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1. Quantum engineering with hybrid magnonics systems and materials

Author

Awschalom, D. D., Du, C. H. R., He, R., Heremans, F. J., Hoffmann, A., Hou, J. T., Kurebayashi, H., Li, Y., Liu, L., Novosad, V., Sklenar, J., Sullivan, S. E., Sun, D., Tang, H., Tiberkevich, V., Trevillian, C., Tsen, A. W., Weiss, L. R., Zhang, W., Zhang, X., Zhao, L., and Zollitsch, C. W.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics
Abstract

Quantum technology has made tremendous strides over the past two decades with remarkable advances in materials engineering, circuit design and dynamic operation. In particular, the integration of different quantum modules has benefited from hybrid quantum systems, which provide an important pathway for harnessing the different natural advantages of complementary quantum systems and for engineering new functionalities. This review focuses on the current frontiers with respect to utilizing magnetic excitatons or magnons for novel quantum functionality. Magnons are the fundamental excitations of magnetically ordered solid-state materials and provide great tunability and flexibility for interacting with various quantum modules for integration in diverse quantum systems. The concomitant rich variety of physics and material selections enable exploration of novel quantum phenomena in materials science and engineering. In addition, the relative ease of generating strong coupling and forming hybrid dynamic systems with other excitations makes hybrid magnonics a unique platform for quantum engineering. We start our discussion with circuit-based hybrid magnonic systems, which are coupled with microwave photons and acoustic phonons. Subsequently, we are focusing on the recent progress of magnon-magnon coupling within confined magnetic systems. Next we highlight new opportunities for understanding the interactions between magnons and nitrogen-vacancy centers for quantum sensing and implementing quantum interconnects. Lastly, we focus on the spin excitations and magnon spectra of novel quantum materials investigated with advanced optical characterization., Comment: 36 pages, 16 figures

Published
2021

2. Classical topological order in the kinetics of artificial spin ice

Author

Lao, Y, Caravelli, F, Sheikh, M, Sklenar, J, Gardeazabal, D, Watts, JD, Albrecht, AM, Scholl, A, Dahmen, K, Nisoli, C, and Schiffer, P

Subjects
Fluids & Plasmas, Mathematical Sciences, Physical Sciences
Abstract

Systems of interacting nanomagnets known as artificial spin ice 1-4 have allowed the design, realization and study of geometrically frustrated exotic collective states 5-10 that are absent in natural magnets. We have experimentally measured 11,12 the thermally induced moment fluctuations in the Shakti geometry of artificial spin ice. We show that its disordered moment configuration is a topological phase described by an emergent dimer-cover model 13 with excitations that can be characterized as topologically charged defects. Examination of the low-energy dynamics of the system confirms that these effective topological charges have long lifetimes associated with their topological protection, that is, they can be created and annihilated only as charge pairs with opposite sign and are kinetically constrained. This manifestation of classical topological order 14-19 demonstrates that geometrical design in nanomagnetic systems can lead to emergent, topologically protected kinetics that can limit pathways to equilibration and ergodicity.

Published
2018

3. Spin Transport through the metallic antiferromagnet FeMn

Author

Saglam, H., Zhang, W., Jungfleisch, M. B., Sklenar, J., Pearson, J. E., Ketterson, J. B., and Hoffmann, A.

Subjects
Condensed Matter - Materials Science
Abstract

We investigate spin transport through metallic antiferromagnets using measurements based on spin pumping combined with inverse spin Hall effects in Ni80Fe20/FeMn/W trilayers. The relatively large magnitude and opposite sign of spin Hall effects in W compared to FeMn enable an unambiguous detection of spin currents transmitted through the entire FeMn layer thickness. Using this approach we can detect two distinctively different spin transport regimes, which we associate with electronic and magnonic spin currents respectively. The latter can extend to relatively large distances (up to 9 nm) and is enhanced when the antiferromagnetic ordering temperature is close to the measurement temperature.

Published
2016
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4. Dynamic response of an artificial square spin ice

Author

Jungfleisch, M. B., Zhang, W., Iacocca, E., Sklenar, J., Ding, J., Jiang, W., Zhang, S., Pearson, J. E., Novosad, V., Ketterson, J. B., Heinonen, O., and Hoffmann, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magnetization dynamics in an artificial square spin-ice lattice made of Ni80Fe20 with magnetic field applied in the lattice plane is investigated by broadband ferromagnetic resonance spectroscopy. The experimentally observed dispersion shows a rich spectrum of modes corresponding to different magnetization states. These magnetization states are determined by exchange and dipolar interaction between individual islands, as is confirmed by a semianalytical model. In the low field regime below 400 Oe a hysteretic behavior in the mode spectrum is found. Micromagnetic simulations reveal that the origin of the observed spectra is due to the initialization of different magnetization states of individual nanomagnets. Our results indicate that it might be possible to determine the spin-ice state by resonance experiments and are a first step towards the understanding of artificial geometrically frustrated magnetic systems in the high-frequency regime.

Published
2016
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5. The 2024 magnonics roadmap

Author

Flebus, B., Grundler, D., Rana, B., Otani, Y., Barsukov, I., Barman, A., Gubbiotti, G., Landeros, P., Akerman, J., Ebels, U., Pirro, P., Demidov, V. E., (0000-0002-3382-5442) Schultheiß, K., Csaba, G., Wang, Q., Ciubotaru, F., Nikonov, D. E., Che, P., Hertel, R., Ono, T., Afanasiev, D., Mentink, J., Rasing, T., Hillebrands, B., Kusminskiy, S. V., Zhang, W., Du, C. R., Finco, A., Sar, T., Luo, Y. K., Shiota, Y., Sklenar, J., Yu, T., Rao, J., Flebus, B., Grundler, D., Rana, B., Otani, Y., Barsukov, I., Barman, A., Gubbiotti, G., Landeros, P., Akerman, J., Ebels, U., Pirro, P., Demidov, V. E., (0000-0002-3382-5442) Schultheiß, K., Csaba, G., Wang, Q., Ciubotaru, F., Nikonov, D. E., Che, P., Hertel, R., Ono, T., Afanasiev, D., Mentink, J., Rasing, T., Hillebrands, B., Kusminskiy, S. V., Zhang, W., Du, C. R., Finco, A., Sar, T., Luo, Y. K., Shiota, Y., Sklenar, J., Yu, T., and Rao, J.

Abstract

Magnonics is a research field that has gained an increasing interest in both the fundamental and applied sciences in recent years. This field aims to explore and functionalize collective spin excitations in magnetically ordered materials for modern information technologies, sensing applications and advanced computational schemes. Spin waves, also known as magnons, carry spin angular momenta that allow for the transmission, storage and processing of information without moving charges. In integrated circuits, magnons enable on-chip data processing at ultrahigh frequencies without the Joule heating, which currently limits clock frequencies in conventional data processors to a few GHz. Recent developments in the field indicate that functional magnonic building blocks for in-memory computation, neural networks and Ising machines are within reach. At the same time, the miniaturization of magnonic circuits advances continuously as the synergy of materials science, electrical engineering and nanotechnology allows for novel on-chip excitation and detection schemes. Such circuits can already enable magnon wavelengths of 50 nm at microwave frequencies in a 5G frequency band. Research into non-charge-based technologies is urgently needed in view of the rapid growth of machine learning and artificial intelligence applications, which consume substantial energy when implemented on conventional data processing units. In its first part, the 2024 Magnonics Roadmap provides an update on the recent developments and achievements in the field of nano-magnonics while defining its future avenues and challenges. In its second part, the Roadmap addresses the rapidly growing research endeavors on hybrid structures and magnonics-enabled quantum engineering. We anticipate that these directions will continue to attract researchers to the field and, in addition to showcasing intriguing science, will enable unprecedented functionalities that enhance the efficiency of alternative information techno

Published
2024

6. Large spin-wave bullet in a ferrimagnetic insulator driven by spin Hall effect

Author

Jungfleisch, M. B., Zhang, W., Sklenar, J., Ding, J., Jiang, W., Chang, H., Fradin, F. Y., Pearson, J. E., Ketterson, J. B., Novosad, V., Wu, M., and Hoffmann, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Due to its transverse nature, spin Hall effects (SHE) provide the possibility to excite and detect spin currents and magnetization dynamics even in magnetic insulators. Magnetic insulators are outstanding materials for the investigation of nonlinear phenomena and for novel low power spintronics applications because of their extremely low Gilbert damping. Here, we report on the direct imaging of electrically driven spin-torque ferromagnetic resonance (ST-FMR) in the ferrimagnetic insulator Y$_3$Fe$_5$O$_{12}$ based on the excitation and detection by SHEs. The driven spin dynamics in Y$_3$Fe$_5$O$_{12}$ is directly imaged by spatially-resolved microfocused Brillouin light scattering (BLS) spectroscopy. Previously, ST-FMR experiments assumed a uniform precession across the sample, which is not valid in our measurements. A strong spin-wave localization in the center of the sample is observed indicating the formation of a nonlinear, self-localized spin-wave `bullet'.

Published
2015
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7. Interface-driven spin-torque ferromagnetic resonance by Rashba coupling at the interface between non-magnetic materials

Author

Jungfleisch, M. B., Zhang, W., Sklenar, J., Jiang, W., Pearson, J. E., Ketterson, J. B., and Hoffmann, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The Rashba-Edelstein effect stems from the interaction between the electron's spin and its momentum induced by spin-orbit interaction at an interface or a surface. It was shown that the inverse Rashba-Edelstein effect can be used to convert a spin- into a charge current. Here, we demonstrate that a Bi/Ag Rashba interface can even drive an adjacent ferromagnet to resonance. We employ a spin-torque ferromagnetic resonance excitation/detection scheme which was developed originally for a bulk spin-orbital effect, the spin Hall effect. In our experiment, the direct Rashba-Edelstein effect generates an oscillating spin current from an alternating charge current driving the magnetization precession in a neighboring permalloy (Py, Ni80Fe20) layer. Electrical detection of the magnetization dynamics is achieved by a rectification mechanism of the time dependent multilayer resistance arising from the anisotropic magnetoresistance.

Published
2015
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14. Plant pathogens convergently evolved to counteract redundant nodes of an NLR immune receptor network

Author

Derevnina, Lida, Contreras, Mauricio P., Adachi, Hiroaki, Upson, Jessica, Vergara Cruces, Angel, Xie, Rongrong, Sklenar, J., Menke, Frank L.H., Mugford, Sam T., Maclean, Dan, Ma, Wenbo, Hogenhout, Saskia, Goverse, A., Maqbool, Abbas, Wu, Chih Hang, Kamoun, Sophien, Derevnina, Lida, Contreras, Mauricio P., Adachi, Hiroaki, Upson, Jessica, Vergara Cruces, Angel, Xie, Rongrong, Sklenar, J., Menke, Frank L.H., Mugford, Sam T., Maclean, Dan, Ma, Wenbo, Hogenhout, Saskia, Goverse, A., Maqbool, Abbas, Wu, Chih Hang, and Kamoun, Sophien

Abstract

In plants, NLR (nucleotide-binding domain and leucine-rich repeat-containing) proteins can form receptor networks to confer hypersensitive cell death and innate immunity. One class of NLRs, known as NRCs (NLR required for cell death), are central nodes in a complex network that protects against multiple pathogens and comprises up to half of the NLRome of solanaceous plants. Given the prevalence of this NLR network, we hypothesized that pathogens convergently evolved to secrete effectors that target NRC activities. To test this, we screened a library of 167 bacterial, oomycete, nematode and aphid effectors for their capacity to suppress the cell death response triggered by the NRC-dependent disease resistance proteins Prf and Rpi-blb2. Among five of the identified suppressors, one cyst nematode protein and one oomycete protein suppress the activity of autoimmune mutants of NRC2 and NRC3, but not NRC4, indicating that they specifically counteract a subset of NRC proteins independently of their sensor NLR partners. Whereas the cyst nematode effector SPRYSEC15 binds the nucleotide-binding domain of NRC2 and NRC3, the oomycete effector AVRcap1b suppresses the response of these NRCs via the membrane trafficking-associated protein NbTOL9a (Target of Myb 1-like protein 9a). We conclude that plant pathogens have evolved to counteract central nodes of the NRC immune receptor network through different mechanisms. Coevolution with pathogen effectors may have driven NRC diversification into functionally redundant nodes in a massively expanded NLR network.

Published
2021

16. Evidence supportive of impaired myocardial blood flow reserve at high altitude in subjects developing high-altitude pulmonary edema

Author

Kaufmann, B.A., Bernheim, A.M., Kiencke, S., Fischler, M., Sklenar, J., Mairbaurl, H., Maggiorini, M., and Rocca, H.P. Brunner-La

Subjects
Mountain sickness -- Risk factors, Mountain sickness -- Diagnosis, Mountain sickness -- Research, Echocardiography -- Physiological aspects, Echocardiography -- Methods, Pulmonary edema -- Risk factors, Pulmonary edema -- Care and treatment, Pulmonary edema -- Research, Biological sciences
Abstract

An exaggerated increase in pulmonary arterial pressure is the hallmark of high-altitude pulmonary edema (HAPE) and is associated with endothelial dysfunction of the pulmonary vasculature. Whether the myocardial circulation is affected as well is not known. The aim of this study was, therefore, to investigate whether myocardial blood flow reserve (MBFr) is altered in mountaineers developing HAPE. Healthy mountaineers taking part in a trial of prophylactic treatment of HAPE were examined at low (490 m) and high altitude (4,559 m). MBFr was derived from low mechanical index contrast echocardiography, performed at rest and during submaximal exercise. Among 24 subjects evaluated for MBFr, 9 were HAPE-susceptible individuals on prophylactic treatment with dexamethasone or tadalafil, 6 were HAPE-susceptible individuals on placebo, and 9 persons without HAPE susceptibility served as controls. At low altitude, MBFr did not differ between groups. At high altitude, MBFr increased significantly in HAPEsusceptible individuals on treatment (from 2.2 [+ or -] 0.8 at low to 2.9 [+ or -] 1.0 at high altitude, P = 0.04) and in control persons (from 1.9 [+ or -] 0.8 to 2.8 [+ or -] 1.0, P = 0.02), but not in HAPE-susceptible individuals on placebo (2.5 [+ or -] 0.3 and 2.0 [+ or -] 1.3 at low and high altitude, respectively, P > 0.1). The response to high altitude was significantly different between the two groups (P = 0.01). There was a significant inverse relation between the increase in the pressure gradient across the tricuspid valve and the change in myocardial blood flow reserve. HAPE-susceptible individuals not taking prophylactic treatment exhibit a reduced MBFr compared with either treated HAPE-susceptible individuals or healthy controls at high altitude. hypoxia; exercise; echocardiography

Published
2008

21. Magnetic response of aperiodic wire networks based on Fibonacci distortions of square antidot lattices.

Author

Farmer, B., Bhat, V. S., Sklenar, J., Teipel, E., Woods, J., Ketterson, J. B., Hastings, J. T., and De Long, L. E.

Subjects
SEMICONDUCTOR quantum dots, FERROMAGNETIC materials, QUANTUM dots, SEMICONDUCTORS, CRYSTAL lattices, MAGNETIC properties
Abstract

The static and dynamic magnetic responses of patterned ferromagnetic thin films are uniquely altered in the case of aperiodic patterns that retain long-range order (e.g., quasicrystals). We have fabricated permalloy wire networks based on periodic square antidot lattices (ADLs) distorted according to an aperiodic Fibonacci sequence applied to two lattice translations, d1=1618 nm and d2=1000 nm. The wire segment thickness is fixed at t=25 nm, and the width W varies from 80 to 510 nm. We measured the DC magnetization between room temperature and 5K. Room-temperature, narrow-band (9.7 GHz) ferromagnetic resonance (FMR) spectra were acquired for various directions of applied magnetic field. The DC magnetization curves exhibited pronounced step anomalies and plateaus that signal flux closure states. Although the Fibonacci distortion breaks the fourfold symmetry of a finite periodic square ADL, the FMR data exhibit fourfold rotational symmetry with respect to the applied DC magnetic field direction. [ABSTRACT FROM AUTHOR]

Published
2015
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25. The Poplar Rust-Induced Secreted Protein (RISP) Inhibits the Growth of the Leaf Rust Pathogen Melampsora larici-populina and Triggers Cell Culture Alkalinisation

Author

Petre, B., Hecker, A., Germain, H., Tsan, P., Sklenar, J., Pelletier, G., Séguin, A., Duplessis, S., Rouhier, N., Petre, B., Hecker, A., Germain, H., Tsan, P., Sklenar, J., Pelletier, G., Séguin, A., Duplessis, S., and Rouhier, N.

Abstract

Plant cells secrete a wide range of proteins in extracellular spaces in response to pathogen attack. The poplar rust-induced secreted protein (RISP) is a small cationic protein of unknown function that was identified as the most induced gene in poplar leaves during immune responses to the leaf rust pathogen Melampsora larici-populina, an obligate biotrophic parasite. Here, we combined in planta and in vitro molecular biology approaches to tackle the function of RISP. Using a RISP-mCherry fusion transiently expressed in Nicotiana benthamiana leaves, we demonstrated that RISP is secreted into the apoplast. A recombinant RISP specifically binds to M. larici-populina urediniospores and inhibits their germination. It also arrests the growth of the fungus in vitro and on poplar leaves. Interestingly, RISP also triggers poplar cell culture alkalinisation and is cleaved at the C-terminus by a plant-encoded mechanism. Altogether our results indicate that RISP is an antifungal protein that has the ability to trigger cellular responses.

Published
2016

26. Ferromagnetic resonance study of eightfold artificial ferromagnetic quasicrystals.

Author

Bhat, V. S., Sklenar, J., Farmer, B., Woods, J., Ketterson, J. B., Hastings, J. T., and De Long, L. E.

Subjects
*FERROMAGNETIC resonance, *MAGNETIC resonance, *THIN films, *MAGNETIZATION, *ROTATIONAL symmetry
Abstract

We have performed broadband (10 MHz-18 GHz) and narrowband (9.7 GHz) ferromagnetic resonance (FMR) measurements on permalloy thin films patterned with quasiperiodic Ammann tilings having eightfold rotational symmetry. We observed highly reproducible mode structures in the low-frequency, hysteretic regime in which domain walls and unsaturated magnetization textures exist. A minimum of 10 robust modes were observed in patterned samples, compared to the single uniform mode observed in unpatterned permalloy films. The field dependence and approximate eightfold rotational symmetry of the FMR spectra are in good agreement with micromagnetic simulations that confirm the importance of patterning for controlling static and dynamic magnetic response. [ABSTRACT FROM AUTHOR]

Published
2014
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27. Nonstochastic magnetic reversal in artificial quasicrystalline spin ice.

Author

Farmer, B., Bhat, V. S., Sklenar, J., Woods, J., Teipel, E., Smith, N., Ketterson, J. B., Hastings, J. T., and De Long, L. E.

Subjects
FERROMAGNETISM, SOLID state electronics, POLARIZATION (Nuclear physics), PROPERTIES of matter, THIN films
Abstract

We have measured the isothermal DC magnetization of Penrose P2 tilings (P2T) composed of wire segments of permalloy thin film. Micromagnetic simulations reproduce the coercive fields and "knee anomalies" observed in experimental data and show magnetic shape anisotropy constrains segments to be single-domain (Ising spins) at low fields, similar to artificial spin ice (ASI). Mirror symmetry controls the initial reversal of individual segments oriented parallel to the applied field, followed by complex switching of multiple adjacent segments ("avalanches") of various orientations such that closed magnetization loops ("vortices") are favored. Ferromagnetic P2T differ from previously studied ASI systems due to their aperiodic translational symmetry and numerous inequivalent pattern vertices, which drive nonstochastic switching of segment polarizations. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Dynamic response of an artificial square spin ice

Author

Jungfleisch, M. B., primary, Zhang, W., additional, Iacocca, E., additional, Sklenar, J., additional, Ding, J., additional, Jiang, W., additional, Zhang, S., additional, Pearson, J. E., additional, Novosad, V., additional, Ketterson, J. B., additional, Heinonen, O., additional, and Hoffmann, A., additional

Published
2016
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33. Brachiopod Gyrosoria Cooper, 1973-a comparative palaeoecological, stratigraphical and taxonomical study

Author

Sklenar, J. and Simon, E.

Subjects
Cancellothyridoidea, Brachiopoda [Lamp shells], Cretaceous, Upper
Abstract

Cooper (1973) erected Gyrosoria as a monospecific genus for Terebratulites gracilis von Schlotheim, 1813. G. gracilis from white-chalk facies was studied in detail by Steinich (1965) and its morphological adaptation to the environment was discussed by Surlyk (1972). However, populations of G. gracilis, adapted to a high energy environment remained unnoticed and therefore special attention is paid to them in this paper. "Terebratulina" lata Etheridge, 1881, placed here in the genus Gyrosoria, has often been mentioned within the literature and has been used as a zone fossil for more than a century. However, its morphology and its relation to other reported cancellothyridid species has not been studied in detail since its erection. This paper presents an emended diagnosis of the genus, officially assigns the revised lata species to it and presents a detailed morphological study of the genus. The variability of G. lata, studied here, and compared to that of both, the low- and high-energy-environment forms of G. gracilis, points out a clear evolutionary lineage within the genus. Spicular skeletons have been investigated in some Upper Turonian G. lata shells. Particular attention is given to the shell infrastructure. Moreover this paper shows that the palaeogeographical area of G. lata can now be enlarged but a wider application of this species in biostratigraphy should be refused due to the extension of its stratigraphical range.

Published
2009

35. Organisational learning via Interactive Process Simulation in AGE

Author

Szirbik, N. B., Roest, G. B., Sklenar, J, Tanguy, A, Bertelle, C, Fortino, G, and Faculty of Economics and Business

Subjects
SYSTEMS, VIEW, business information systems, interactive process-oriented simulation
Abstract

In this paper, the concept of Interactive Process Simulation is introduced as a specialisation of Business Gaming. A specific gaming and agent development framework, based oil interactive simulation and a specific modelling langauge, is shortly presented. The concepts of the language are explained via a simple example illustrating ail interactive process in a logistic environment. Finally, the statement that process simulation leads to organisational learning is argumented.

Published
2007

36. Receptor-like kinase SOBIR1/EVR interacts with receptor-like proteins in plant immunity against fungal infection

Author

Liebrand, T.W.H., van den Berg, G.C.M., Zhang, Z., Smit, P., Cordewener, J.H.G., America, A.H.P., Sklenar, J., Jones, A.M.E., Tameling, W.I.L., Robatzek, S., Thomma, B.P.H.J., Joosten, M.H.A.J., Liebrand, T.W.H., van den Berg, G.C.M., Zhang, Z., Smit, P., Cordewener, J.H.G., America, A.H.P., Sklenar, J., Jones, A.M.E., Tameling, W.I.L., Robatzek, S., Thomma, B.P.H.J., and Joosten, M.H.A.J.

Abstract

The plant immune system is activated by microbial patterns that are detected as nonself molecules. Such patterns are recognized by immune receptors that are cytoplasmic or localized at the plasma membrane. Cell surface receptors are represented by receptor-like kinases (RLKs) that frequently contain extracellular leucine-rich repeats and an intracellular kinase domain for activation of downstream signaling, as well as receptor-like proteins (RLPs) that lack this signaling domain. It is therefore hypothesized that RLKs are required for RLPs to activate downstream signaling. The RLPs Cf-4 and Ve1 of tomato (Solanum lycopersicum) mediate resistance to the fungal pathogens Cladosporium fulvum and Verticillium dahliae, respectively. Despite their importance, the mechanism by which these immune receptors mediate downstream signaling upon recognition of their matching ligand, Avr4 and Ave1, remained enigmatic. Here we show that the tomato ortholog of the Arabidopsis thaliana RLK Suppressor Of BIR1-1/Evershed (SOBIR1/EVR) and its close homolog S. lycopersicum (Sl)SOBIR1-like interact in planta with both Cf-4 and Ve1 and are required for the Cf-4– and Ve1-mediated hypersensitive response and immunity. Tomato SOBIR1/EVR interacts with most of the tested RLPs, but not with the RLKs FLS2, SERK1, SERK3a, BAK1, and CLV1. SOBIR1/EVR is required for stability of the Cf-4 and Ve1 receptors, supporting our observation that these RLPs are present in a complex with SOBIR1/EVR in planta. We show that SOBIR1/EVR is essential for RLP-mediated immunity and propose that the protein functions as a regulatory RLK of this type of cell-surface receptors.

Published
2013

37. The Irish potato famine pathogen Phytophthora infestans translocates the CRN8 kinase into host plant cells

Author

van Damme, M., Bozkurt, T.O., Cakir, C., Schornack, S., Sklenar, J., Jones, A.M.E., Kamoun, S., van Damme, M., Bozkurt, T.O., Cakir, C., Schornack, S., Sklenar, J., Jones, A.M.E., and Kamoun, S.

Abstract

Phytopathogenic oomycetes, such as Phytophthora infestans, secrete an arsenal of effector proteins that modulate plant innate immunity to enable infection. We describe CRN8, a host-translocated effector of P. infestans that has kinase activity in planta. CRN8 is a modular protein of the CRN effector family. The C-terminus of CRN8 localizes to the host nucleus and triggers cell death when the protein is expressed in planta. Cell death induction by CRN8 is dependent on its localization to the plant nucleus, which requires a functional nuclear localization signal (NLS). The C-terminal sequence of CRN8 has similarity to a serine/threonine RD kinase domain. We demonstrated that CRN8 is a functional RD kinase and that its autophosphorylation is dependent on an intact catalytic site. Co-immunoprecipitation experiments revealed that CRN8 forms a dimer or multimer. Heterologous expression of CRN8 in planta resulted in enhanced virulence by P. infestans. In contrast, in planta expression of the dominant-negative CRN8 R469A; D470A resulted in reduced P. infestans infection, further implicating CRN8 in virulence. Overall, our results indicate that similar to animal parasites, plant pathogens also translocate biochemically active kinase effectors inside host cells.

Published
2012

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