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51. A Genome-Wide Association Study of Resistance to Stripe Rust (Puccinia striiformis f. sp. tritici) in a Worldwide Collection of Hexaploid Spring Wheat (Triticum aestivum L.)

Author

Maccaferri, Marco, Zhang, Junli, Bulli, Peter, Abate, Zewdie, Chao, Shiaoman, Cantu, Dario, Bossolini, Eligio, Chen, Xianming, Pumphrey, Michael, and Dubcovsky, Jorge

Subjects
Plant Biology, Biological Sciences, Genetics, Human Genome, Infection, Basidiomycota, Disease Resistance, Genome, Plant, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Polyploidy, Quantitative Trait Loci, Triticum, disease resistance, genetic map, yellow rust, bread wheat, association mapping, Biochemistry and cell biology, Statistics
Abstract

New races of Puccinia striiformis f. sp. tritici (Pst), the causal pathogen of wheat stripe rust, show high virulence to previously deployed resistance genes and are responsible for large yield losses worldwide. To identify new sources of resistance we performed a genome-wide association study (GWAS) using a worldwide collection of 1000 spring wheat accessions. Adult plants were evaluated under field conditions in six environments in the western United States, and seedlings were tested with four Pst races. A single-nucleotide polymorphism (SNP) Infinium 9K-assay provided 4585 SNPs suitable for GWAS. High correlations among environments and high heritabilities were observed for stripe rust infection type and severity. Greater levels of Pst resistance were observed in a subpopulation from Southern Asia than in other groups. GWAS identified 97 loci that were significant for at least three environments, including 10 with an experiment-wise adjusted Bonferroni probability < 0.10. These 10 quantitative trait loci (QTL) explained 15% of the phenotypic variation in infection type, a percentage that increased to 45% when all QTL were considered. Three of these 10 QTL were mapped far from previously identified Pst resistance genes and QTL, and likely represent new resistance loci. The other seven QTL mapped close to known resistance genes and allelism tests will be required to test their relationships. In summary, this study provides an integrated view of stripe rust resistance resources in spring wheat and identifies new resistance loci that will be useful to diversify the current set of resistance genes deployed to control this devastating disease.

Published
2015

52. Genome-wide association mapping reveals potential novel loci controlling stripe rust resistance in a Chinese wheat landrace diversity panel from the southern autumn-sown spring wheat zone

Author

Wang, Yuqi, Yu, Can, Cheng, Yukun, Yao, Fangjie, Long, Li, Wu, Yu, Li, Jing, Li, Hao, Wang, Jirui, Jiang, Qiantao, Li, Wei, Pu, Zhien, Qi, Pengfei, Ma, Jian, Deng, Mei, Wei, Yuming, Chen, Xianming, Chen, Guoyue, Kang, Houyang, Jiang, Yunfeng, and Zheng, Youliang

Published
2021
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60. Genome analyses of the wheat yellow (stripe) rust pathogen Puccinia striiformis f. sp. tritici reveal polymorphic and haustorial expressed secreted proteins as candidate effectors

Author

Cantu, Dario, Segovia, Vanesa, MacLean, Daniel, Bayles, Rosemary, Chen, Xianming, Kamoun, Sophien, Dubcovsky, Jorge, Saunders, Diane GO, and Uauy, Cristobal

Abstract

Abstract Background Wheat yellow (stripe) rust caused by Puccinia striiformis f. sp. tritici (PST) is one of the most devastating diseases of wheat worldwide. To design effective breeding strategies that maximize the potential for durable disease resistance it is important to understand the molecular basis of PST pathogenicity. In particular, the characterisation of the structure, function and evolutionary dynamics of secreted effector proteins that are detected by host immune receptors can help guide and prioritize breeding efforts. However, to date, our knowledge of the effector repertoire of cereal rust pathogens is limited. Results We re-sequenced genomes of four PST isolates from the US and UK to identify effector candidates and relate them to their distinct virulence profiles. First, we assessed SNP frequencies between all isolates, with heterokaryotic SNPs being over tenfold more frequent (5.29 ± 2.23 SNPs/kb) than homokaryotic SNPs (0.41 ± 0.28 SNPs/kb). Next, we implemented a bioinformatics pipeline to integrate genomics, transcriptomics, and effector-focused annotations to identify and classify effector candidates in PST. RNAseq analysis highlighted transcripts encoding secreted proteins that were significantly enriched in haustoria compared to infected tissue. The expression of 22 candidate effector genes was characterised using qRT-PCR, revealing distinct temporal expression patterns during infection in wheat. Lastly, we identified proteins that displayed non-synonymous substitutions specifically between the two UK isolates PST-87/7 and PST-08/21, which differ in virulence to two wheat varieties. By focusing on polymorphic variants enriched in haustoria, we identified five polymorphic effector candidates between PST-87/7 and PST-08/21 among 2,999 secreted proteins. These allelic variants are now a priority for functional validation as virulence/avirulence effectors in the corresponding wheat varieties. Conclusions Integration of genomics, transcriptomics, and effector-directed annotation of PST isolates has enabled us to move beyond the single isolate-directed catalogues of effector proteins and develop a framework for mining effector proteins in closely related isolates and relate these back to their defined virulence profiles. This should ultimately lead to more comprehensive understanding of the PST pathogenesis system, an important first step towards developing more effective surveillance and management strategies for one of the most devastating pathogens of wheat.

Published
2013

62. Mapping and validation of QTL which confer partial resistance to broadly virulent post-2000 North American races of stripe rust in hexaploid wheat

Author

Lowe, Iago, Jankuloski, Ljupcho, Chao, Shiaoman, Chen, Xianming, See, Deven, and Dubcovsky, Jorge

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Basidiomycota, California, Chromosome Mapping, Chromosomes, Plant, Crosses, Genetic, Genes, Plant, Genetic Linkage, Genotype, Immunity, Innate, Plant Diseases, Plant Immunity, Polymorphism, Genetic, Quantitative Trait Loci, Seasons, Triticum, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Plant biology
Abstract

A mapping population of 186 recombinant inbred lines developed from a cross between UC1110, an adapted California spring wheat, and PI610750, a synthetic derivative from CIMMYT's Wide Cross Program, was evaluated for its response to current California races of stripe rust (Puccinia striiformis f. sp. tritici) in replicated field trials over four seasons (2007-2010) in the northern Sacramento Valley. A genetic map was constructed consisting of 1,494 polymorphic probes (SSRs, DArTs, and ESTs) mapped to 558 unique loci, and QTL analysis revealed the presence of four stripe rust resistance QTL segregating in this population, two from UC1110 (on chromosomes 3BS and 2BS) and two from PI610750 (5AL and 2AS). The two QTL of largest effects (on 3BS and 5AL) were validated in independent populations and their intervals narrowed to 2.5 and 5.3 cM, respectively. The 3BS QTL was shown, by allelism test and genotype, to carry a gene different from the Yr30/Sr2 complex. Mapped position also suggests that the 3BS QTL is associated with a gene different from either Yrns-B1 or YrRub, two stripe rust resistance genes mapped to this region in other studies. The 5AL QTL carries a previously unreported partial stripe rust resistance gene, designated here as Yr48. This paper discusses the individual contributions to resistance of these four QTL, their epistatic interactions, and their potential in durable resistance breeding strategies based on combinations of partial resistance genes.

Published
2011

63. Next Generation Sequencing Provides Rapid Access to the Genome of Puccinia striiformis f. sp. tritici, the Causal Agent of Wheat Stripe Rust

Author

Cantu, Dario, Govindarajulu, Manjula, Kozik, Alex, Wang, Meinan, Chen, Xianming, Kojima, Kenji K, Jurka, Jerzy, Michelmore, Richard W, and Dubcovsky, Jorge

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Basidiomycota, Contig Mapping, DNA Transposable Elements, DNA, Fungal, Ergosterol, Fungal Proteins, Genes, Fungal, Genome, Fungal, Molecular Sequence Data, Plant Diseases, Repetitive Sequences, Nucleic Acid, Sequence Analysis, DNA, Synteny, Triticum, General Science & Technology
Abstract

BackgroundThe wheat stripe rust fungus (Puccinia striiformis f. sp. tritici, PST) is responsible for significant yield losses in wheat production worldwide. In spite of its economic importance, the PST genomic sequence is not currently available. Fortunately Next Generation Sequencing (NGS) has radically improved sequencing speed and efficiency with a great reduction in costs compared to traditional sequencing technologies. We used Illumina sequencing to rapidly access the genomic sequence of the highly virulent PST race 130 (PST-130).Methodology/principal findingsWe obtained nearly 80 million high quality paired-end reads (>50x coverage) that were assembled into 29,178 contigs (64.8 Mb), which provide an estimated coverage of at least 88% of the PST genes and are available through GenBank. Extensive micro-synteny with the Puccinia graminis f. sp. tritici (PGTG) genome and high sequence similarity with annotated PGTG genes support the quality of the PST-130 contigs. We characterized the transposable elements present in the PST-130 contigs and using an ab initio gene prediction program we identified and tentatively annotated 22,815 putative coding sequences. We provide examples on the use of comparative approaches to improve gene annotation for both PST and PGTG and to identify candidate effectors. Finally, the assembled contigs provided an inventory of PST repetitive elements, which were annotated and deposited in Repbase.Conclusions/significanceThe assembly of the PST-130 genome and the predicted proteins provide useful resources to rapidly identify and clone PST genes and their regulatory regions. Although the automatic gene prediction has limitations, we show that a comparative genomics approach using multiple rust species can greatly improve the quality of gene annotation in these species. The PST-130 sequence will also be useful for comparative studies within PST as more races are sequenced. This study illustrates the power of NGS for rapid and efficient access to genomic sequence in non-model organisms.

Published
2011

65. Release of ‘UI Gold’ hard white spring wheat

Author

Chen, Jianli, primary, Wheeler, Justin J., additional, Marshall, Juliet M., additional, Chen, Xianming, additional, Windes, Sarah, additional, Wilson, Cathy, additional, Su, Meng, additional, Yimer, Belayneh, additional, Schroeder, Kurtis, additional, and Jackson, Chad, additional

Published
2023
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67. Population genomic analyses reveal extensive genomic regions within selective sweeps associated with adaptation and demographic history of a wheat fungal pathogen

Author

Xia, Chongjing, primary, Xia, Chongjing, additional, Huang, Liang, additional, Zhao, Na, additional, Li, Hongfu, additional, Zhang, Xingzong, additional, Qiu, AGe, additional, Tang, Wanqiang, additional, Wang, Meinan, additional, Chen, Xianming, additional, Liu, Bo, additional, Zhang, Hao, additional, Gao, Li, additional, Chen, Wanquan, additional, and Liu, Taiguo, additional

Published
2023
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68. Genome-wide QTL mapping for stripe rust resistance in spring wheat line PI 660122 using the Wheat 15K SNP array

Author

Yan, Qiong, primary, Jia, Guoyun, additional, Tan, Wenjing, additional, Tian, Ran, additional, Zheng, Xiaochen, additional, Feng, Junming, additional, Luo, Xiaoqin, additional, Si, Binfan, additional, Li, Xin, additional, Huang, Kebing, additional, Wang, Meinan, additional, Chen, Xianming, additional, Ren, Yong, additional, Yang, Suizhuang, additional, and Zhou, Xinli, additional

Published
2023
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70. A Kinase-START Gene Confers Temperature-Dependent Resistance to Wheat Stripe Rust

Author

Fu, Daolin, Uauy, Cristobal, Distelfeld, Assaf, Blechl, Ann, Epstein, Lynn, Chen, Xianming, Sela, Hanan, Fahima, Tzion, and Dubcovsky, Jorge

Subjects
Plant Biology, Agricultural, Veterinary and Food Sciences, Biological Sciences, Biotechnology, Amino Acid Sequence, Basidiomycota, Cloning, Molecular, Crosses, Genetic, Down-Regulation, Genes, Plant, Hot Temperature, Immunity, Innate, Molecular Sequence Data, Phosphotransferases, Physical Chromosome Mapping, Plant Diseases, Plant Proteins, Plants, Genetically Modified, Triticum, General Science & Technology
Abstract

Stripe rust is a devastating fungal disease that afflicts wheat in many regions of the world. New races of Puccinia striiformis, the pathogen responsible for this disease, have overcome most of the known race-specific resistance genes. We report the map-based cloning of the gene Yr36 (WKS1), which confers resistance to a broad spectrum of stripe rust races at relatively high temperatures (25 degrees to 35 degrees C). This gene includes a kinase and a putative START lipid-binding domain. Five independent mutations and transgenic complementation confirmed that both domains are necessary to confer resistance. Yr36 is present in wild wheat but is absent in modern pasta and bread wheat varieties, and therefore it can now be used to improve resistance to stripe rust in a broad set of varieties.

Published
2009

71. Release of 'UI Gold' hard white spring wheat.

Author

Chen, Jianli, Wheeler, Justin J., Marshall, Juliet M., Chen, Xianming, Windes, Sarah, Wilson, Cathy, Su, Meng, Yimer, Belayneh, Schroeder, Kurtis, and Jackson, Chad

Subjects
GOLD, GRAIN yields, BREAD quality, WHEAT, AGRICULTURE, WINTER wheat, GLUTEN
Abstract

'UI Gold' (Reg. no. CV‐1205, PI 700874) hard white spring wheat (Triticum aestivum L.) was developed by the Idaho Agricultural Experiment Station and released in 2022. UI Gold was derived from the cross A03018S‐E × WA8123. It was tested under experimental numbers A11434‐14 and IDO1804S and showed high grain yield and excellent bread‐baking quality when grown in both irrigated and dryland conditions. UI Gold has grain yield comparable to the high‐yielding hard white spring check cultivar 'Dayn' and higher yield than the widely grown hard white spring wheat cultivars 'SY Teton' and 'UI Platinum'. UI Gold has gluten strength similar to SY Teton and greater gluten strength than Dayn and UI Platinum. Compared with Dayn, in various trials UI Gold matured 3–4 days later and was 1–5 cm shorter. Core Ideas: 'UI Gold' is a hard white spring wheat cultivar with high grain yield.'UI Gold' has desirable bread baking quality. [ABSTRACT FROM AUTHOR]

Published
2024
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72. 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

Author

Uauy, Cristobal, Brevis, Juan Carlos, Chen, Xianming, Khan, Imtiaz, Jackson, Lee, Chicaiza, Oswaldo, Distelfeld, Assaf, Fahima, Tzion, and Dubcovsky, Jorge

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Crop and Pasture Production, Genetics, Chromosome Mapping, Chromosomes, Plant, Crosses, Genetic, Genetic Markers, Genotype, Hot Temperature, Immunity, Innate, Phenotype, Plant Diseases, Triticum, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Plant biology
Abstract

Several new races of the stripe rust pathogen have become frequent throughout the wheat growing regions of the United States since 2000. These new races are virulent to most of the wheat seedling resistance genes limiting the resistance sources that can be used to combat this pathogen. High-temperature adult-plant (HTAP) stripe rust resistance has proven to be more durable than seedling resistance due to its non-race-specific nature, but its use is limited by the lack of mapping information. We report here the identification of a new HTAP resistance gene from Triticum turgidum ssp. dicoccoides (DIC) designated as Yr36. Lines carrying this gene were susceptible to almost all the stripe rust pathogen races tested at the seedling stage but showed adult-plant resistance to the prevalent races in California when tested at high diurnal temperatures. Isogenic lines for this gene were developed by six backcross generations. Field tests in two locations showed increased levels of field resistance to stripe rust and increased yields in isogenic lines carrying the Yr36 gene compared to those without the gene. Recombinant substitution lines of chromosome 6B from DIC in the isogenic background of durum cv. Langdon were used to map the Yr36 gene on the short arm of chromosome 6B completely linked to Xbarc101, and within a 2-cM interval defined by PCR-based markers Xucw71 and Xbarc136. Flanking locus Xucw71 is also closely linked to the grain protein content locus Gpc-B1 (0.3-cM). Marker-assisted selection strategies are presented to improve stripe rust resistance and simultaneously select for high or low Gpc-B1 alleles.

Published
2005

73. Improve Non-graph Matching Feature-Based Face Recognition Performance by Using a Multi-stage Matching Strategy

Author

Chen, Xianming, Zhang, Wenyin, Zhang, Chaoyang, Zhou, Zhaoxian, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Bebis, George, editor, Boyle, Richard, editor, Parvin, Bahram, editor, Koracin, Darko, editor, Pavlidis, Ioannis, editor, Feris, Rogerio, editor, McGraw, Tim, editor, Elendt, Mark, editor, Kopper, Regis, editor, Ragan, Eric, editor, Ye, Zhao, editor, and Weber, Gunther, editor

Published
2015
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74. Development of Sequence Tagged Site and Cleaved Amplified Polymorphic Sequence Markers for Wheat Stripe Rust Resistance Gene Yr5

Author

Chen, Xianming, Soria, Marcelo A, Yan, Guiping, Sun, Jun, and Dubcovsky, Jorge

Subjects
Genetics, Crop and Pasture Production, Plant Biology & Botany
Abstract

The Yr5 gene confers resistance to all races of the wheat stripe rust pathogen [Puccinia striiformis Westend. f. sp. tritici Eriks. (P. s. tritici)] identified so far in the USA. Cosegregating resistance gene analog polymorphism (RGAP) markers for Yr5 are available but their use requires skills in polyacrylamide gel electrophoresis and may not be polymorphic across various varieties. To develop better markers to be used in marker-assisted selection for the Yr5 resistance, sequence tagged site (STS) primers were designed on the basis of the sequences of RGAP markers Xwgp-18 (AY167598) from the spring wheat (Triticum aestivum L.) 'Avocet Susceptible' (AVS) and Xwgp-17 (AY167597) from the Yr5 near isogenic line (NIL) in the AVS background carrying the Yr5 gene from T. aestivum subsp. spelta (L.) Thell. cv. Album (TSA). Three sets of STS markers (two codominant and one dominant) were developed to amplify a region including a polymorphic 6-base pairs (bp) insertion-deletion (indel). The cosegregation of the STS markers with Yr5 was confirmed with 114 BC 7:F3 lines developed from the cross between AVS and TSA. The STS markers worked well in five out of 17 non-Yr5 wheat varieties, but the remaining varieties had a similar size of fragment to the Yr5 marker. Because the codominant STS markers were based on a 6-bp indel, they could not be separated by agarose gel electrophoresis. Cleaved amplified polymorphic sequence (CAPS) markers were then developed on the basis of a DpnII restriction site that is present in all non-Yr5 varieties and absent in the Yr5 NIL. The CAPS markers for the Yr5 NIL and non-Yr5 varieties can be separated by agarose gel electrophoresis. The codominant STS markers are easier to score than the original RGAP markers. The CAPS markers are not only easier to score, but also can be used in crosses of an Yr5 donor with a much wider range of wheat germplasms. These markers should be valuable tools to accelerate the introgression of Yr5 into commercial cultivars and to combine Yr5 with other genes for durable resistance to stripe rust.

Published
2003

75. Mining the Australian Grains Gene Bank for Rust Resistance in Barley

Author

Arifuzzaman, Md, primary, Jost, Matthias, additional, Wang, Meinan, additional, Chen, Xianming, additional, Perovic, Dragan, additional, Park, Robert F., additional, Rouse, Matthew, additional, Forrest, Kerrie, additional, Hayden, Matthew, additional, Khan, Ghazanfar Abbas, additional, and Dracatos, Peter M., additional

Published
2023
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76. A global assessment of the state of plant health

Author

Acuña, Ivette, Andrade-Piedra, Jorge L., Andrivon, Didier, Armengol, Josep, Arnold, A. Elizabeth, Avelino, Jacques, Bandyopadhyay, Ranajit, Bihon Legesse, Wubetu, Bock, Clive H., Bove, Federica, Brenes-Arguedas, Tania, Calonnec, Agnès, Carmona, Marcelo, Carnegie, Angus J., Castilla, Nancy P., Chen, Xianming, Della Coletta-Filho, Helvecio, Coley, Phyllis D., Cox, Kerik D., Davey, Triona, Del Ponte, Emerson, Denman, Sandra, Desprez‐Loustau, Marie‐Laure, Dewdney, Megan M., Djurle, Annika, Drenth, André, Ducousso, Alexis, Esker, Paul, Fiaboe, Komi K. Mokpokpo, Fourie, Paul Hendrik, Frankel, Susan J., Frey, Pascal, Garcia-Figuera, Sara, Garrett, Karen A., Guérin, Maxime, Hardy, Giles E. St. J., Hausladen, Hans, Hu, Xiaoping, Hüberli, Daniel, Juzwik, Jennifer, Kang, Zhensheng, Kenyon, Lawrence, Kreuze, Jan, Kromann, Peter, Kubiriba, Jerome, Kuhnem, Paulo, Kumar, J., Kumar, P. Lava, Lebrun, Marc-Henri, Legg, James, Leon, Anna, Ma, Zhanhong, Mahuku, George, Makinson, Robert O., Marzachi, Cristina, McDonald, Bruce A., McRoberts, Neil, Menkir, Abebe, Mikaberidze, Alexey, Munck, Isabel A., Nelson, Andrew, Nguyen, Nga Thi Thu, O’Gara, Emer, Ojiambo, Peter, Ortega-Beltran, Alejandro, Paul, Pierce, Pethybridge, Sarah, Pinon, Jean, Ramsfield, Tod, Rizzo, David M., Rossi, Vittorio, Safni, Irda, Sah, Sonam, Santini, Alberto, Sautua, Francisco, Savary, Serge, Schreinemachers, Pepijn, Singh, Manjari, Spear, Erin R., Srinivasan, Ramasamy, Tripathi, Leena, Vicent, Antonio, Viljoen, Altus, Willocquet, Laetitia, Woods, Alex John, Wu, Boming, Xia, Xianchun, Xu, Xiangming, Yuen, Jonathan, Zalamea, Paul-Camilo, Zhou, Changyong, Acuña, Ivette, Andrade-Piedra, Jorge L., Andrivon, Didier, Armengol, Josep, Arnold, A. Elizabeth, Avelino, Jacques, Bandyopadhyay, Ranajit, Bihon Legesse, Wubetu, Bock, Clive H., Bove, Federica, Brenes-Arguedas, Tania, Calonnec, Agnès, Carmona, Marcelo, Carnegie, Angus J., Castilla, Nancy P., Chen, Xianming, Della Coletta-Filho, Helvecio, Coley, Phyllis D., Cox, Kerik D., Davey, Triona, Del Ponte, Emerson, Denman, Sandra, Desprez‐Loustau, Marie‐Laure, Dewdney, Megan M., Djurle, Annika, Drenth, André, Ducousso, Alexis, Esker, Paul, Fiaboe, Komi K. Mokpokpo, Fourie, Paul Hendrik, Frankel, Susan J., Frey, Pascal, Garcia-Figuera, Sara, Garrett, Karen A., Guérin, Maxime, Hardy, Giles E. St. J., Hausladen, Hans, Hu, Xiaoping, Hüberli, Daniel, Juzwik, Jennifer, Kang, Zhensheng, Kenyon, Lawrence, Kreuze, Jan, Kromann, Peter, Kubiriba, Jerome, Kuhnem, Paulo, Kumar, J., Kumar, P. Lava, Lebrun, Marc-Henri, Legg, James, Leon, Anna, Ma, Zhanhong, Mahuku, George, Makinson, Robert O., Marzachi, Cristina, McDonald, Bruce A., McRoberts, Neil, Menkir, Abebe, Mikaberidze, Alexey, Munck, Isabel A., Nelson, Andrew, Nguyen, Nga Thi Thu, O’Gara, Emer, Ojiambo, Peter, Ortega-Beltran, Alejandro, Paul, Pierce, Pethybridge, Sarah, Pinon, Jean, Ramsfield, Tod, Rizzo, David M., Rossi, Vittorio, Safni, Irda, Sah, Sonam, Santini, Alberto, Sautua, Francisco, Savary, Serge, Schreinemachers, Pepijn, Singh, Manjari, Spear, Erin R., Srinivasan, Ramasamy, Tripathi, Leena, Vicent, Antonio, Viljoen, Altus, Willocquet, Laetitia, Woods, Alex John, Wu, Boming, Xia, Xianchun, Xu, Xiangming, Yuen, Jonathan, Zalamea, Paul-Camilo, and Zhou, Changyong

Abstract

The Global Plant Health Assessment (GPHA) is a collective, volunteer-based effort to assemble expert opinions on plant health and disease impacts on ecosystem services based on published scientific evidence. The GPHA considers a range of forest, agricultural, and urban systems worldwide. These are referred to as (Ecoregion × Plant System), i.e., selected case examples involving keystone plants in given parts of the world. The GPHA focuses on infectious plant diseases and plant pathogens, but encompasses the abiotic (e.g., temperature, drought, and floods) and other biotic (e.g., animal pests and humans) factors associated with plant health. Among the 33 (Ecoregion × Plant System) considered, 18 are assessed as in fair or poor health, and 20 as in declining health. Much of the observed state of plant health and its trends are driven by a combination of forces, including climate change, species invasions, and human management. Healthy plants ensure (i) provisioning (food, fiber, and material), (ii) regulation (climate, atmosphere, water, and soils), and (iii) cultural (recreation, inspiration, and spiritual) ecosystem services. All these roles that plants play are threatened by plant diseases. Nearly none of these three ecosystem services are assessed as improving. Results indicate that the poor state of plant health in sub-Saharan Africa gravely contributes to food insecurity and environmental degradation. Results further call for the need to improve crop health to ensure food security in the most populated parts of the world, such as in South Asia, where the poorest of the poor, the landless farmers, are at the greatest risk. The overview of results generated from this work identifies directions for future research to be championed by a new generation of scientists and revived public extension services. Breakthroughs from science are needed to (i) gather more data on plant health and its consequences, (ii) identify collective actions to manage plant systems, (iii) e

Published
2023

77. Genome-wide association study of common resistance to rust species in tetraploid wheat

Author

Ministero dell'Istruzione, dell'Università e della Ricerca, Marone, Daniela, Laidò, Giovanni, Saccomanno, Antonietta, Petruzzino, Giuseppe, Giaretta Azevedo, Cleber V., De Vita, Pasquale, Mastrangelo, Anna Maria, Gadaleta, Agata, Ammar, Karim, Bassi, Filippo M., Wang, Meinan, Chen, Xianming, Rubiales, Diego, Matny, Oadi, Steffenson, Brian J., Pecchioni, Nicola, Ministero dell'Istruzione, dell'Università e della Ricerca, Marone, Daniela, Laidò, Giovanni, Saccomanno, Antonietta, Petruzzino, Giuseppe, Giaretta Azevedo, Cleber V., De Vita, Pasquale, Mastrangelo, Anna Maria, Gadaleta, Agata, Ammar, Karim, Bassi, Filippo M., Wang, Meinan, Chen, Xianming, Rubiales, Diego, Matny, Oadi, Steffenson, Brian J., and Pecchioni, Nicola

Abstract

Rusts of the genus Puccinia are wheat pathogens. Stem (black; Sr), leaf (brown; Lr), and stripe (yellow; Yr) rust, caused by Puccinia graminis f. sp. tritici (Pgt), Puccinia triticina (Pt), and Puccinia striiformis f. sp. tritici (Pst), can occur singularly or in mixed infections and pose a threat to wheat production globally in terms of the wide dispersal of their urediniospores. The development of durable resistant cultivars is the most sustainable method for controlling them. Many resistance genes have been identified, characterized, genetically mapped, and cloned; several quantitative trait loci (QTLs) for resistance have also been described. However, few studies have considered resistance to all three rust pathogens in a given germplasm. A genome-wide association study (GWAS) was carried out to identify loci associated with resistance to the three rusts in a collection of 230 inbred lines of tetraploid wheat (128 of which were Triticum turgidum ssp. durum) genotyped with SNPs. The wheat panel was phenotyped in the field and subjected to growth chamber experiments across different countries (USA, Mexico, Morocco, Italy, and Spain); then, a mixed linear model (MLM) GWAS was performed. In total, 9, 34, and 5 QTLs were identified in the A and B genomes for resistance to Pgt, Pt, and Pst, respectively, at both the seedling and adult plant stages. Only one QTL on chromosome 4A was found to be effective against all three rusts at the seedling stage. Six QTLs conferring resistance to two rust species at the adult plant stage were mapped: three on chromosome 1B and one each on 5B, 7A, and 7B. Fifteen QTLs conferring seedling resistance to two rusts were mapped: five on chromosome 2B, three on 7B, two each on 5B and 6A, and one each on 1B, 2A, and 7A. Most of the QTLs identified were specific for a single rust species or race of a species. Candidate genes were identified within the confidence intervals of a QTL conferring resistance against at least two rust species by u

Published
2023

79. Pathogens which threaten food security: Puccinia striiformis, the wheat stripe rust pathogen

Author

Chen, Xianming

Abstract

Stripe rust, caused by Puccinia striiformis, is an important disease of wheat worldwide. The disease is old, but often appears as a re-emerging problem and also expands to new areas. Large-scale stripe rust epidemics occur when new races overcoming specific resistance genes develop in the pathogen population and/or when extreme disease-favourable weather conditions occur. Research progress has been made in the understanding of the biology, genomics, and evolution of the pathogen; host-pathogen interaction; and epidemiology and management of the disease. Despite its importance, the complete life cycle of this important pathogen was not known until very recently. The pathogen is now known to have a heteroecious macrocyclic lifecycle, but whether sexual reproduction on alternate hosts plays an important role in generating diverse races and increasing epidemics on crops is largely unknown. The pathogen has a large number of host species in the grass family, but the role of grass hosts in crop epidemics is not clear in many regions of the world. The disease can be controlled by growing resistant cultivars, appropriate use of fungicide, and suitable cultural practices. However, greater effort are needed to develop more cultivars with durable, high level resistance, develop accurate forecast models, and monitor the disease and pathogen virulence for more effective, profitable, and sustainable control of stripe rust.

Published
2024
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80. MARPLE, a point-of-care, strain-level disease diagnostics and surveillance tool for complex fungal pathogens

Author

Radhakrishnan, Guru V., Cook, Nicola M., Bueno-Sancho, Vanessa, Lewis, Clare M., Persoons, Antoine, Mitiku, Abel Debebe, Heaton, Matthew, Davey, Phoebe E., Abeyo, Bekele, Alemayehu, Yoseph, Badebo, Ayele, Barnett, Marla, Bryant, Ruth, Chatelain, Jeron, Chen, Xianming, Dong, Suomeng, Henriksson, Tina, Holdgate, Sarah, Justesen, Annemarie F., Kalous, Jay, Kang, Zhensheng, Laczny, Szymon, Legoff, Jean-Paul, Lesch, Driecus, Richards, Tracy, Randhawa, Harpinder S., Thach, Tine, Wang, Meinan, Hovmøller, Mogens S., Hodson, David P., and Saunders, Diane G. O.

Published
2019
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84. Transfer of the high-temperature adult-plant stripe rust resistance gene Yr62 in four Chinese wheat cultivars

Author

Zhou, Jianian, primary, Zheng, Xiaochen, additional, Tan, Wenjing, additional, Ma, Chunhua, additional, Tian, Ran, additional, Yan, Qiong, additional, Feng, Junming, additional, Zhang, Liangqi, additional, Jia, Guoyun, additional, Xia, Chongjing, additional, Yang, Suizhuang, additional, Kang, Zhensheng, additional, Chen, Xianming, additional, Li, Xin, additional, and Zhou, Xinli, additional

Published
2023
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86. Genomic analysis, trajectory tracking and field investigation of wheat stripe rust pathogen reveal sources and their migration routes contributing to disease epidemics in China

Author

Li, Yuxiang, primary, Dai, Jichen, additional, Zhang, Taixue, additional, Wang, Baotong, additional, Zhang, Siyue, additional, Wang, Conghao, additional, Zhang, Jiguang, additional, Yao, Qiang, additional, Li, Mingju, additional, Li, Chengyun, additional, Peng, Yuelin, additional, Cao, Shiqin, additional, Zhan, Gangming, additional, Tao, Fei, additional, Gao, Haifeng, additional, Huang, Weili, additional, Feng, Xiaojun, additional, Bai, Yingwen, additional, Qucuo, Zhuoma, additional, Shang, Hongsheng, additional, Huang, Chong, additional, Liu, Wancai, additional, Zhan, Jiasui, additional, Xu, Xiangming, additional, Chen, Xianming, additional, Kang, Zhensheng, additional, and Hu, Xiaoping, additional

Published
2023
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95. Theoretically Based Robust Algorithms for Tracking Intersection Curves of Two Deforming Parametric Surfaces

Author

Chen, Xianming, Riesenfeld, Richard F., Cohen, Elaine, Damon, James, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Kim, Myung-Soo, editor, and Shimada, Kenji, editor

Published
2006
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96. Tracking Point-Curve Critical Distances

Author

Chen, Xianming, Cohen, Elaine, Riesenfeld, Richard F., Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Kim, Myung-Soo, editor, and Shimada, Kenji, editor

Published
2006
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