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1. Host-interactor screens of Phytophthora infestans RXLR proteins reveal vesicle trafficking as a major effector-targeted process

Author

Petre, Benjamin, Contreras, Mauricio P, Bozkurt, Tolga O, Schattat, Martin H, Sklenar, Jan, Schornack, Sebastian, Abd-El-Haliem, Ahmed, Castells-Graells, Roger, Lozano-Duran, Rosa, Dagdas, Yasin F, Menke, Frank LH, Jones, Alexandra ME, Vossen, Jack H, Robatzek, Silke, Kamoun, Sophien, and Win, Joe

Subjects
Plant Biology, Biochemistry and Cell Biology, Biological Sciences, Infectious Diseases, Aetiology, 2.1 Biological and endogenous factors, Infection, Cell Membrane, Endosomes, Host-Pathogen Interactions, Phytophthora infestans, Plant Diseases, Plant Proteins, Protein Interaction Maps, Proteins, SNARE Proteins, Tobacco, Transport Vesicles, Genetics, Plant Biology & Botany, Plant biology
Abstract

Pathogens modulate plant cell structure and function by secreting effectors into host tissues. Effectors typically function by associating with host molecules and modulating their activities. This study aimed to identify the host processes targeted by the RXLR class of host-translocated effectors of the potato blight pathogen Phytophthora infestans. To this end, we performed an in planta protein-protein interaction screen by transiently expressing P. infestans RXLR effectors in Nicotiana benthamiana leaves followed by coimmunoprecipitation and liquid chromatography-tandem mass spectrometry. This screen generated an effector-host protein interactome matrix of 59 P. infestans RXLR effectors x 586 N. benthamiana proteins. Classification of the host interactors into putative functional categories revealed over 35 biological processes possibly targeted by P. infestans. We further characterized the PexRD12/31 family of RXLR-WY effectors, which associate and colocalize with components of the vesicle trafficking machinery. One member of this family, PexRD31, increased the number of FYVE positive vesicles in N. benthamiana cells. FYVE positive vesicles also accumulated in leaf cells near P. infestans hyphae, indicating that the pathogen may enhance endosomal trafficking during infection. This interactome dataset will serve as a useful resource for functional studies of P. infestans effectors and of effector-targeted host processes.

Published
2021

3. PAT mRNA decapping factors are required for proper development in Arabidopsis

Author

Zuo, Zhangli, Roux, Milena Edna, Dagdas, Yasin F., Rodriguez, Eleazar, Petersen, Morten, Zuo, Zhangli, Roux, Milena Edna, Dagdas, Yasin F., Rodriguez, Eleazar, and Petersen, Morten

Abstract

Evolutionarily conserved protein associated with topoisomerase II (PAT1) proteins activate mRNA decay through binding mRNA and recruiting decapping factors to optimize posttranscriptional reprogramming. Here, we generated multiple mutants of pat1, pat1 homolog 1 (path1), and pat1 homolog 2 (path2) and discovered that pat triple mutants exhibit extremely stunted growth and all mutants with pat1 exhibit leaf serration while mutants with pat1 and path1 display short petioles. All three PATs can be found localized to processing bodies and all PATs can target ASYMMETRIC LEAVES 2-LIKE 9 transcripts for decay to finely regulate apical hook and lateral root development. In conclusion, PATs exhibit both specific and redundant functions during different plant growth stages and our observations underpin the selective regulation of the mRNA decay machinery for proper development., Evolutionarily conserved protein associated with topoisomerase II (PAT1) proteins activate mRNA decay through binding mRNA and recruiting decapping factors to optimize posttranscriptional reprogramming. Here, we generated multiple mutants of pat1, pat1 homolog 1 (path1), and pat1 homolog 2 (path2) and discovered that pat triple mutants exhibit extremely stunted growth and all mutants with pat1 exhibit leaf serration while mutants with pat1 and path1 display short petioles. All three PATs can be found localized to processing bodies and all PATs can target ASYMMETRIC LEAVES 2-LIKE 9 transcripts for decay to finely regulate apical hook and lateral root development. In conclusion, PATs exhibit both specific and redundant functions during different plant growth stages and our observations underpin the selective regulation of the mRNA decay machinery for proper development.

Published
2024

4. A sensor kinase controls turgor-driven plant infection by the rice blast fungus

Author

Ryder, Lauren S., Dagdas, Yasin F., Kershaw, Michael J., Venkataraman, Chandrasekhar, Madzvamuse, Anotida, Yan, Xia, and Cruz-Mireles, Neftaly

Subjects
Turgor -- Control, Aspartate kinase -- Influence, Rice blast disease -- Physiological aspects -- Distribution, Molecular probes -- Usage, Company distribution practices, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The blast fungus Magnaporthe oryzae gains entry to its host plant by means of a specialized pressure-generating infection cell called an appressorium, which physically ruptures the leaf cuticle.sup.1,2. Turgor is applied as an enormous invasive force by septin-mediated reorganization of the cytoskeleton and actin-dependent protrusion of a rigid penetration hypha.sup.3. However, the molecular mechanisms that regulate the generation of turgor pressure during appressorium-mediated infection of plants remain poorly understood. Here we show that a turgor-sensing histidine-aspartate kinase, Sln1, enables the appressorium to sense when a critical turgor threshold has been reached and thereby facilitates host penetration. We found that the Sln1 sensor localizes to the appressorium pore in a pressure-dependent manner, which is consistent with the predictions of a mathematical model for plant infection. A [DELTA]sln1 mutant generates excess intracellular appressorium turgor, produces hyper-melanized non-functional appressoria and does not organize the septins and polarity determinants that are required for leaf infection. Sln1 acts in parallel with the protein kinase C cell-integrity pathway as a regulator of cAMP-dependent signalling by protein kinase A. Pkc1 phosphorylates the NADPH oxidase regulator NoxR and, collectively, these signalling pathways modulate appressorium turgor and trigger the generation of invasive force to cause blast disease. The histidine-aspartate kinase Sln1 acts as a molecular sensor of turgor in appressoria of the rice blast fungus Magnaporthe oryzae, enabling penetration of the host leaf cuticle and plant infection., Author(s): Lauren S. Ryder [sup.1] [sup.2] , Yasin F. Dagdas [sup.1] [sup.2] [sup.3] , Michael J. Kershaw [sup.1] , Chandrasekhar Venkataraman [sup.4] , Anotida Madzvamuse [sup.4] , Xia Yan [sup.1] [...]

Published
2019
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5. Emerging oomycete threats to plants and animals

Author

Derevnina, Lida, Petre, Benjamin, Kellner, Ronny, Dagdas, Yasin F., Sarowar, Mohammad Nasif, Giannakopoulou, Artemis, De la Concepcion, Juan Carlos, Chaparro-Garcia, Angela, Pennington, Helen G., van West, Pieter, and Kamoun, Sophien

Published
2016

7. The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development

Author

Zuo, Zhangli, Roux, Milena E., Chevalier, Jonathan R., Dagdas, Yasin F., Yamashino, Takafumi, Højgaard, Søren D., Knight, Emilie, Østergaard, Lars, Rodriguez, Eleazar, Petersen, Morten, Zuo, Zhangli, Roux, Milena E., Chevalier, Jonathan R., Dagdas, Yasin F., Yamashino, Takafumi, Højgaard, Søren D., Knight, Emilie, Østergaard, Lars, Rodriguez, Eleazar, and Petersen, Morten

Abstract

Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook, primary and lateral root growth. More specifically, LATERAL ORGAN BOUNDARIES DOMAIN 3 (LBD3)/ASYMMETRIC LEAVES 2-LIKE 9 (ASL9) transcripts accumulate in decapping deficient plants and can be found in complexes with decapping components. Accumulation of ASL9 inhibits apical hook and lateral root formation. Interestingly, exogenous auxin application restores lateral roots formation in both ASL9 over-expressors and mRNA decay–deficient mutants. Likewise, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore the developmental defects caused by over-accumulation of capped ASL9 transcript upon ASL9 overexpression. Most importantly, loss-of-function of asl9 partially restores apical hook and lateral root formation in both dcp5-1 and pat triple decapping deficient mutants. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay, possibly to interfere with cytokinin/auxin responses, during development., Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook, primary and lateral root growth. More specifically, LATERAL ORGAN BOUNDARIES DOMAIN 3 (LBD3)/ASYMMETRIC LEAVES 2-LIKE 9 (ASL9) transcripts accumulate in decapping deficient plants and can be found in complexes with decapping components. Accumulation of ASL9 inhibits apical hook and lateral root formation. Interestingly, exogenous auxin application restores lateral roots formation in both ASL9 over-expressors and mRNA decay-deficient mutants. Likewise, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore the developmental defects caused by over-accumulation of capped ASL9 transcript upon ASL9 overexpression. Most importantly, loss-of-function of asl9 partially restores apical hook and lateral root formation in both dcp5-1 and pat triple decapping deficient mutants. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay, possibly to interfere with cytokinin/auxin responses, during development.

Published
2023

20. Raw data for 'Host-interactor screens of Phytophthora infestans RXLR proteins reveal vesicle trafficking as a major effector-targeted process'

Author

Petre, Benjamin, Contreras, Mauricio P., Bozkurt, Tolga O., Schattat, Martin H., Sklenar, Jan, Schornack, Sebastian, Abd-El-Haliem, Ahmed, Castells-Graells, Roger, Lozano-Durán, Rosa, Dagdas, Yasin F., Menke, Frank L.H., Jones, Alexandra M.E., Vossen, Jack H., Robatzek, Silke, Kamoun, Sophien, Win, Joe, Petre, Benjamin, Contreras, Mauricio P., Bozkurt, Tolga O., Schattat, Martin H., Sklenar, Jan, Schornack, Sebastian, Abd-El-Haliem, Ahmed, Castells-Graells, Roger, Lozano-Durán, Rosa, Dagdas, Yasin F., Menke, Frank L.H., Jones, Alexandra M.E., Vossen, Jack H., Robatzek, Silke, Kamoun, Sophien, and Win, Joe

Abstract

This dataset contains raw and original images, phylogenetic tree files, sequence alignment files used for phylogenetic tree construction and unprocessed data for figures presented in the manuscript titled "Host-interactor screens of Phytophthora infestans RXLR proteins reveal vesicle trafficking as a major effector-targeted process". Each zip file contains raw data for each figure in the manuscript. A version of the manuscript is available on bioRxiv with doi.org/10.1101/2020.09.24.308585., This dataset contains raw and original images, phylogenetic tree files, sequence alignment files used for phylogenetic tree construction and unprocessed data for figures presented in the manuscript titled "Host-interactor screens of Phytophthora infestans RXLR proteins reveal vesicle trafficking as a major effector-targeted process". Each zip file contains raw data for each figure in the manuscript. A version of the manuscript is available on bioRxiv with doi.org/10.1101/2020.09.24.308585.

Published
2021

21. Host-interactor screens of Phytophthora infestans RXLR proteins reveal vesicle trafficking as a major effector-targeted process

Author

Petre, Benjamin, primary, Contreras, Mauricio P., additional, Bozkurt, Tolga O., additional, Schattat, Martin H., additional, Sklenar, Jan, additional, Schornack, Sebastian, additional, Abd-El-Haliem, Ahmed, additional, Castells-Graells, Roger, additional, Lozano-Duran, Rosa, additional, Dagdas, Yasin F., additional, Menke, Frank L. H., additional, Jones, Alexandra M. E., additional, Vossen, Jack H., additional, Robatzek, Silke, additional, Kamoun, Sophien, additional, and Win, Joe, additional

Published
2020
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22. mRNA decapping machinery targets transcripts of the LBD3/ASL9 transcription factor to authorize formation of apical hook and lateral roots in Arabidopsis

Author

Zuo, Zhangli, Roux, Milena Edna, Rodriguez, Eleazar, Chevalier, Jonathan Renaud, Dagdas, Yasin F., Yamashino, Takafumi, and Petersen, Morten

Subjects
fungi, food and beverages
Abstract

Multicellular organisms perceive and transduce multiple cues to optimize developmental reprogramming and cell state switching. Core transcription factors drive developmental changes, but transitions also require the attenuation of previous states. Here, we demonstrate that the levels of mRNAs of the LATERAL ORGAN BOUNDARIES DOMAIN (LBD)/ASYMMETRIC LEAVES9-LIKE (ASL9) transcription factor are directly regulated by mRNA decapping. Capped ASL9 transcripts accumulate in decapping deficient plants and ASL9 mRNAs are found together with decapping components. Accumulation of ASL9 inhibits apical hook and lateral roots formation and interestingly, exogenous auxin application restores apical and lateral roots in both ASL9 and mRNA decay deficient mutants. Moreover, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore these developmental defects of ASL9 overexpression. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay to balance cytokinin/auxin responses during developmental reprogramming. Significance Statement Plants build new structures to shape their growth in response to environmental and developmental cues. Most developmental studies focus on the transcription rates of key regulators but largely neglect the contribution of mRNA stability or decay. Our work describes an essential function of mRNA decay in cellular reprogramming and developmental programs through functional analysis of the PAT (Proteins associated with Topoisomerase II) mRNA decapping components, and of DCP2 (Decapping 2) and DCP5. Developmental defects caused by accumulation of the mRNA decapping target ASL9 could be restored by interference with a cytokinin pathway and/or exogenous auxin application. Thus, mRNA decapping machinery targets ASL9 transcripts for decay to keep cytokinin/auxin response in balance and to promote developmental processes including apical hooking and lateral root formation.

Published
2019
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24. N-terminal β-strand underpins biochemical specialization of an ATG8 isoform

Author

Zess, Erin K., primary, Jensen, Cassandra, additional, Cruz-Mireles, Neftaly, additional, De la Concepcion, Juan Carlos, additional, Sklenar, Jan, additional, Stephani, Madlen, additional, Imre, Richard, additional, Roitinger, Elisabeth, additional, Hughes, Richard, additional, Belhaj, Khaoula, additional, Mechtler, Karl, additional, Menke, Frank L. H., additional, Bozkurt, Tolga, additional, Banfield, Mark J., additional, Kamoun, Sophien, additional, Maqbool, Abbas, additional, and Dagdas, Yasin F., additional

Published
2019
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25. N-terminal β-strand underpins biochemical specialization of an ATG8 isoform

Author

Zess, Erin K., primary, Jensen, Cassandra, additional, Cruz-Mireles, Neftaly, additional, De la Concepcion, Juan Carlos, additional, Sklenar, Jan, additional, Imre, Richard, additional, Roitinger, Elisabeth, additional, Hughes, Richard, additional, Belhaj, Khaoula, additional, Mechtler, Karl, additional, Menke, Frank L.H., additional, Bozkurt, Tolga, additional, Banfield, Mark J., additional, Kamoun, Sophien, additional, Maqbool, Abbas, additional, and Dagdas, Yasin F., additional

Published
2018
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26. Host autophagy machinery is diverted to the pathogen interface to mediate focal defense responses against the Irish potato famine pathogen

Author

Dagdas, Yasin F, primary, Pandey, Pooja, additional, Tumtas, Yasin, additional, Sanguankiattichai, Nattapong, additional, Belhaj, Khaoula, additional, Duggan, Cian, additional, Leary, Alexandre Y, additional, Segretin, Maria E, additional, Contreras, Mauricio P, additional, Savage, Zachary, additional, Khandare, Virendrasinh S, additional, Kamoun, Sophien, additional, and Bozkurt, Tolga O, additional

Published
2018
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27. Author response: Host autophagy machinery is diverted to the pathogen interface to mediate focal defense responses against the Irish potato famine pathogen

Author

Dagdas, Yasin F, primary, Pandey, Pooja, additional, Tumtas, Yasin, additional, Sanguankiattichai, Nattapong, additional, Belhaj, Khaoula, additional, Duggan, Cian, additional, Leary, Alexandre Y, additional, Segretin, Maria E, additional, Contreras, Mauricio P, additional, Savage, Zachary, additional, Khandare, Virendrasinh S, additional, Kamoun, Sophien, additional, and Bozkurt, Tolga O, additional

Published
2018
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30. Nine things to know about elicitins

Author

Derevnina, Lida, Dagdas, Yasin F., De la Concepcion, Juan Carlos, Bialas, Aleksandra, Kellner, Ronny, Petre, Benjamin, Domazakis, Emmanouil, Du, Juan, Wu, Chih Hang, Lin, Xiao, Aguilera-Galvez, Carolina, Cruz-Mireles, Neftaly, Vleeshouwers, Vivianne G.A.A., Kamoun, Sophien, Derevnina, Lida, Dagdas, Yasin F., De la Concepcion, Juan Carlos, Bialas, Aleksandra, Kellner, Ronny, Petre, Benjamin, Domazakis, Emmanouil, Du, Juan, Wu, Chih Hang, Lin, Xiao, Aguilera-Galvez, Carolina, Cruz-Mireles, Neftaly, Vleeshouwers, Vivianne G.A.A., and Kamoun, Sophien

Abstract

Elicitins are structurally conserved extracellular proteins in Phytophthora and Pythium oomycete pathogen species. They were first described in the late 1980s as abundant proteins in Phytophthora culture filtrates that have the capacity to elicit hypersensitive (HR) cell death and disease resistance in tobacco. Later, they became well-established as having features of microbe-associated molecular patterns (MAMPs) and to elicit defences in a variety of plant species. Research on elicitins culminated in the recent cloning of the elicitin response (ELR) cell surface receptor-like protein, from the wild potato Solanum microdontum, which mediates response to a broad range of elicitins. In this review, we provide an overview on elicitins and the plant responses they elicit. We summarize the state of the art by describing what we consider to be the nine most important features of elicitin biology.

Published
2016

31. Nine things to know about elicitins

Author

Derevnina, Lida, primary, Dagdas, Yasin F., additional, De la Concepcion, Juan Carlos, additional, Bialas, Aleksandra, additional, Kellner, Ronny, additional, Petre, Benjamin, additional, Domazakis, Emmanouil, additional, Du, Juan, additional, Wu, Chih‐Hang, additional, Lin, Xiao, additional, Aguilera‐Galvez, Carolina, additional, Cruz‐Mireles, Neftaly, additional, Vleeshouwers, Vivianne G. A. A., additional, and Kamoun, Sophien, additional

Published
2016
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33. Arabidopsis late blight: infection of a nonhost plant byAlbugo laibachiienables full colonization byPhytophthora infestans

Author

Belhaj, Khaoula, primary, Cano, Liliana M., additional, Prince, David C., additional, Kemen, Ariane, additional, Yoshida, Kentaro, additional, Dagdas, Yasin F., additional, Etherington, Graham J., additional, Schoonbeek, Henk-jan, additional, van Esse, H. Peter, additional, Jones, Jonathan D.G., additional, Kamoun, Sophien, additional, and Schornack, Sebastian, additional

Published
2016
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34. An effector of the Irish potato famine pathogen antagonizes a host autophagy cargo receptor

Author

Dagdas, Yasin F, primary, Belhaj, Khaoula, additional, Maqbool, Abbas, additional, Chaparro-Garcia, Angela, additional, Pandey, Pooja, additional, Petre, Benjamin, additional, Tabassum, Nadra, additional, Cruz-Mireles, Neftaly, additional, Hughes, Richard K, additional, Sklenar, Jan, additional, Win, Joe, additional, Menke, Frank, additional, Findlay, Kim, additional, Banfield, Mark J, additional, Kamoun, Sophien, additional, and Bozkurt, Tolga O, additional

Published
2016
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35. Arabidopsis late blight: Infection of a nonhost plant by Albugo laibachii enables full colonization by Phytophthora infestans

Author

Belhaj, Khaoula, primary, Cano, Liliana M., additional, Prince, David C., additional, Kemen, Ariane, additional, Yoshida, Kentaro, additional, Dagdas, Yasin F., additional, Etherington, Graham J., additional, Schoonbeek, Henk-jan, additional, van Esse, H. Peter, additional, Jones, Jonathan D.G., additional, Kamoun, Sophien, additional, and Schornack, Sebastian, additional

Published
2015
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36. Author response: An effector of the Irish potato famine pathogen antagonizes a host autophagy cargo receptor

Author

Dagdas, Yasin F, primary, Belhaj, Khaoula, additional, Maqbool, Abbas, additional, Chaparro-Garcia, Angela, additional, Pandey, Pooja, additional, Petre, Benjamin, additional, Tabassum, Nadra, additional, Cruz-Mireles, Neftaly, additional, Hughes, Richard K, additional, Sklenar, Jan, additional, Win, Joe, additional, Menke, Frank, additional, Findlay, Kim, additional, Banfield, Mark J, additional, Kamoun, Sophien, additional, and Bozkurt, Tolga O, additional

Published
2015
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38. Arabidopsis late blight: infection of a nonhost plant by Albugo laibachii enables full colonization by Phytophthora infestans.

Author

Belhaj, Khaoula, Cano, Liliana M., Prince, David C., Kemen, Ariane, Yoshida, Kentaro, Dagdas, Yasin F., Etherington, Graham J., Schoonbeek, Henk‐jan, Esse, H. Peter, Jones, Jonathan D.G., Kamoun, Sophien, and Schornack, Sebastian

Subjects
LATE blight of potato, ALBUGO, PHYTOPHTHORA infestans, OOMYCETES, ARABIDOPSIS
Abstract

The oomycete pathogen Phytophthora infestans causes potato late blight, and as a potato and tomato specialist pathogen, is seemingly poorly adapted to infect plants outside the Solanaceae. Here, we report the unexpected finding that P. infestans can infect Arabidopsis thaliana when another oomycete pathogen, Albugo laibachii, has colonized the host plant. The behaviour and speed of P. infestans infection in Arabidopsis pre-infected with A. laibachii resemble P. infestans infection of susceptible potato plants. Transcriptional profiling of P. infestans genes during infection revealed a significant overlap in the sets of secreted-protein genes that are induced in P. infestans upon colonization of potato and susceptible Arabidopsis, suggesting major similarities in P. infestans gene expression dynamics on the two plant species. Furthermore, we found haustoria of A. laibachii and P. infestans within the same Arabidopsis cells. This Arabidopsis- A. laibachii-P. infestans tripartite interaction opens up various possibilities to dissect the molecular mechanisms of P. infestans infection and the processes occurring in co-infected Arabidopsis cells. [ABSTRACT FROM AUTHOR]

Published
2017
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43. The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development.

Author

Zuo Z, Roux ME, Chevalier JR, Dagdas YF, Yamashino T, Højgaard SD, Knight E, Østergaard L, Rodriguez E, and Petersen M

Subjects
RNA, Messenger genetics, Cytokinins genetics, Indoleacetic Acids pharmacology, Transcription Factors genetics, RNA, Arabidopsis genetics
Abstract

Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook, primary and lateral root growth. More specifically, LATERAL ORGAN BOUNDARIES DOMAIN 3 (LBD3)/ASYMMETRIC LEAVES 2-LIKE 9 (ASL9) transcripts accumulate in decapping deficient plants and can be found in complexes with decapping components. Accumulation of ASL9 inhibits apical hook and lateral root formation. Interestingly, exogenous auxin application restores lateral roots formation in both ASL9 over-expressors and mRNA decay-deficient mutants. Likewise, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore the developmental defects caused by over-accumulation of capped ASL9 transcript upon ASL9 overexpression. Most importantly, loss-of-function of asl9 partially restores apical hook and lateral root formation in both dcp5-1 and pat triple decapping deficient mutants. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay, possibly to interfere with cytokinin/auxin responses, during development., (© 2023 Zuo et al.)

Published
2023
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44. Emerging oomycete threats to plants and animals.

Author

Derevnina L, Petre B, Kellner R, Dagdas YF, Sarowar MN, Giannakopoulou A, De la Concepcion JC, Chaparro-Garcia A, Pennington HG, van West P, and Kamoun S

Subjects
Animals, Aphanomyces physiology, Incidence, Phytophthora physiology, Saprolegnia physiology, Animal Diseases epidemiology, Animal Diseases microbiology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging microbiology, Communicable Diseases, Emerging veterinary, Oomycetes physiology, Plant Diseases microbiology, Plants microbiology
Abstract

Oomycetes, or water moulds, are fungal-like organisms phylogenetically related to algae. They cause devastating diseases in both plants and animals. Here, we describe seven oomycete species that are emerging or re-emerging threats to agriculture, horticulture, aquaculture and natural ecosystems. They include the plant pathogens Phytophthora infestans, Phytophthora palmivora, Phytophthora ramorum, Plasmopara obducens, and the animal pathogens Aphanomyces invadans, Saprolegnia parasitica and Halioticida noduliformans For each species, we describe its pathology, importance and impact, discuss why it is an emerging threat and briefly review current research activities.This article is part of the themed issue 'Tackling emerging fungal threats to animal health, food security and ecosystem resilience'., (© 2016 The Author(s).)

Published
2016
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