Basnet B, Juliana P, Bhattarai K, Upreti U. A review on major rust resistance gene and amino acid changes on wheat (Triticum aestivum L). SSRN J. 2022. https://www.ssrn.com/abstract=4258549.
Lan C, Hale IL, Herrera-Foessel SA, Basnet BR, Randhawa MS, Huerta-Espino J, et al. Characterization and mapping of Leaf Rust and stripe rust resistance loci in Hexaploid Wheat Lines UC1110 and PI610750 under Mexican environments. Front Plant Sci. 2017;8:1450.
Figueroa M, Hammond-Kosack KE, Solomon PS. A review of wheat diseases—a field perspective. Mol Plant Pathol. 2018;19(6):1523–36.
Khanfri S, Boulif M, Lahlali R. Yellow rust (Puccinia Striiformis): a serious threat to Wheat Production Worldwide. Not Sci Biol. 2018;10(3):410–23.
Khushboo SS, Gupta V, Pandit D, Abrol S, Choskit D, Farooq S, et al. Epidemiology of stripe rust of wheat: a review. Int J Curr Microbiol App Sci. 2021;10(01):1158–72.
Bhardwaj SC, Singh GP, Gangwar OP, Prasad P, Kumar S. Status of wheat Rust Research and Progress in Rust Management-Indian Context. Agronomy. 2019;9(12):892.
Bhavani S, Singh RP, Hodson DP, Huerta-Espino J, Randhawa MS. Wheat rusts: current status, prospects of Genetic Control and Integrated Approaches to enhance resistance durability. In: Reynolds MP, Braun HJ, editors. Wheat improvement. Cham: Springer International Publishing; 2022. pp. 125–41. https://link.springer.com/10.1007/978-3-030-90673-3_8.
Balfourier F, Bouchet S, Robert S, De Oliveira R, Rimbert H, Kitt J, et al. Worldwide phylogeography and history of wheat genetic diversity. Sci Adv. 2019;5(5):eaav0536.
Lidwell-Durnin J, Lapthorn A. The threat to global food security from wheat rust: ethical and historical issues in fighting crop diseases and preserving genetic diversity. Global Food Secur. 2020;26:100446.
Chhuneja P, Kaur S, Garg T, Ghai M, Kaur S, Prashar M, et al. Mapping of adult plant stripe rust resistance genes in diploid A genome wheat species and their transfer to bread wheat. Theor Appl Genet. 2008;116(3):313–24.
Cook NM, Chng S, Woodman TL, Warren R, Oliver RP, Saunders DG. High frequency of fungicide resistance-associated mutations in the wheat yellow rust pathogen Puccinia striiformis f. sp. tritici. Pest Manag Sci. 2021;77(7):3358–71.
Dadkhodaie NA, Karaoglou H, Wellings CR, Park RF. Mapping genes Lr53 and Yr35 on the short arm of chromosome 6B of common wheat with microsatellite markers and studies of their association with Lr36. Theor Appl Genet. 2011;122(3):479–87.
Kolmer JA, Bernardo A, Bai G, Hayden MJ, Anderson JA. Thatcher wheat line RL6149 carries Lr64 and a second leaf rust resistance gene on chromosome 1DS. Theor Appl Genet. 2019;132(10):2809–14.
Sun GL, Fahima T, Korol AB, Turpeinen T, Grama A, Ronin YI, et al. Identification of molecular markers linked to the Yr15 stripe rust resistance gene of wheat originated in wild emmer wheat. Triticum dicoccoides Theor Appl Genet. 1997;95(4):622–8.
Uauy C, Brevis JC, Chen X, Khan I, Jackson L, Chicaiza O, et al. High-temperature adult-plant (HTAP) stripe rust resistance gene Yr36 from Triticum turgidum ssp. dicoccoides is closely linked to the grain protein content locus Gpc-B1. Theor Appl Genet. 2005;112(1):97–105.
Brown-Guedira GL, Singh S, Fritz AK. Performance and Mapping of Leaf Rust Resistance Transferred to Wheat from Triticum timopheevii subsp. armeniacum. Phytopathology®. 2003;93(7):784–9.
Sadeghabad AA, Dadkhodaie A, Heidari B, Razi H, Mostowfizadeh-Ghalamfarsa R. Microsatellite markers for the Triticum timopheevi-derived leaf rust resistance gene Lr18 on wheat 5BL chromosome. Breed Sci. 2017;67(2):129–34.
Gupta SK, Charpe A, Koul S, Prabhu KV, Haq QMR. Development and validation of molecular markers linked to an Aegilops umbellulata –derived leaf-rust-resistance gene, Lr9, for marker-assisted selection in bread wheat. Genome. 2005;48(5):823–30.
Bansal M, Kaur S, Dhaliwal HS, Bains NS, Bariana HS, Chhuneja P, et al. Mapping of Aegilops umbellulata -derived leaf rust and stripe rust resistance loci in wheat. Plant Pathol. 2017;66(1):38–44.
Marais GF, McCallum B, Snyman JE, Pretorius ZA, Marais AS. Leaf rust and stripe rust resistance genes Lr54 and Yr37 transferred to wheat from Aegilops Kotschyi. Plant Breeding. 2005;124(6):538–41.
Marais GF, Badenhorst PE, Eksteen A, Pretorius ZA. Reduction of Aegilops sharonensis chromatin associated with resistance genes Lr56 and Yr38 in wheat. Euphytica. 2010a;171(1):15–22.
Kuraparthy V, Chhuneja P, Dhaliwal HS, Kaur S, Bowden RL, Gill BS. 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(8):1379–89.
Marais GF, McCallum B, Marais AS. Wheat leaf rust resistance gene Lr59 derived from Aegilops Peregrina. Plant Breeding. 2008;127(4):340–5.
Narang D, Kaur S, Steuernagel B, Ghosh S, Bansal U, Li J, et al. Discovery and characterisation of a new leaf rust resistance gene introgressed in wheat from wild wheat Aegilops Peregrina. Sci Rep. 2020;10(1):7573.
Arora S, Kaur S, Dhillon GS, Singh R, Kaur J, Sharma A, et al. Introgression and genetic mapping of leaf rust and stripe rust resistance in Aegilops triuncialis. J Genet. 2021;100(1):6.
Toor PI, Kaur S, Bansal M, Yadav B, Chhuneja P. Mapping of stripe rust resistance gene in an Aegilops caudata introgression line in wheat and its genetic association with leaf rust resistance. J Genet. 2016;95(4):933–8.
Kaur S, Jindal S, Kaur M, Chhuneja P. Utilization of wild species for wheat improvement using genomic approaches. In: Gosal SS, Wani SH, editors. Biotechnologies of Crop Improvement. Volume 3. Cham: Springer International Publishing; 2018. pp. 105–50. http://link.springer.com/10.1007/978-3-319-94746-4_6.
Avni R, Lux T, Minz-Dub A, Millet E, Sela H, Distelfeld A, et al. Genome sequences of three Aegilops species of the section Sitopsis reveal phylogenetic relationships and provide resources for wheat improvement. Plant J. 2022;110(1):179–92.
Kerber ER, Dyck PL. Transfer to hexaploid wheat of linked genes for adult-plant leaf rust and seedling stem rust resistance from an amphiploid of Aegilops speltoides × Triticum monococcum. Genome. 1990;33(4):530–7.
Triebe B, Mukai Y, Dhaliwal HS, Martin TJ, Gill BS. Identification of alien chromatin specifying resistance to wheat streak mosaic and greenbug in wheat germ plasm by C-banding and in situ hybridization. Theoret Appl Genet. 1991;81(3):381–9.
Ghazvini H, Hiebert CW, Thomas JB, Fetch T. Development of a multiple bulked segregant analysis (MBSA) method used to locate a new stem rust resistance gene (Sr54) in the winter wheat cultivar norin 40. Theor Appl Genet. 2013;126(2):443–9.
Mago R, Verlin D, Zhang P, Bansal U, Bariana H, Jin Y, et al. 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. Theor Appl Genet. 2013;126(12):2943–55.
Yu G, Klindworth DL, Friesen TL, Faris JD, Zhong S, Rasmussen JB, et al. Development of a diagnostic co-dominant marker for stem rust resistance gene Sr47 introgressed from Aegilops speltoides into durum wheat. Theor Appl Genet. 2015;128(12):2367–74.
Tang S, Hu Y, Zhong S, Luo P. The potential role of Powdery Mildew-Resistance Gene Pm40 in Chinese wheat-breeding programs in the Post-Pm21 era. Engineering. 2018;4(4):500–6.
Li H, Hua L, Zhao S, Hao M, Song R, Pang S, et al. Cloning of the wheat leaf rust resistance gene Lr47 introgressed from Aegilops speltoides. Nat Commun. 2023;14(1):6072.
Kaur H, Kaur J, Bala R, Sharma A, Kumari J, Mavi GS, et al. Postulation of leaf rust resistance genes in Indian and exotic wheat germplasm using near-isogenic lines (NILs) and molecular markers. Crop Prot. 2023;174:106431.
Stakman EC, Stewart DM, Loegering WQ. Identification of physiological races of Puccinia graminis var. Tritici. 1962.
Peterson RF, Campbell AB, Hannah AE, A DIAGRAMMATIC SCALE FOR ESTIMATING, RUST INTENSITY ON LEAVES AND STEMS OF CEREALS. Can J Res. 1948;26c(5):496–500.
Saghai-Maroof MA, Soliman KM, Jorgensen RA, Allard RW. Ribosomal DNA spacer-length polymorphisms in barley: mendelian inheritance, chromosomal location, and population dynamics. Proc Natl Acad Sci USA. 1984;81(24):8014–8.
Ramirez-Gonzalez RH, Uauy C, Caccamo M. PolyMarker: a fast polyploid primer design pipeline. Bioinformatics. 2015;31(12):2038–9.
Somers DJ, Isaac P, Edwards K. A high-density microsatellite consensus map for bread wheat (Triticum aestivum L). Theor Appl Genet. 2004;109(6):1105–14.
Ishikawa G, Yonemaru J, Saito M, Nakamura T. PCR-based landmark unique gene (PLUG) markers effectively assign homoeologous wheat genes to A, B and D genomes. BMC Genomics. 2007;8(1):135.
Beier S, Thiel T, Münch T, Scholz U, Mascher M. MISA-web: a web server for microsatellite prediction. Valencia A, editor. Bioinformatics. 2017;33(16):2583–5.
Liu RH, Meng JL. [MapDraw: a microsoft excel macro for drawing genetic linkage maps based on given genetic linkage data]. Yi Chuan. 2003;25(3):317–21.
Akci N. Wheat Stripe, Leaf, and Stem Rust Diseases. In: Ansari M ur R, editor. Wheat. IntechOpen; 2022. https://www.intechopen.com/chapters/83521.
Gupta N, Bhardwaj SC, Sharma TR, Prasad P, Gangwar OP, Kumar S. Population behaviour of predominant and virulent pathotypes of Puccinia triticina causing wheat brown rust in India. Indian Phytopathol. 2018;71(1):59–64.
Bouvet L, Holdgate S, James L, Thomas J, Mackay IJ, Cockram J. The evolving battle between yellow rust and wheat: implications for global food security. Theor Appl Genet. 2022;135(3):741–53.
Haider MW, Kaur J, Bala R, Singh S, Srivastava P, Sharma A, et al. Stripe rust resistance gene(s) postulation in wheat germplasm with the help of differentials and tagged molecular markers. Sci Rep. 2023;13(1):9007.
Sharma A, Srivastava P, Mavi GS, Kaur S, Kaur J, Bala R, et al. Resurrection of wheat cultivar PBW343 using marker-assisted gene pyramiding for Rust Resistance. Front Plant Sci. 2021;12:570408.
Awlachew ZT, Singh R, Kaur S, Bains NS, Chhuneja P. Transfer and mapping of the heat tolerance component traits of Aegilops speltoides in tetraploid wheat Triticum durum. Mol Breed. 2016;36(6):78.
Seni S, Kaur S, Malik P, Yadav IS, Sirohi P, Chauhan H, et al. Transcriptome based identification and validation of heat stress transcription factors in wheat progenitor species Aegilops speltoides. Sci Rep. 2021;11(1):22049.
Dhillon GS, Kaur S, Das N, Singh R, Poland J, Kaur J, et al. QTL mapping for stripe rust and powdery mildew resistance in Triticum durum – Aegilops speltoides backcross introgression lines. Plant Genet Resour. 2020;18(4):211–21.
Kaur J, Kaur J, Dhillon GS, Kaur H, Singh J, Bala R, et al. Characterization and mapping of Spot Blotch in Triticum durum–Aegilops speltoides Introgression Lines using SNP markers. Front Plant Sci. 2021;12:650400.
Narang D, Kaur S, Steuernagel B, Ghosh S, Dhillon R, Bansal M, et al. Fine mapping of Aegilops Peregrina co-segregating leaf and stripe rust resistance genes to distal-most end of 5DS. Theor Appl Genet. 2019;132(5):1473–85.
Bansal M, Adamski NM, Toor PI, Kaur S, Molnár I, Holušová K, et al. 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. Theor Appl Genet. 2020;133(3):903–15.
Allen AM, Winfield MO, Burridge AJ, Downie RC, Benbow HR, Barker GLA, et al. Characterization of a wheat breeders’ array suitable for high-throughput SNP genotyping of global accessions of hexaploid bread wheat (Triticum aestivum). Plant Biotechnol J. 2017;15(3):390–401.
Babu P, Baranwal DK, Harikrishna, Pal D, Bharti H, Joshi P, et al. Application of Genomics Tools in Wheat breeding to attain durable rust resistance. Front Plant Sci. 2020;11:567147.
Dinkar V, Jha SK, Mallick N, Niranjana M, Agarwal P, Sharma JB, et al. Molecular mapping of a new recessive wheat leaf rust resistance gene originating from Triticum spelta. Sci Rep. 2020;10(1):22113.
Gessese M, Bariana H, Wong D, Hayden M, Bansal U. Molecular Mapping of Stripe Rust Resistance Gene Yr81 in a common wheat Landrace Aus27430. Plant Dis. 2019;103(6):1166–71.
Yang Y, Cui L, Lu Z, Li G, Yang Z, Zhao G, et al. Genome sequencing of Sitopsis species provides insights into their contribution to the B subgenome of bread wheat. Plant Commun. 2023;4(4):100567.
Cherukuri DP, Gupta SK, Charpe A, Koul S, Prabhu KV, Singh RB, et al. Molecular mapping of Aegilops speltoides derived leaf rust resistance gene Lr28 in wheat. Euphytica. 2005;143(1–2):19–26.
Dubcovsky J, Lukaszewski AJ, Echaide M, Antonelli EF, Porter DR. Molecular characterization of two Triticum speltoides interstitial translocations carrying Leaf Rust and Greenbug Resistance genes. Crop Sci. 1998;38(6):1655–60.
Mohler V, Singh D, Singrün C, Park RF. Characterization and mapping of Lr65 in spelt wheat ‘Altgold Rotkorn’. Plant Breeding. 2012;131(2):252–7.
Marais GF, Bekker TA, Eksteen A, McCallum B, Fetch T, Marais AS. Attempts to remove gametocidal genes co-transferred to common wheat with rust resistance from Aegilops speltoides. Euphytica. 2010;171(1):71–85.
Sears ER. The aneuploids of common wheat. University of Missouri, College of Agriculture, Agricultural Experiment Station; 1954.
Liu M, Rathjen T, Weligama K, Forrest K, Hayden M, Delhaize E. Analysis of aneuploid lines of bread wheat to map chromosomal locations of genes controlling root hair length. Ann Botany. 2017;119(8):1333–41.
Guan J, Garcia DF, Zhou Y, Appels R, Li A, Mao L. The battle to sequence the Bread Wheat Genome: a tale of the three kingdoms. Genom Proteom Bioinform. 2020;18(3):221–9.
Pourkhorshid Z, Dadkhodaie A, Niazi A. Molecular mapping of the Aegilops speltoides-derived leaf rust resistance gene Lr36 in common wheat (Triticum aestivum). Euphytica. 2022;218(3):26.
Raghunandan K, Tanwar J, Patil SN, Chandra AK, Tyagi S, Agarwal P, et al. Identification of Novel Broad-Spectrum Leaf Rust Resistance sources from Khapli Wheat Landraces. Plants. 2022;11(15):1965.
Ruban AS, Badaeva ED. Evolution of the S-Genomes in Triticum-Aegilops Alliance: Evidences from chromosome analysis. Front Plant Sci. 2018;9:1756.
Ren X, Wang C, Ren Z, Wang J, Zhang P, Zhao S, et al. Genetics of Resistance to Leaf Rust in Wheat: an overview in a genome-wide level. Sustainability. 2023;15(4):3247.
Herrera-Foessel SA, Singh RP, Huerta-Espino J, William HM, Djurle A, Yuen J. Molecular Mapping of a Leaf Rust Resistance Gene on the short arm of chromosome 6B of Durum Wheat. Plant Dis. 2008;92(12):1650–4.
Dong Z, Hegarty JM, Zhang J, Zhang W, Chao S, Chen X, et al. Validation and characterization of a QTL for adult plant resistance to stripe rust on wheat chromosome arm 6BS (Yr78). Theor Appl Genet. 2017;130(10):2127–37.
Dang C, Zhang J, Dubcovsky J. High-resolution mapping of Yr78, an adult plant resistance gene to wheat stripe rust. Plant Genome. 2022;15(2):e20212.
Add Comment