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Benthamiana rhapsody
2022
Zenodo
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Source: Kamoun Lab. https://medium.com/p/b90992ce5500/edit faster and would trigger a stronger immune response than you would normally get with the wild-type sequence. ...
For more information, see Bozkurt and Kamoun ABAB. https://medium.com/p/b90992ce5500/edit
this unexpected experimental system to solve the global plant health problems that we face. ...
doi:10.5281/zenodo.5866234
fatcat:rzq3qv66pvhxdkfojablyyfupu
How to select a PhD lab?
[article]
2019
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I regularly get this question from predocs. How do I select a PhD lab? How do I decide on a good supervisor? Should I select a lab based on a project? Below is a hodgepodge of the answers I generally give.
doi:10.5281/zenodo.3531915
fatcat:skpjghggbfgdfloq66l6g75rte
NLR receptor networks in plants
2022
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To fight off diverse pathogens and pests, the plant immune system must recognize these invaders; however, as plant immune receptors evolve to recognize a pathogen, the pathogen often evolves to escape this recognition. Plant–pathogen co-evolution has led to the vast expansion of a family of intracellular immune receptors—nucleotide-binding domain and leucine-rich repeat proteins (NLRs). When an NLR receptor recognizes a pathogen ligand, it activates immune signaling and thus initiates defense
doi:10.5281/zenodo.6331495
fatcat:idfqcws62jbavczsax57ld4j4y
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... sponses. However, in contrast to the model of NLRs acting individually to activate resistance, an emerging paradigm holds that plants have complex receptor networks where the large repertoire of functionally specialized NLRs operate together to act against an equally large repertoire of rapidly evolving pathogen effectors. In this article, we highlight key aspects of immune receptor networks in plant NLR biology and discuss NLR network architecture, the advantages of this receptor network system, and the evolution of the NLR network in asterid plants.
Keeping up with the plant killers
2021
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I gave this talk in 2020, the International Year of Plant Health, to discuss the pathogens that infect our crop plants. You can see that this talk dates to April 2020 — so, while we were all thinking about a viral pandemic, other pandemics, pandemics of plant diseases, were threatening our crops. Here, I start with a brief illustration of the power of plant pathogens to re-shape plant development, then explore how other plant killers affect the crops we depend on for our survival and how plants protect themselves against these killers.
doi:10.5281/zenodo.5574370
fatcat:tskimc4ruvebbektbn6ipvk3cu
Tips for writing academic paper threads
2022
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The Title of your article is your billboard, but you can also advertize your work with paper threads. Here is how to make the most out of this latest genre in scientific writing, which has taken academic Twitter by storm.
doi:10.5281/zenodo.5833583
fatcat:oq2twybpnveelcvjg4brpp7s5a
Featured Book: Pioneering Women in Plant Pathology
2021
Zenodo
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In this video, Sophien Kamoun briefly introduces the inspiring book "Pioneering Women in Plant Pathology", published by the American Phytopathological Society and edited by Jean Ristaino. ...
doi:10.5281/zenodo.5547772
fatcat:7tyl326rvfcgxaqyfwtgceihd4
Tales from the plague - more phylloxera anecdotes
2022
Zenodo
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Following the post "Death to the hybrids" on how technology saved the wine industry from an insect pest, here is some surprising phylloxera themed anecdotes that were brought to my attention by readers.
doi:10.5281/zenodo.6350129
fatcat:tpd5mth3ujb4pjg7vyecjzqyna
Death to the hybrids - cancelling plant breeding technologies
2022
Zenodo
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Plant breeding has always been fraught with politics. But, it is still baffling to plant scientists that some technologies are readily adopted while others are rejected.
doi:10.5281/zenodo.6334666
fatcat:dsdmqzkxrffmbnpsdkinrgiaiq
How to trick a plant pathogen?
2020
Zenodo
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-H., Derevnina, L., Kamoun, S. (2018) Receptor networks underpin plant immunity. Science 360, 1300-1301 Wu, C. ...
., Kamoun, S. (2018) Plants have an immune system… and it's complicated. https://www.youtube.com/watch?v=mlp2mQTEVtQ ...
Email: aleksandra.bialas@tsl.ac.uk Sophien Kamoun is a Group Leader at The Sainsbury Lab. ...
doi:10.5281/zenodo.3819945
fatcat:zzvpvajmqvanrkuzhxq7fvpaye
Journals 2.0: a roadmap to reinvent scientific publishing
2018
Zenodo
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Author: Sophien Kamoun ...
doi:10.5281/zenodo.1466784
fatcat:76iey4g5fjdj5bh7ffqkcpq3pu
Molecular Genetics of Pathogenic Oomycetes
2003
Eukaryotic Cell
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Kamoun, unpublished data). ...
Kamoun, unpublished data). Induction of defense responses and disease-like symptoms. ...
doi:10.1128/ec.2.2.191-199.2003
pmid:12684368
pmcid:PMC154851
fatcat:kwvjnz7bkvb3rdnhzmhy4hfdli
RefPlantNLR: a comprehensive collection of experimentally validated plant NLRs
[article]
2020
bioRxiv
pre-print
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Indirect detection is conceptualized by the guard and decoy models where the status of a host component-the guardee or decoy-is monitored by the NLR (van der Biezen and Jones, 1998; van der Hoorn and Kamoun ...
doi:10.1101/2020.07.08.193961
fatcat:pcmgpf37xjg2xlcprheujxjiwa
Fungal and oomycete genes galore
2007
New Phytologist
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Sophien Kamoun (Ohio State University, Wooster, OH, USA) provided an update on the five oomycete genomes that have been sequenced to date (Tyler et al., 2006) ( Table 1 ). ...
Kamoun focused on one class of oomycete effectors, the so-called RXLR genes that are delivered inside plant cells to manipulate host defenses (Kamoun, 2006) . ...
doi:10.1111/j.1469-8137.2007.02085.x
pmid:17504454
fatcat:pvawjm65zjgzpgu2adecsiqpsq
Receptor networks underpin plant immunity
2018
Science
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There are three mechanistic layers that contribute to immune complexity; each layer is represented by network nodes that may display functional redundancy, differential dependency (represented by arrow intensity), and specificity. These layers may also be targeted by pathogen effectors. This contrasts with the simplified binary view of the gene-for-gene hypothesis.
doi:10.1126/science.aat2623
pmid:29930125
fatcat:raanfyhwybgavcenpngpcc52te
En terre étrangère: mon expérience en tant que chercheur immigrant
2021
Zenodo
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Traduit et adapté de Genome Biology 18, Article number: 232 (2017). https://doi.org/10.1186/s13059-017-1370-4
doi:10.5281/zenodo.5512648
fatcat:zlt2mywwzvd3tfrsmncxtwdpn4
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