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1. miR-325-3p, a novel regulator of osteoclastogenesis in osteolysis of colorectal cancer through targeting S100A4

Author

Li Chengling, Zhang Yulin, Xie Xiaoyu, Lu Xingchen, Zhang Sen, Wang Ziming, and Chen Xianming

Subjects
miR-325-3p, Bone metastasis, Colorectal cancer cells, S100A4, Therapeutics. Pharmacology, RM1-950, Biochemistry, QD415-436
Abstract

Abstract Background To investigate effect of microRNA-325-3p (miR-325-3p) on bone metastasis of colorectal cancer (CRC) and the precise role on osteoclastogenesis. Methods CT-26 cells were injected into tibias to establish bone metastatic model of CRC in vivo. AgomiR-325-3p or antagomir-325-3p were injected in tail-veins of Balb/c mice to interfere the osteoclastogenesis and bone metastasis of CRC. Safranin O and Fast Green staining examined the changes of trabecular area and TRAP staining examined the osteoclast number in bone metastasis of CRC. Real-time PCR was conducted to test the RNA level of miR-325-3p and mRNA levels of TRAP and Cathepsin K in osteoclast precursors (OCPs). Dual-luciferase reporter system was utilized to identify the direct target of miR-325-3p. Conditioned medium from CT-26 cells was collected to stimulate the OCPs during osteoclastogenesis induced by RANKL and M-CSF in vitro. Western blot analysis was performed to examine the protein level of S100A4 in OCPs after interfered by agomiR-325-3p or antagomir-325-3p cultured in CM or not. Results miR-325-3p downregulated in OCPs in CRC microenvironment both in vivo and in vitro. By luciferase activity assay, S100A4 was the target gene of miR-325-3p and the protein level of S100A4 in OCPs upregulated in CRC microenvironment. Overexpression of miR-325-3p inhibited the osteoclastogenesis of OCPs and it can be reversed after transfection with plasmid containing S100A4. Treatment with miR-325-3p can preserve trabecular area in bone metastasis of CRC. Conclusion miR-325-3p can prevent osteoclast formation through targeting S100A4 in OCPs. Overexpression of miR-325-3p efficiently decreased the osteoclast number and attenuated bone resorption in bone metastasis of CRC.

Published
2021
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3. A Study of the Herding Effect of Chinese Open-End Funds at the Industry Level

Author

Chen, Xianming, Appolloni, Andrea, Series Editor, Caracciolo, Francesco, Series Editor, Ding, Zhuoqi, Series Editor, Gogas, Periklis, Series Editor, Huang, Gordon, Series Editor, Nartea, Gilbert, Series Editor, Ngo, Thanh, Series Editor, Striełkowski, Wadim, Series Editor, Tehseen, Shehnaz, editor, Ahmad, Mohd Naseem Niaz, editor, and Afroz, Rafia, editor

Published
2024
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8. Research on the Optimization of New Media Marketing Strategies

Author

Sun, Yixuan, Gao, Mingrui, Li, Yaqi, Liu, Yue, Chen, Wei, Zhang, Zihui, Chen, Xianming, Qiu, Minghao, Appolloni, Andrea, Series Editor, Caracciolo, Francesco, Series Editor, Ding, Zhuoqi, Series Editor, Gogas, Periklis, Series Editor, Huang, Gordon, Series Editor, Nartea, Gilbert, Series Editor, Ngo, Thanh, Series Editor, Striełkowski, Wadim, Series Editor, Mallick, Hrushikesh, editor, B., Gaikar Vilas, editor, and San, Ong Tze, editor

Published
2023
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12. Differential gene expression in incompatible interaction between wheat and stripe rust fungus revealed by cDNA-AFLP and comparison to compatible interaction

Author

Han Qingmei, Wei Guorong, Huang Xueling, Ma Jinbiao, Dong Yanling, Tang Chunlei, Chen Xianming, Liu Wei, Wang Xiaojie, Huang Lili, and Kang Zhensheng

Subjects
Botany, QK1-989
Abstract

Abstract Background Stripe rust of wheat, caused by Puccinia striiformis f. sp. tritici (Pst), is one of the most important diseases of wheat worldwide. Due to special features of hexaploid wheat with large and complex genome and difficulties for transformation, and of Pst without sexual reproduction and hard to culture on media, the use of most genetic and molecular techniques in studying genes involved in the wheat-Pst interactions has been largely limited. The objective of this study was to identify transcriptionally regulated genes during an incompatible interaction between wheat and Pst using cDNA-AFLP technique Results A total of 52,992 transcript derived fragments (TDFs) were generated with 64 primer pairs and 2,437 (4.6%) of them displayed altered expression patterns after inoculation with 1,787 up-regulated and 650 down-regulated. We obtained reliable sequences (>100 bp) for 255 selected TDFs, of which 113 (44.3%) had putative functions identified. A large group (17.6%) of these genes shared high homology with genes involved in metabolism and photosynthesis; 13.8% to genes with functions related to disease defense and signal transduction; and those in the remaining groups (12.9%) to genes involved in transcription, transport processes, protein metabolism, and cell structure, respectively. Through comparing TDFs identified in the present study for incompatible interaction and those identified in the previous study for compatible interactions, 161 TDFs were shared by both interactions, 94 were expressed specifically in the incompatible interaction, of which the specificity of 43 selected transcripts were determined using quantitative real-time polymerase chain reaction (qRT-PCR). Based on the analyses of homology to genes known to play a role in defense, signal transduction and protein metabolism, 20 TDFs were chosen and their expression patterns revealed by the cDNA-AFLP technique were confirmed using the qRT-PCR analysis. Conclusion We uncovered a number of new candidate genes possibly involved in the interactions of wheat and Pst, of which 11 TDFs expressed specifically in the incompatible interaction. Resistance to stripe rust in wheat cv. Suwon11 is executed after penetration has occurred. Moreover, we also found that plant responses in compatible and incompatible interactions are qualitatively similar but quantitatively different soon after stripe rust fungus infection.

Published
2010
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13. Generation and analysis of expression sequence tags from haustoria of the wheat stripe rust fungus Puccinia striiformis f. sp. Tritici

Author

Han Qingmei, Wang Xiaojie, Chen Xianming, Yin Chuntao, Kang Zhensheng, and Hulbert Scot H

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is one of the most destructive diseases of wheat (Triticum aestivum L.) worldwide. In spite of its agricultural importance, the genomics and genetics of the pathogen are poorly characterized. Pst transcripts from urediniospores and germinated urediniospores have been examined previously, but little is known about genes expressed during host infection. Some genes involved in virulence in other rust fungi have been found to be specifically expressed in haustoria. Therefore, the objective of this study was to generate a cDNA library to characterize genes expressed in haustoria of Pst. Results A total of 5,126 EST sequences of high quality were generated from haustoria of Pst, from which 287 contigs and 847 singletons were derived. Approximately 10% and 26% of the 1,134 unique sequences were homologous to proteins with known functions and hypothetical proteins, respectively. The remaining 64% of the unique sequences had no significant similarities in GenBank. Fifteen genes were predicted to be proteins secreted from Pst haustoria. Analysis of ten genes, including six secreted protein genes, using quantitative RT-PCR revealed changes in transcript levels in different developmental and infection stages of the pathogen. Conclusions The haustorial cDNA library was useful in identifying genes of the stripe rust fungus expressed during the infection process. From the library, we identified 15 genes encoding putative secreted proteins and six genes induced during the infection process. These genes are candidates for further studies to determine their functions in wheat-Pst interactions.

Published
2009
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14. Identification of expressed genes during compatible interaction between stripe rust (Puccinia striiformis) and wheat using a cDNA library

Author

Huang Lili, Qu Zhipeng, Chen Xianming, Wang Xiaojie, Huang Xueling, Ma Jinbiao, and Kang Zhensheng

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Wheat stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is one of the most destructive diseases of wheat worldwide. To establish compatibility with the host, Pst forms special infection structures to invade the plant with minimal damage to host cells. Although compatible interaction between wheat and Pst has been studied using various approaches, research on molecular mechanisms of the interaction is limited. The aim of this study was to develop an EST database of wheat infected by Pst in order to determine transcription profiles of genes involved in compatible wheat-Pst interaction. Results Total RNA, extracted from susceptible infected wheat leaves harvested at 3, 5 and 8 days post inoculation (dpi), was used to create a cDNA library, from which 5,793 ESTs with high quality were obtained and clustered into 583 contigs and 2,160 singletons to give a set of 2,743 unisequences (GenBank accessions: GR302385 to GR305127). The BLASTx program was used to search for homologous genes of the unisequences in the GenBank non-redundant protein database. Of the 2,743 unisequences, 52.8% (the largest category) were highly homologous to plant genes; 16.3% to fungal genes and 30% of no-hit. The functional classification of all ESTs was established based on the database entry giving the best E-value using the Bevan's classification categories. About 50% of the ESTs were significantly homologous to genes encoding proteins with known functions; 20% were similar to genes encoding proteins with unknown functions and 30% did not have significant homology to any sequence in the database. The quantitative real-time PCR (qRT-PCR) analysis determined the transcription profiles and their involvement in the wheat-Pst interaction for seven of the gene. Conclusion The cDNA library is useful for identifying the functional genes involved in the wheat-Pst compatible interaction, and established a new database for studying Pst pathogenesis genes and wheat defense genes. The transcription patterns of seven genes were confirmed by the qRT-PCR assay to be differentially expressed in wheat-Pst compatible and incompatible interaction.

Published
2009
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15. cDNA-AFLP analysis reveals differential gene expression in compatible interaction of wheat challenged with Puccinia striiformis f. sp. tritici

Author

Huang Lili, Han Qingmei, Zhao Jie, Qu Zhipeng, Liu Bo, Wang Chenfang, Li Yingchun, Zhang Gang, Tang Chunlei, Wang Xiaojie, Chen Xianming, and Kang Zhensheng

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Puccinia striiformis f. sp. tritici is a fungal pathogen causing stripe rust, one of the most important wheat diseases worldwide. The fungus is strictly biotrophic and thus, completely dependent on living host cells for its reproduction, which makes it difficult to study genes of the pathogen. In spite of its economic importance, little is known about the molecular basis of compatible interaction between the pathogen and wheat host. In this study, we identified wheat and P. striiformis genes associated with the infection process by conducting a large-scale transcriptomic analysis using cDNA-AFLP. Results Of the total 54,912 transcript derived fragments (TDFs) obtained using cDNA-AFLP with 64 primer pairs, 2,306 (4.2%) displayed altered expression patterns after inoculation, of which 966 showed up-regulated and 1,340 down-regulated. 186 TDFs produced reliable sequences after sequencing of 208 TDFs selected, of which 74 (40%) had known functions through BLAST searching the GenBank database. Majority of the latter group had predicted gene products involved in energy (13%), signal transduction (5.4%), disease/defence (5.9%) and metabolism (5% of the sequenced TDFs). BLAST searching of the wheat stem rust fungus genome database identified 18 TDFs possibly from the stripe rust pathogen, of which 9 were validated of the pathogen origin using PCR-based assays followed by sequencing confirmation. Of the 186 reliable TDFs, 29 homologous to genes known to play a role in disease/defense, signal transduction or uncharacterized genes were further selected for validation of cDNA-AFLP expression patterns using qRT-PCR analyses. Results confirmed the altered expression patterns of 28 (96.5%) genes revealed by the cDNA-AFLP technique. Conclusion The results show that cDNA-AFLP is a reliable technique for studying expression patterns of genes involved in the wheat-stripe rust interactions. Genes involved in compatible interactions between wheat and the stripe rust pathogen were identified and their expression patterns were determined. The present study should be helpful in elucidating the molecular basis of the infection process, and identifying genes that can be targeted for inhibiting the growth and reproduction of the pathogen. Moreover, this study can also be used to elucidate the defence responses of the genes that were of plant origin.

Published
2009
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16. Large-scale analysis of antisense transcription in wheat using the Affymetrix GeneChip Wheat Genome Array

Author

Settles Matthew L, Coram Tristan E, and Chen Xianming

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Natural antisense transcripts (NATs) are transcripts of the opposite DNA strand to the sense-strand either at the same locus (cis-encoded) or a different locus (trans-encoded). They can affect gene expression at multiple stages including transcription, RNA processing and transport, and translation. NATs give rise to sense-antisense transcript pairs and the number of these identified has escalated greatly with the availability of DNA sequencing resources and public databases. Traditionally, NATs were identified by the alignment of full-length cDNAs or expressed sequence tags to genome sequences, but an alternative method for large-scale detection of sense-antisense transcript pairs involves the use of microarrays. In this study we developed a novel protocol to assay sense- and antisense-strand transcription on the 55 K Affymetrix GeneChip Wheat Genome Array, which is a 3' in vitro transcription (3'IVT) expression array. We selected five different tissue types for assay to enable maximum discovery, and used the 'Chinese Spring' wheat genotype because most of the wheat GeneChip probe sequences were based on its genomic sequence. This study is the first report of using a 3'IVT expression array to discover the expression of natural sense-antisense transcript pairs, and may be considered as proof-of-concept. Results By using alternative target preparation schemes, both the sense- and antisense-strand derived transcripts were labeled and hybridized to the Wheat GeneChip. Quality assurance verified that successful hybridization did occur in the antisense-strand assay. A stringent threshold for positive hybridization was applied, which resulted in the identification of 110 sense-antisense transcript pairs, as well as 80 potentially antisense-specific transcripts. Strand-specific RT-PCR validated the microarray observations, and showed that antisense transcription is likely to be tissue specific. For the annotated sense-antisense transcript pairs, analysis of the gene ontology terms showed a significant over-representation of transcripts involved in energy production. These included several representations of ATP synthase, photosystem proteins and RUBISCO, which indicated that photosynthesis is likely to be regulated by antisense transcripts. Conclusion This study demonstrated the novel use of an adapted labeling protocol and a 3'IVT GeneChip array for large-scale identification of antisense transcription in wheat. The results show that antisense transcription is relatively abundant in wheat, and may affect the expression of valuable agronomic phenotypes. Future work should select potentially interesting transcript pairs for further functional characterization to determine biological activity.

Published
2009
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17. Construction and characterization of a full-length cDNA library for the wheat stripe rust pathogen (Puccinia striiformis f. sp. tritici)

Author

Chen Xianming, Wang Meinan, Ling Peng, and Campbell Kimberly

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Puccinia striiformis is a plant pathogenic fungus causing stripe rust, one of the most important diseases on cereal crops and grasses worldwide. However, little is know about its genome and genes involved in the biology and pathogenicity of the pathogen. We initiated the functional genomic research of the fungus by constructing a full-length cDNA and determined functions of the first group of genes by sequence comparison of cDNA clones to genes reported in other fungi. Results A full-length cDNA library, consisting of 42,240 clones with an average cDNA insert of 1.9 kb, was constructed using urediniospores of race PST-78 of P. striiformis f. sp. tritici. From 196 sequenced cDNA clones, we determined functions of 73 clones (37.2%). In addition, 36 clones (18.4%) had significant homology to hypothetical proteins, 37 clones (18.9%) had some homology to genes in other fungi, and the remaining 50 clones (25.5%) did not produce any hits. From the 73 clones with functions, we identified 51 different genes encoding protein products that are involved in amino acid metabolism, cell defense, cell cycle, cell signaling, cell structure and growth, energy cycle, lipid and nucleotide metabolism, protein modification, ribosomal protein complex, sugar metabolism, transcription factor, transport metabolism, and virulence/infection. Conclusion The full-length cDNA library is useful in identifying functional genes of P. striiformis.

Published
2007
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18. Genomic analysis, trajectory tracking, and field surveys reveal sources and long-distance dispersal routes of wheat stripe rust pathogen in China

Author

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

Published
2023
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25. An ancestral NB-LRR with duplicated 3'UTRs confers stripe rust resistance in wheat and barley.

Author

Zhang, Chaozhong, Huang, Lin, Zhang, Huifei, Hao, Qunqun, Lyu, Bo, Wang, Meinan, Epstein, Lynn, Liu, Miao, Kou, Chunlan, Qi, Juan, Chen, Fengjuan, Li, Mengkai, Gao, Ge, Ni, Fei, Zhang, Lianquan, Hao, Ming, Wang, Jirui, Chen, Xianming, Luo, Ming-Cheng, Zheng, Youliang, Wu, Jiajie, Liu, Dengcai, and Fu, Daolin

Subjects
Basidiomycota, Plants, Genetically Modified, Hordeum, Triticum, 3' Untranslated Regions, Chromosome Mapping, Phylogeny, Plant Diseases, Gene Expression Regulation, Plant, Gene Duplication, Mutation, Alleles, Genes, Plant, Disease Resistance, Genetics, Gene Expression Regulation, Plant, Genes, Plants, Genetically Modified, MD Multidisciplinary
Abstract

Wheat stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is a global threat to wheat production. Aegilops tauschii, one of the wheat progenitors, carries the YrAS2388 locus for resistance to Pst on chromosome 4DS. We reveal that YrAS2388 encodes a typical nucleotide oligomerization domain-like receptor (NLR). The Pst-resistant allele YrAS2388R has duplicated 3' untranslated regions and is characterized by alternative splicing in the nucleotide-binding domain. Mutation of the YrAS2388R allele disrupts its resistance to Pst in synthetic hexaploid wheat; transgenic plants with YrAS2388R show resistance to eleven Pst races in common wheat and one race of P. striiformis f. sp. hordei in barley. The YrAS2388R allele occurs only in Ae. tauschii and the Ae. tauschii-derived synthetic wheat; it is absent in 100% (n = 461) of common wheat lines tested. The cloning of YrAS2388R will facilitate breeding for stripe rust resistance in wheat and other Triticeae species.

Published
2019

26. Genomes of Aegilops umbellulata provide new insights into unique structural variations and genetic diversity in the U‐genome for wheat improvement.

Author

Singh, Jatinder, Gudi, Santosh, Maughan, Peter J., Liu, Zhaohui, Kolmer, James, Wang, Meinan, Chen, Xianming, Rouse, Matthew N., Lasserre‐Zuber, Pauline, Rimbert, Héléne, Sehgal, Sunish, Fiedler, Jason D., Choulet, Frédéric, Acevedo, Maricelis, Gupta, Rajeev, and Gill, Upinder

Subjects
GENETIC variation, CHROMOSOMAL rearrangement, PHENOTYPIC plasticity, CHROMOSOMES, MOLECULAR cloning
Abstract

Summary: Aegilops umbellulata serve as an important reservoir for novel biotic and abiotic stress tolerance for wheat improvement. However, chromosomal rearrangements and evolutionary trajectory of this species remain to be elucidated. Here, we present a comprehensive investigation into Ae. umbellulata genome by generating a high‐quality near telomere‐to‐telomere genome assembly of PI 554389 and resequencing 20 additional Ae. umbellulata genomes representing diverse geographical and phenotypic variations. Our analysis unveils complex chromosomal rearrangements, most prominently in 4U and 6U chromosomes, delineating a distinct evolutionary trajectory of Ae. umbellulata from wheat and its relatives. Furthermore, our data rectified the erroneous naming of chromosomes 4U and 6U in the past and highlighted multiple major evolutionary events that led to the present‐day U‐genome. Resequencing of diverse Ae. umbellulata accessions revealed high genetic diversity within the species, partitioning into three distinct evolutionary sub‐populations and supported by extensive phenotypic variability in resistance against several races/pathotypes of five major wheat diseases. Disease evaluations indicated the presence of several novel resistance genes in the resequenced lines for future studies. Resequencing also resulted in the identification of six new haplotypes for Lr9, the first resistance gene cloned from Ae. umbellulata. The extensive genomic and phenotypic resources presented in this study will expedite the future genetic exploration of Ae. umbellulata, facilitating efforts aimed at enhancing resiliency and productivity in wheat. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Mapping QTL for Resistance to New Virulent Races of Wheat Stripe Rust from Two Argentinean Wheat Cultivars

Author

Cobo, Nicolas, Pflüger, Laura, Chen, Xianming, and Dubcovsky, Jorge

Subjects
Agricultural, Veterinary and Food Sciences, Crop and Pasture Production, Plant Biology & Botany, Crop and pasture production
Abstract

During the last two decades, new virulent and aggressive races of Puccinia striiformis Westend. f. sp. tritici (Pst) have spread worldwide, causing devastating epidemics and prompting the search for new sources of resistance in wheat (Triticum aestivum L.). Between 2012 and 2017, we mapped four stripe rust resistance quantitative trait loci (QTL) effective against the Pst races present in California, USA, using recombinant inbred lines (RILs) developed from the cross between the Argentinean cultivars ‘Klein Proteo’ and ‘Klein Chajá’. The RIL population showed transgressive segregation in all six growing seasons relative to the parental lines, which showed moderate levels of Pst resistance. Analyses by year detected QTL conferring adult plant resistance on chromosomes 1BL, 2BS, 3D centromeric (from Klein Chajá), and 4DL (from Klein Proteo). QYr.ucw‐1BL, mapped in the Yr29 resistance gene region, was significant in all seasons (P < 0.01) and explained on average 31.0 to 32.8% of the observed variation. QYr.ucw‐2BS showed a stronger effect than QYr.ucw‐1BL in 2013 but was ineffective in 2014 and 2016. This QTL also conferred seedling resistance, suggesting that it is an all‐stage resistance gene. Centromeric QYr.ucw‐3D and QYr.ucw‐4DL showed smaller effects than the previous QTL and were significant only in some of the experiments. No significant interactions were detected among QTL, indicating the absence of digenic epistatic effects. The molecular markers identified in this study can be used to combine these genes and accelerate their deployment in wheat breeding programs.

Published
2018

28. Wheat Enhanced Disease Resistance EMS-Mutants Include Lesion-mimics With Adult Plant Resistance to Stripe Rust

Author

Lunde, China, primary, Seong, Kyungyong, additional, Kumar, Rakesh, additional, Deatker, Andrew, additional, Chhabra, Bhavit, additional, Wang, Meinan, additional, Kaur, Shivreet, additional, Song, Sarah, additional, Palayur, Ann, additional, Davies, Cole, additional, Cumberlich, William, additional, Gill, Upinder, additional, Rawat, Nidhi, additional, Chen, Xianming, additional, Aoun, Meriem, additional, Mundt, Christopher, additional, and Krasileva, Ksenia V, additional

Published
2024
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32. Validation and characterization of a QTL for adult plant resistance to stripe rust on wheat chromosome arm 6BS (Yr78)

Author

Dong, Zhenzhen, Hegarty, Joshua M, Zhang, Junli, Zhang, Wenjun, Chao, Shiaoman, Chen, Xianming, Zhou, Yonghong, and Dubcovsky, Jorge

Subjects
Plant Biology, Agricultural, Veterinary and Food Sciences, Biological Sciences, Antimicrobial Resistance, Basidiomycota, Chromosomes, Plant, Disease Resistance, Genes, Plant, Genotype, Plant Diseases, Quantitative Trait Loci, Triticum, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Genetics, Plant biology
Abstract

Key messageThis study validated one QTL for adult plant resistance to stripe rust, identified donor lines of the resistance allele, and demonstrated that it is different from previously named Yr genes. The spread of more virulent and aggressive races of Puccinia striiformis f. sp. tritici (Pst, causal pathogen of stripe rust) after the year 2000 has caused substantial yield losses worldwide. To find new sources of resistance, we previously performed a genome-wide association study and identified a strong QTL for adult plant resistance on the short arm of chromosome 6B (QYr.ucw-6B). In this study, we validated QYr.ucw-6B in ten biparental populations, and mapped it 0.6 cM proximal to IWA7257 and 3.9 cM distal to IWA4408. We showed that QYr.ucw-6B is located approximately 15 cM proximal to the all-stage resistance gene Yr35 and that none of the resistant lines carries the previously cloned Yr36 gene. Based on these results, QYr.ucw-6B was assigned the name Yr78. This gene was not effective against Pst at the seedling stage, suggesting that it is an adult plant resistance gene. Yr78 has been effective against Pst races present in field experiments performed in the Western USA between 2011 and 2016. Since this gene is predicted to be present at low frequency in wheat germplasm from this region, it can provide a useful tool to diversify the sources of resistance against this devastating pathogen.

Published
2017

37. Genomes ofAegilops umbellulataprovide new insights into unique structural variations and genetic diversity in the U-genome for wheat improvement

Author

Singh, Jatinder, primary, Gudi, Santosh, additional, Maughan, Peter J., additional, Liu, Zhaohui, additional, Kolmer, James, additional, Wang, Meinan, additional, Chen, Xianming, additional, Rouse, Matthew, additional, Lasserre-Zuber, Pauline, additional, Rimbert, Helene, additional, Sehgal, Sunish, additional, Fiedler, Jason, additional, Choulet, Frédéric, additional, Acevedo, Maricelis, additional, Gupta, Rajeev, additional, and Gill, Upinder, additional

Published
2024
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38. Genome-wide Mapping of Quantitative Trait Loci Conferring Resistance to Stripe Rust in Spring Wheat Line PI 660072

Author

Zhou, Xinli, primary, Wang, Yuqi, additional, Luo, Yuqi, additional, Shuai, Jie, additional, Jia, Guoyun, additional, Chen, Hongyang, additional, Zhang, Liangqi, additional, Chen, Hao, additional, Li, Xin, additional, Huang, Kebing, additional, Yang, Suizhuang, additional, Wang, Meinan, additional, Ren, Yong, additional, Li, Gang, additional, and Chen, Xianming, additional

Published
2024
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39. Genome-wide association study of common resistance to rust species in tetraploid wheat

Author

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

Published
2024
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40. Comparisons of Stripe Rust Response, Grain Yield and Quality between Fungicide Sprayed and Non-Sprayed Treatments for Newly Developed Wheat Lines Carrying Different Genes for Adult-Plant Resistance to Stripe Rust

Author

Chen, Hao, primary, Zhang, Liangqi, additional, Ding, Chuanguang, additional, Luo, Yuqi, additional, Jia, Guoyun, additional, Feng, Junming, additional, Wang, Yuqi, additional, Si, Binfan, additional, Zhou, Jianian, additional, Li, Xin, additional, Huang, Kebing, additional, Yang, Suizhuang, additional, Ren, Yong, additional, Chen, Xianming, additional, Zhang, Pingping, additional, and Zhou, Xinli, additional

Published
2024
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41. Genetic Architecture of Resistance to Stripe Rust in a Global Winter Wheat Germplasm Collection

Author

Bulli, Peter, Zhang, Junli, Chao, Shiaoman, Chen, Xianming, and Pumphrey, Michael

Subjects
Plant Biology, Biological Sciences, Genetics, Human Genome, Basidiomycota, Chromosome Mapping, Disease Resistance, Genome-Wide Association Study, Genotype, Plant Breeding, Plant Diseases, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Seed Bank, Triticum, hexaploid wheat, disease resistance, yellow rust, association mapping, QTL-tag SNP, genetics of immunity, Biochemistry and cell biology, Statistics
Abstract

Virulence shifts in populations of Puccinia striiformis f. sp. tritici (Pst), the causal pathogen of wheat stripe rust, are a major challenge to resistance breeding. The majority of known resistance genes are already ineffective against current races of Pst, necessitating the identification and introgression of new sources of resistance. Germplasm core collections that reflect the range of genetic and phenotypic diversity of crop species are ideal platforms for examining the genetic architecture of complex traits such as resistance to stripe rust. We report the results of genetic characterization and genome-wide association analysis (GWAS) for resistance to stripe rust in a core subset of 1175 accessions in the National Small Grains Collection (NSGC) winter wheat germplasm collection, based on genotyping with the wheat 9K single nucleotide polymorphism (SNP) iSelect assay and phenotyping of seedling and adult plants under natural disease epidemics in four environments. High correlations among the field data translated into high heritability values within and across locations. Population structure was evident when accessions were grouped by stripe rust reaction. GWAS identified 127 resistance loci that were effective across at least two environments, including 20 with significant genome-wide adjusted P-values. Based on relative map positions of previously reported genes and QTL, five of the QTL with significant genome-wide adjusted P-values in this study represent potentially new loci. This study provides an overview of the diversity of Pst resistance in the NSGC winter wheat germplasm core collection, which can be exploited for diversification of stripe rust resistance in breeding programs.

Published
2016

42. Fine mapping of barley locus Rps6 conferring resistance to wheat stripe rust

Author

Li, Kun, Hegarty, Joshua, Zhang, Chaozhong, Wan, Anmin, Wu, Jiajie, Guedira, Gina Brown, Chen, Xianming, Muñoz-Amatriaín, María, Fu, Daolin, and Dubcovsky, Jorge

Subjects
Plant Biology, Agricultural, Veterinary and Food Sciences, Crop and Pasture Production, Biological Sciences, Basidiomycota, Brachypodium, Chromosome Mapping, Chromosomes, Plant, DNA, Plant, Disease Resistance, Genes, Plant, Genetic Linkage, Genetic Markers, Genotype, Hordeum, Plant Diseases, Quantitative Trait Loci, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Genetics, Plant biology
Abstract

Key messageBarley resistance to wheat stripe rust has remained effective for a long time and, therefore, the genes underlying this resistance can be a valuable tool to engineer durable resistance in wheat. Wheat stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is a major disease of wheat that is causing large economic losses in many wheat-growing regions of the world. Deployment of Pst resistance genes has been an effective strategy for controlling this pathogen, but many of these genes have been defeated by new Pst races. In contrast, genes providing resistance to this wheat pathogen in other grass species (nonhost resistance) have been more durable. Barley varieties (Hordeum vulgare ssp. vulgare) are predominately immune to wheat Pst, but we identified three accessions of wild barley (Hordeum vulgare ssp. spontaneum) that are susceptible to Pst. Using these accessions, we mapped a barley locus conferring resistance to Pst on the distal region of chromosome arm 7HL and designated it as Rps6. The detection of the same locus in the cultivated barley 'Tamalpais' and in the Chinese barley 'Y12' by an allelism test suggests that Rps6 may be a frequent component of barley intermediate host resistance to Pst. Using a high-density mapping population (>10,000 gametes) we precisely mapped Rps6 within a 0.14 cM region (~500 kb contig) that is colinear to regions in Brachypodium (

Published
2016

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