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254 results on '"Dong Suomeng"'

1. NLRs derepress MED10b- and MED7-mediated repression of jasmonate-dependent transcription to activate immunity.

Author

Wu, Qian, Tong, Cong, Chen, Zhengqiang, Huang, Shen, Zhao, Xiaohui, Hong, Hao, Li, Jia, Feng, Mingfeng, Wang, Huiyuan, Xu, Min, Yan, Yuling, Cui, Hongmin, Shen, Danyu, Ai, Gan, Xu, Yi, Li, Junming, Zhang, Hui, Huang, Changjun, Zhang, Zhongkai, Dong, Suomeng, Wang, Xuan, Zhu, Min, Tao, Xiaorong, and Dinesh-Kumar, Savithramma

Subjects
Mediator complex, NLRs, Sw-5b, effector-triggered immunity, Plant Immunity, Cyclopentanes, Transcription Factors, Mediator Complex, Arabidopsis Proteins
Abstract

Plant intracellular nucleotide-binding domain, leucine-rich repeat-containing receptors (NLRs) activate a robust immune response upon detection of pathogen effectors. How NLRs induce downstream immune defense genes remains poorly understood. The Mediator complex plays a central role in transducing signals from gene-specific transcription factors to the transcription machinery for gene transcription/activation. In this study, we demonstrate that MED10b and MED7 of the Mediator complex mediate jasmonate-dependent transcription repression, and coiled-coil NLRs (CNLs) in Solanaceae modulate MED10b/MED7 to activate immunity. Using the tomato CNL Sw-5b, which confers resistance to tospovirus, as a model, we found that the CC domain of Sw-5b directly interacts with MED10b. Knockout/down of MED10b and other subunits including MED7 of the middle module of Mediator activates plant defense against tospovirus. MED10b was found to directly interact with MED7, and MED7 directly interacts with JAZ proteins, which function as transcriptional repressors of jasmonic acid (JA) signaling. MED10b-MED7-JAZ together can strongly repress the expression of JA-responsive genes. The activated Sw-5b CC interferes with the interaction between MED10b and MED7, leading to the activation of JA-dependent defense signaling against tospovirus. Furthermore, we found that CC domains of various other CNLs including helper NLR NRCs from Solanaceae modulate MED10b/MED7 to activate defense against different pathogens. Together, our findings reveal that MED10b/MED7 serve as a previously unknown repressor of jasmonate-dependent transcription repression and are modulated by diverse CNLs in Solanaceae to activate the JA-specific defense pathways.

Published
2023

10. Extracellular proteolytic cascade in tomato activates immune protease Rcr3

Author

Paulus, Judith K., Kourelis, Jiorgos, Ramasubramanian, Selva, Homma, Felix, Godson, Alice, Hörger, Anja C., Hong, Tram Ngoc, Krahn, Daniel, Carballo, Laura Ossorio, Wang, Shuaishuai, Win, Joe, Smoker, Matthew, Kamoun, Sophien, Dong, Suomeng, and van der Hoorn, Renier A. L.

Published
2020

12. Oomycete Nudix effectors display WY‐Nudix conformation and mRNA decapping activity.

Author

Guo, Baodian, Hu, Qinli, Wang, Bangwei, Yao, Deqiang, Wang, Haonan, Kong, Guanghui, Han, Chenyang, Dong, Suomeng, Liu, Fengquan, Xing, Weiman, and Wang, Yuanchao

Subjects
GREEN fluorescent protein, FLAVIN adenine dinucleotide, SECOND messengers (Biochemistry), COENZYME A, HIGH performance liquid chromatography, NAD (Coenzyme)
Abstract

This article provides an analysis of Oomycete Nudix effectors, which are proteins secreted by phytopathogens to aid in the colonization of host plants. The researchers conducted a phylogenetic analysis and examined the crystal structure of the P. sojae effector Avr3b. They found that oomycete Nudix effectors have distinct structural features and functions compared to fungal and bacterial Nudix effectors. The study also revealed that Avr3b and other oomycete Nudix effectors have mRNA decapping activity, suggesting their involvement in modulating host immune responses. Further research is needed to fully understand the role of these effectors in promoting pathogen infection and their impact on host immunity. [Extracted from the article]

Published
2024
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13. The ETI‐dependent receptor‐like kinase 1 positively regulates effector‐triggered immunity by stabilizing NLR‐required for cell death 4 in Nicotiana benthamiana

Author

Sun, Yujing, primary, Liu, Fan, additional, Zeng, Mengzhu, additional, Zhang, Xinjie, additional, Cui, Ying, additional, Chen, Zhaodan, additional, Wang, Lei, additional, Xu, Yuanpeng, additional, Wu, Jinbin, additional, Guo, Shengya, additional, Dong, Xian, additional, Dong, Suomeng, additional, Wang, Yan, additional, and Wang, Yuanchao, additional

Published
2024
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18. Genome architecture and tetrasomic inheritance of autotetraploid potato

Author

Bao, Zhigui, primary, Li, Canhui, additional, Li, Guangcun, additional, Wang, Pei, additional, Peng, Zhen, additional, Cheng, Lin, additional, Li, Hongbo, additional, Zhang, Zhiyang, additional, Li, Yuying, additional, Huang, Wu, additional, Ye, Mingwang, additional, Dong, Daofeng, additional, Cheng, Zhukuan, additional, VanderZaag, Peter, additional, Jacobsen, Evert, additional, Bachem, Christian W.B., additional, Dong, Suomeng, additional, Zhang, Chunzhi, additional, Huang, Sanwen, additional, and Zhou, Qian, additional

Published
2023
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19. degQ associated with the degS/degU two‐component system regulates biofilm formation, antimicrobial metabolite production, and biocontrol activity in Bacillus velezensis DMW1

Author

Yu, Chenjie, primary, Qiao, Junqing, additional, Ali, Qurban, additional, Jiang, Qifan, additional, Song, Yan, additional, Zhu, Linli, additional, Gu, Qin, additional, Borriss, Rainer, additional, Dong, Suomeng, additional, Gao, Xuewen, additional, and Wu, Huijun, additional

Published
2023
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22. Alternative splicing of a potato disease resistance gene maintains homeostasis between development and immunity, and functions as a novel process for pathogen surveillance

Author

Sun, Biying, primary, Huang, Jie, additional, Gao, Chuyun, additional, Li, Kangping, additional, Zhao, Fei, additional, Kong, Liang, additional, Wang, Luyao, additional, Shen, Jiayong, additional, Wang, Yuanchao, additional, Halterman, Dennis A., additional, and Dong, Suomeng, additional

Published
2023
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26. Convergent evolution of immune receptors underpins distinct elicitin recognition in closely related Solanaceous plants

Author

Chen, Zhaodan, Liu, Fan, Zeng, Mengzhu, Wang, Lei, Liu, Hanmei, Sun, Yujing, Wang, Lan, Zhang, Zhichao, Chen, Zhiyuan, Xu, Yuanpeng, Zhang, Mingmei, Xia, Yeqiang, Ye, Wenwu, Dong, Suomeng, Govers, Francine, Wang, Yan, Wang, Yuanchao, Chen, Zhaodan, Liu, Fan, Zeng, Mengzhu, Wang, Lei, Liu, Hanmei, Sun, Yujing, Wang, Lan, Zhang, Zhichao, Chen, Zhiyuan, Xu, Yuanpeng, Zhang, Mingmei, Xia, Yeqiang, Ye, Wenwu, Dong, Suomeng, Govers, Francine, Wang, Yan, and Wang, Yuanchao

Abstract

Elicitins are a large family of secreted proteins in Phytophthora. Clade 1 elicitins were identified decades ago as potent elicitors of immune responses in Nicotiana species, but the mechanisms underlying elicitin recognition are largely unknown. Here we identified an elicitin receptor in Nicotiana benthamiana that we named REL for Responsive to ELicitins. REL is a receptor-like protein (RLP) with an extracellular leucine-rich repeat (LRR) domain that mediates Phytophthora resistance by binding elicitins. Silencing or knocking out REL in N. benthamiana abolished elicitin-triggered cell death and immune responses. Domain deletion and site-directed mutagenesis revealed that the island domain (ID) located within the LRR domain of REL is crucial for elicitin recognition. In addition, sequence polymorphism in the ID underpins the genetic diversity of REL homologs in various Nicotiana species in elicitin recognition and binding. Remarkably, REL is phylogenetically distant from the elicitin response (ELR) protein, an LRR-RLP that was previously identified in the wild potato species Solanum microdontum and REL and ELR differ in the way they bind and recognize elicitins. Our findings provide insights into the molecular basis of plant innate immunity and highlight a convergent evolution of immune receptors towards perceiving the same elicitor.

Published
2023

28. Structures of plant resistosome reveal how NLR immune receptors are activated

Author

Shi, Xuetao, Dong, Suomeng, and Liu, Wende

Abstract

Nucleotide-binding domain and leucine-rich repeat (NLR) proteins make up the largest immune receptor family in plants. Although many studies have put effort into revealing the working mechanism of NLRs, the activation details of plant NLRs still remain obscure. Recently, two remarkable works resolved the structures of a plant NLR protein, the Arabidopsis thalianaHOPZ-ACTIVATED RESISTANCE1 (ZAR1), both in resting and activation states. The activated ZAR1 with its partner proteins form a wheel-like pentamer called resistosome that is thought to be able to trigger cell death by perturbing plasma membrane integrity. These findings greatly further our understanding of plant immune system.

Published
2024
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30. 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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31. The CAP superfamily protein PsCAP1 secreted by Phytophthora triggers immune responses in Nicotiana benthamiana through a leucine‐rich repeat receptor‐like protein.

Author

Jiang, Haibin, Xia, Yeqiang, Zhang, Sicong, Zhang, Zhichao, Feng, Hui, Zhang, Qi, Chen, Xi, Xiao, Junhua, Yang, Sen, Zeng, Mengzhu, Chen, Zhaodan, Ouyang, Haibing, He, Xinyi, Sun, Guangzheng, Wu, Jinbin, Dong, Suomeng, Ye, Wenwu, Ma, Zhenchuan, Wang, Yan, and Wang, Yuanchao

Subjects
CAPPING proteins, NICOTIANA benthamiana, IMMUNE response, RECEPTOR-like kinases, PHYTOPHTHORA, PHYTOPHTHORA sojae, COAT proteins (Viruses)
Abstract

Summary: The role of cysteine‐rich secretory proteins, antigen 5, and pathogenesis‐related 1 (CAP) superfamily proteins in the innate immune responses of mammals is well characterized. However, the biological function of CAP superfamily proteins in plant–microbe interactions is poorly understood.We used proteomics and transcriptome analyses to dissect the apoplastic effectors secreted by the oomycete Phytophthora sojae during early infection of soybean leaves. By transiently expressing these effectors in Nicotiana benthamiana, we identified PsCAP1, a novel type of secreted CAP protein that triggers immune responses in multiple solanaceous plants including N. benthamiana. This secreted CAP protein is conserved among oomycetes, and multiple PsCAP1 homologs can be recognized by N. benthamiana.PsCAP1‐triggered immune responses depend on the N‐terminal immunogenic fragment (aa 27–151). Pretreatment of N. benthamiana with PsCAP1 or the immunogenic fragment increases plant resistance against Phytophthora. The recognition of PsCAP1 and different homologs requires the leucine‐rich repeat receptor‐like protein RCAP1, which associates with two central receptor‐like kinases BRI1‐associated receptor kinase 1 (BAK1) and suppressor of BIR1‐1 (SOBIR1) in planta.These findings suggest that the CAP‐type apoplastic effectors act as an important player in plant–microbe interactions that can be perceived by plant membrane‐localized receptor to activate plant resistance. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Fusarium‐produced vitamin B6 promotes the evasion of soybean resistance by Phytophthora sojae.

Author

Wang, Shuchen, Zhang, Xiaoyi, Zhang, Zhichao, Chen, Yun, Tian, Qing, Zeng, Dandan, Xu, Miao, Wang, Yan, Dong, Suomeng, Ma, Zhonghua, Wang, Yuanchao, Zheng, Xiaobo, and Ye, Wenwu

Subjects
PHYTOPHTHORA sojae, ROOT rots, CULTIVARS, VITAMIN B6, ALCOHOL dehydrogenase, SOYBEAN diseases & pests, SOYBEAN
Abstract

Plants can be infected by multiple pathogens concurrently in natural systems. However, pathogen–pathogen interactions have rarely been studied. In addition to the oomycete Phytophthora sojae, fungi such as Fusarium spp. also cause soybean root rot. In a 3‐year field investigation, we discovered that P. sojae and Fusarium spp. frequently coexisted in diseased soybean roots. Out of 336 P. sojae–soybean–Fusarium combinations, more than 80% aggravated disease. Different Fusarium species all enhanced P. sojae infection when co‐inoculated on soybean. Treatment with Fusarium secreted non‐proteinaceous metabolites had an effect equal to the direct pathogen co‐inoculation. By screening a Fusarium graminearum mutant library, we identified Fusariumpromoting factor of Phytophthora sojae infection 1 (Fpp1), encoding a zinc alcohol dehydrogenase. Fpp1 is functionally conserved in Fusarium and contributes to metabolite‐mediated infection promotion, in which vitamin B6 (VB6) produced by Fusarium is key. Transcriptional and functional analyses revealed that Fpp1 regulates two VB6 metabolism genes, and VB6 suppresses expression of soybean disease resistance‐related genes. These results reveal that co‐infection with Fusarium promotes loss of P. sojae resistance in soybean, information that will inform the sustainable use of disease‐resistant crop varieties and provide new strategies to control soybean root rot. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Convergent evolution of immune receptors underpins distinct elicitin recognition in closely related Solanaceous plants

Author

Chen, Zhaodan, primary, Liu, Fan, additional, Zeng, Mengzhu, additional, Wang, Lei, additional, Liu, Hanmei, additional, Sun, Yujing, additional, Wang, Lan, additional, Zhang, Zhichao, additional, Chen, Zhiyuan, additional, Xu, Yuanpeng, additional, Zhang, Mingmei, additional, Xia, Yeqiang, additional, Ye, Wenwu, additional, Dong, Suomeng, additional, Govers, Francine, additional, Wang, Yan, additional, and Wang, Yuanchao, additional

Published
2023
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37. The Phytophthora sojae nuclear effector PsAvh110 targets a host transcriptional complex to modulate plant immunity

Author

Qiu, Xufang, primary, Kong, Liang, additional, Chen, Han, additional, Lin, Yachun, additional, Tu, Siqun, additional, Wang, Lei, additional, Chen, Zhiyuan, additional, Zeng, Mengzhu, additional, Xiao, Junhua, additional, Yuan, Peiguo, additional, Qiu, Min, additional, Wang, Yan, additional, Ye, Wenwu, additional, Duan, Kaixuan, additional, Dong, Suomeng, additional, and Wang, Yuanchao, additional

Published
2022
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39. Genome architecture and tetrasomic inheritance of autotetraploid potato

Author

Bao, Zhigui, primary, Li, Canhui, additional, Li, Guangcun, additional, Wang, Pei, additional, Peng, Zhen, additional, Cheng, Lin, additional, Li, Hongbo, additional, Zhang, Zhiyang, additional, Li, Yuying, additional, Huang, Wu, additional, Ye, Mingwang, additional, Dong, Daofeng, additional, Cheng, Zhukuan, additional, VanderZaag, Peter, additional, Jacobsen, Evert, additional, Bachem, Christian W.B., additional, Dong, Suomeng, additional, Zhang, Chunzhi, additional, Huang, Sanwen, additional, and Zhou, Qian, additional

Published
2022
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40. Genome architecture and tetrasomic inheritance of autotetraploid potato

Author

Bao, Zhigui, Li, Canhui, Li, Guangcun, Wang, Pei, Peng, Zhen, Cheng, Lin, Li, Hongbo, Zhang, Zhiyang, Li, Yuying, Huang, Wu, Ye, Mingwang, Dong, Daofeng, Cheng, Zhukuan, VanderZaag, Peter, Jacobsen, Evert, Bachem, Christian W.B., Dong, Suomeng, Zhang, Chunzhi, Huang, Sanwen, Zhou, Qian, Bao, Zhigui, Li, Canhui, Li, Guangcun, Wang, Pei, Peng, Zhen, Cheng, Lin, Li, Hongbo, Zhang, Zhiyang, Li, Yuying, Huang, Wu, Ye, Mingwang, Dong, Daofeng, Cheng, Zhukuan, VanderZaag, Peter, Jacobsen, Evert, Bachem, Christian W.B., Dong, Suomeng, Zhang, Chunzhi, Huang, Sanwen, and Zhou, Qian

Abstract

Potato (Solanum tuberosum) is the most consumed non-cereal food crop. Most commercial potato cultivars are autotetraploids with highly heterozygous genomes, severely hampering genetic analyses and improvement. By leveraging the state-of-the-art sequencing technologies and polyploid graph binning, we achieved a chromosome-scale, haplotype-resolved genome assembly of a cultivated potato, Cooperation-88 (C88). Intra-haplotype comparative analyses revealed extensive sequence and expression differences in this tetraploid genome. We identified haplotype-specific pericentromeres on chromosomes, suggesting a distinct evolutionary trajectory of potato homologous centromeres. Furthermore, we detected double reduction events that are unevenly distributed on haplotypes in 1021 of 1034 selfing progeny, a feature of autopolyploid inheritance. By distinguishing maternal and paternal haplotype sets in C88, we simulated the origin of heterosis in cultivated tetraploid with a survey of 3110 tetra-allelic loci with deleterious mutations, which were masked in the heterozygous condition by two parents. This study provides insights into the genomic architecture of autopolyploids and will guide their breeding.

Published
2022

48. Transcriptome-Wide Analysis of RNA m6A Methylation and Gene Expression Changes Among Two Arabidopsis Ecotypes and Their Reciprocal Hybrids

Author

Xu, Zhihui, primary, Shi, Xiaobo, additional, Bao, Mengmei, additional, Song, Xiaoqian, additional, Zhang, Yuxia, additional, Wang, Haiyan, additional, Xie, Hairong, additional, Mao, Fei, additional, Wang, Shuai, additional, Jin, Hongmei, additional, Dong, Suomeng, additional, Zhang, Feng, additional, Wu, Zhe, additional, and Wu, Yufeng, additional

Published
2021
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49. Genome analysis of two newly emerged potato late blight isolates sheds light on pathogen adaptation and provides tools for disease management

Author

Zhang, Fan, Chen, Han, Zhang, Xinjie, Gao, Chuyun, Huang, Jie, Lü, Li, Shen, Danyu, Wang, Luyao, Huang, Chong, Ye, Wenwu, Zheng, Xiaobo, Wang, Yuanchao, Vossen, Jack H., Dong, Suomeng, Zhang, Fan, Chen, Han, Zhang, Xinjie, Gao, Chuyun, Huang, Jie, Lü, Li, Shen, Danyu, Wang, Luyao, Huang, Chong, Ye, Wenwu, Zheng, Xiaobo, Wang, Yuanchao, Vossen, Jack H., and Dong, Suomeng

Abstract

Phytophthora infestans, the causal agent of the Irish Potato Famine in the 1840s, is one of the most destructive crop pathogens that threaten global food security. Host resistance (R) genes may help to control the disease, but recognition by through the gene products can be evaded by newly emerging isolates. Such isolates are dangerous as they may cause disease outbreaks under favorable conditions. However, our lack of knowledge about adaptation in these isolates jeopardizes an apt response to resistance breakdown. Here we performed genome and transcriptome sequencing of HB1501 and HN1602, two field isolates from distinct Chinese geographic regions. We found extensive polymorphisms in these isolates, including gene copy number variations, nucleotide polymorphisms, and gene expression changes. Effector encoding genes, which contribute to virulence, show distinct expression landscapes in P. infestans isolates HB1501 and HN1602. In particular, polymorphisms at multiple effectors required for recognition (Avr loci) enabled these isolates to overcome corresponding R gene based resistance. Although the isolates evolved multiple strategies to evade recognition, we experimentally verified that several R genes such as R8, RB, and Rpi-vnt1.1 remain effective against these isolates and are valuable to potato breeding in the future. In summary, rapid characterization of the adaptation in emerging field isolates through genomic tools inform rational agricultural management to prevent potential future epidemics.

Published
2021

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