DOI: 10.3389/fpls.2022.918508.
11598. Wang WR, He HG, Gao HM, Xu HX, Song WY, Zhang X, Zhang LP, Song JC, Liu C, Liu KC and Ma PT 2021 Characterization of thye powdery mildew resistance gene in wheat breeding line KN0816 and its evaluation in marker-assisted selection. Plant Disease 105: 4042-4050. DOI: 10.1094/PDIS-05-21-0896-RE.
11599. Lin GF, Chen H, Tian B, Sehgal SK, Singh L, Xie JZ, Rawat N, Juliana P, Singh N, Shrestha S, Wilson DL, Shult H, Lee H, Scoen AW, Tiwari VK, Singh RP, Huttieri MJ, Trick HN, Poland J, Bowden RL, Bai GH, Gill B and Liu SZ 2022 Cloning of the broadly effective wheat leaf rust resistance gene_Lr42_transferred from_Aegilops tauschii_. Nature Communications 13, 3044. DOI: 10.1038/s41467-022-30784-9.
11600. Lan CX, Basnet BR, Singh RP, Huerta‐Espino J, Herrera‐Foessel SA, Ren Y and Randhawa MS 2017 Genetic analysis and mapping of adult plant resistance loci to leaf rust in durum wheat cultivar Bairds. Theoretical and Applied Genetics 130: 609-619. DOI: 10.1007/s00122-016-2839-3.
11601. Chhetri M, Bariana H, Wong D, Sohail Y, Hayden H and Bansal U 2017 Development of robust molecular markers for marker-assisted selection of leaf rust resistance gene_Lr23_in common and durum wheat breeding programs. Molecular Breeding 37, 21. DOI: 10.1007/s11032-017-0628-6.
11602. Chen SS, J Hegarty J, Shen T, Hua L, Li HN, Luo J, Li HY, Bai SS. Zhang CZ and Dubcovsky J. 2021 Stripe rust resistance gene_Yr34_(synonym_Yr48_) is located within a distal translocation of_Triticum monococcum_chromosome 5AmL into common wheat. Theoretical and Applied Genetics 134:2197. DOI: 10.1007/s00122-021-03816-z.
11603. Kuzay S, Lin H, Li C, Chen S, Woods D, Zhang J and Dubcovsky J 2022._WAPO-A1_is the causal gene of the 7AL QTL for spikelet number per spike in wheat. PLoS Genetics 18: e1009747.DOI: 10.1371/journal.pgen.1009747.
11604. Shaw L, Lyu B, Turner R, Li C, Chen F, Han X, Fu D and Dubcovsky J 2019. _FLOWERING LOCUS T2_(_FT2_) regulates spike development and fertility in temperate cereals. Journal of Experimental Botany 70: 193-204. DOI: 10.1093/jxb/ery350/.
11605. Glenn P, Zhang J, Brown-Guedira G, DeWitt N, Cook JP, Li K and Dubcovsky J 2022. Identification and characterization of a natural polymorphism in_FT-A2_associated with increased number of grains per spike in wheat. Theoretical and Applied Genetics 135: 679- 692. DOI: 10.1007/s00122-021-03992-y.
11606. Adamski NM, Simmonds J, Brinton JF, Backhaus AE, Chen Y, Smedley M Hayta S, Florio T, Crane P, Scott P, Pieri A, Hall O, Barclay JE, Clayton M, Doonan JH, Nibau C and Uauy C 2021. Ectopic expression of_Triticum polonicum VRT-A2_underlies elongated glumes and grains in hexaploid wheat in a dosage-dependent manner. The Plant Cell 33; 2296- 2319. DOI: 10.1093/plcell/koab119.
11607. Li K, Debernardi JM, Li CX, Lin HQ, Zhang CZ, Jernstedt J, von Korff M, Zhong JS, and Dubcovsky J 2021 Interactions between SQUAMOSA and SHORT VEGETATIVE PHASE MADS-box proteins regulate meristem transitions during wheat spike 11108development. The Plant Cell 2021: 33: 3621–3644. DOI:10.1093/plcell/koab243.
11608. Wu QH, Zhao F, Chen YX, Zhang PP, Zhang HZ, Guo GH, Xie JZ, Dong LL, Lu P, Li MM, Ma SW, Fahima T, Nevo E, Li HJ, Zhang YJ, and Liu ZY 2021 Bulked segregant CGT-Seq-facilitated map-based cloning of a powdery mildew resistance gene originating from wild emmer wheat (_Triticum dicoccoides_). Plant Biotechnology Journal 19: 1288- 1290. doi: 10.1111/pbi.13609.
11609. Wu QH, Chen YX, Li BB, Li J, Zhang PP, Xie JZ, Zhang HZ, Guo GH, Lu P, Li MM, Zhu KY, Li WL, Fahima T, Nevo E, Li HJ, Dong LL and Liu ZY 2022 Functional characterization of powdery mildew resistance gene_MlIW172_, a new_Pm60_allele and its allelic variation in wild emmer wheat. Journal of Genetics and Genomics 49: 787-795. DOI: 10.1016/j.jgg.2022.01.01.
11610. Jia AL, Ren Y, Gao FM, Yin GH, Liu JD, Guo L, Zheng JZ, He ZH and Xia XC 2018 Mapping and validation of a new QTL for adult plant resistance to powdery mildew in Chinese elite bread wheat line Zhou8425B. Theoretical and Applied Genetics 131:1063- 1071. DOI: 10.1007/s00122-018-3058-x.
11611. Dong Y, Xu DA, Xu XW, Ren Y, Gao FM, Song J, Jia AL, Hao YF, He ZH, and Xia XC 2022 Fine mapping of_QPm.caas‑3BS_, a stable QTL for adult‑plant resistance to powdery mildew in wheat (_Triticum aestivum_L.) Theoretical and Applied Genetics 135: 1083 1099. DOI: 10.1007/s00122-021-04019-2.
11612. Gaurav K, Arora S, Silva P, Sánchez-Martín S, Horsnell R, Gao LL, Brar GS, Widrig V, Raupp WJ, Singh N, Wu SY, Kale SM, Chinoy C, Nicholson P, Quiroz-Chávez J,
11613. Toor PI, Kaur S, Bansal M, Yadav B and Chhuneja P 2016 Mapping of stripe rust resistance gene in an_Aegilops caudata_introgression line in wheat and its genetic association with leaf rust resistance. Journal of Genetics 95: 933-938. DOI: 10.1007/s1204 1-016-0718-y.
11614. Narang D, Kaur S, Steuernage B, Ghosh S, Dhillon D, Bansal M, Uauy C, Wulff BBH and Chhuneja P 2019 Fine mapping of_Aegilops peregrina_co‑segregating leaf and stripe rust resistance genes to distal‑most end of 5DS. Theoretical and Applied Genetics 132: 1473- 1485. DOI: 10.1007/s00122-019-03293-5.
11615. Bansal M, Adamski NM, Toor PI, Kaur S, Sharma A, Srivastava P, Bansal U, Uauy C and Chhuneja P 2021 A robust KASP marker for selection of four pairs of linked leaf rust and stripe rust resistance genes introgressed on chromosome arm 5DS from different wheat genomes. Molecular Biology Reports 48: 5209-5216. DOI: 10.1007/s11033-021-06525-4.
11616. Feng JY, Yao FJ, Wang MN, See DR and Chen XM 2023 Molecular mapping of_Yr85_and comparison with other genes for resistance to stripe rust on wheat chromosome 1B. Plant Disease 107: 3585-3591.DOI: 10.1094/PDIS-11-22-2600-RE.
11617. Luo W, Zhou JG Liu JJ, Liu YL, Mu Y, Tang HP, Xu QA, Deng M, Jiang QT, Chen GY, Qi PF, Wang JR, Jiang YF, Chen ZX, Zheng Z, Wei Y, Zheng YM, Lan XJ and Ma JA 2022 Fine mapping of the hairy glume (_Hg_) gene in a chromosome variation region at the distal terminus of 1AS. Frontiers in Plant Science 13, 1006510. DOI: 10.3389/fpls.2022.1006510.
11618. Qie YM, Liu Y, Wan MN, Li X, See DR, An DG and Chen XM 2019 Development, validation, and re-selection of wheat lines with pyramided genes_Yr64_and_Yr15_linked on the short arm of chromosome 1B for resistance to stripe rust. Plant Disease 103: 51-58. DOI: 10.1094/PDIS-03-18-0470-RE.
11619. Bokore, F Knox RE, DePauw RM, Cuthbert RD, Valereio IP, Clarke FR, Beres BL, Ruan YF and Campbell HL. 2019 Validation of the effects of the_Gpc-B1_high grain protein locus from Lillian hard red spring wheat (_Triticum aestivum_L.) using locus specific markers. Euphytica 215, 2. DOI: 10.1007/s10682-018-2322-0.
11620. Li AX, Yang WL, Lou XY, Liu DC, Sun JZ, Guo XL, Wang J, Li YW, Zhan KH, Ling H- Q, and Zhang AM 2013 Novel natural variation at the_Rht-1_loci in wheat. Journal of Integrative Plant Biology 55: 1026-1037. DOI: 10.1111/jipb.12103.
11621. Bazhenov MS, Divashuk MG, Amagai Y, Watanabe N and Karlov GI 2015 Isolation of the dwarfing_Rht-B1p_(_Rht17_) gene from wheat and the development of an allele-specific PCR marker. Molecular Breeding 35, 213. DOI: 10.1007/s11032-015-0407-1.
11622. Buss W, Ford BA, Foo E, Schnippenkoetter W, Borrill P, Brooks B, Ashton AR, Chandler PM and Spielmeyer W 2020 Overgrowth mutants determine the causal role of gibberellin
11623. Tian XL, Xia XC, Xu DA, Liu YQ, Xie L, Hassan MA, Song J, Li FJ, Wang DS, Zhang Y, Hao YF, Li GY, Chu CC, He ZH and Cao SH 2022_Rht24b_, an ancient variation of _TaGA2ox-A9_, reduces plant height without yield penalty in wheat. New Phytologist 233: 738-750. DOI: 10.1111/nph.170808.
11624. Chai LL, Xin MM, Dong CQ, Chen ZY, Zhai HJ, Zhuang JH, Cheng XJ, Wang NJ, Geng J, Wang XB, Bian RL, Yao YY, Guo WL, Hu ZR, Peng HR, Bai GH, Sun QX, Su ZQ, Liu J and Ni ZF 2022 A natural variation in Ribonuclease H-like gene underlies_Rht8_to confer ‘‘Green Revolution’’ trait in wheat. Molecular Plant 15: 377-380. DOI: 10.1016/j.molp.2022.01.013.
11625. Cui CG, Lu QM, Zhao ZC, Lu S, Duan S, Yang Y, Qiao Y, Chen LA and Hu Y-G 2022. The fine mapping of dwarf gene_Rht5_in bread wheat and its effects on plant height and main agronomic traits. Planta 255, 114. DOI: 10.1007/s00425-022-03888-1.
11626. Borrill P, Mago R, Xu TY, Ford B, Williams SJ, Derkx A, Bovill WD, Hyles J, Bhatt D, Xia XD, MacMillan C, White R, Buss W, Molnár I, Walkowiak S, Olsen O-A, Doležel J, Pozniak CJ and Spielmeyer W 2022 An autoactive NB-LRR gene causes_Rht13_dwarfism in wheat. Proceedings of the National Academy of the United States of America 48, e22098785119. DOI: 10.1073/pnas.2209875119.
11627. Li YH, Wei ZZ, Sela H, Govta L, Klymiuk V, Roychowdhury R, Chawla HS, Ens J, Wiebe K, Bocharova V, Ben-David R, Pawar PB, Zhang UQ, Jaiwar S, Molnár I, Doležel Y, Coaker G, Pozniak CJ and Fahima T 2023 Dissection of a rapidly evolving wheat resistance gene cluster by long-read genome sequencing accelerated the cloning of_Pm69_. Plant Communications 5, 1006465. DOI: 10.1016/j.xplc.2023.100646.
11628. Muterko A, Balashova I, Cockram J, Kalendar R and Sivolap Y 2015 The new wheat vernalization response allele_Vrn-D1s_is caused by DNA transposon insertion in the first intron. Plant Molecular Biology Reporter 33: 294-303. DOI: 10.1007/s11105-014-0750-0.