38 results on '"Harting R"'
Search Results
2. Detection and localization of early- and late-stage cancers using platelet RNA
- Author
-
Veld, S., Arkani, M., Post, E., Antunes-Ferreira, M., D'Ambrosi, S., Vessies, D.C.L., Vermunt, L., Vancura, A., Muller, Mirte, Niemeijer, A.N., Tannous, J., Meijer, L.L., Large, T.Y. Le, Mantini, G., Wondergem, N.E., Heinhuis, K.M., Wilpe, S. van, Smits, Josien, Drees, E.E.E., Roos, E., Leurs, C.E., Fat, L.A. Tjon Kon, Lelij, E.J. van der, Dwarshuis, G., Kamphuis, M.J., Visser, Leonie N.C., Harting, R., Gregory, A., Schweiger, M.W., Wedekind, L.E., Ramaker, J., Zwaan, K., Verschueren, H., Bahce, I, Langen, A.J. de, Smit, E.F., Heuvel, M.M. van den, Hartemink, K.J., Kuijpers, M.J., Egbrink, M.G.A. Oude, Griffioen, A.W., Rossel, R., Hiltermann, T.J.N., Lee-Lewandrowski, E., Lewandrowski, K.B., Hamer, P.C., Kouwenhoven, M., Reijneveld, J.C., Leenders, W.P.J., Hoeben, A., Verdonck-de Leeuw, I.M., Leemans, C.Rene, Baatenburg de Jong, R.J., Terhaard, Chris H. J., Takes, R.P., Langendijk, J.A., Jager, S.C. de, Kraaijeveld, A.O., Pasterkamp, G., Smits, M., Schalken, J.A., Łapińska-Szumczyk, S., Łojkowska, A., Żaczek, A.J., Lokhorst, H., Donk, N. van de, Nijhof, I., Prins, H.J., Zijlstra, J.M., Idema, S., Baayen, J.C., Teunissen, C.E., Killestein, J., Besselink, M.G.H., Brammen, L., Bachleitner-Hofmann, T., Mateen, F., Plukker, J.T., Heger, M., Mast, Q. de, Lisman, T., Pegtel, D.M., Bogaard, H.J., Jassem, J., Supernat, A., Mehra, N., Gerritsen, W.R., Kroon, C.D. de, Lok, C. A. R., Piek, J.M.J., Steeghs, N., Houdt, W.J. van, Brakenhoff, R.H., Sonke, G.S., Verheul, H.M.W., Giovannetti, E., Kazemier, G., Sabrkhany, S., Schuuring, E., Sistermans, E.A., Veld, S., Arkani, M., Post, E., Antunes-Ferreira, M., D'Ambrosi, S., Vessies, D.C.L., Vermunt, L., Vancura, A., Muller, Mirte, Niemeijer, A.N., Tannous, J., Meijer, L.L., Large, T.Y. Le, Mantini, G., Wondergem, N.E., Heinhuis, K.M., Wilpe, S. van, Smits, Josien, Drees, E.E.E., Roos, E., Leurs, C.E., Fat, L.A. Tjon Kon, Lelij, E.J. van der, Dwarshuis, G., Kamphuis, M.J., Visser, Leonie N.C., Harting, R., Gregory, A., Schweiger, M.W., Wedekind, L.E., Ramaker, J., Zwaan, K., Verschueren, H., Bahce, I, Langen, A.J. de, Smit, E.F., Heuvel, M.M. van den, Hartemink, K.J., Kuijpers, M.J., Egbrink, M.G.A. Oude, Griffioen, A.W., Rossel, R., Hiltermann, T.J.N., Lee-Lewandrowski, E., Lewandrowski, K.B., Hamer, P.C., Kouwenhoven, M., Reijneveld, J.C., Leenders, W.P.J., Hoeben, A., Verdonck-de Leeuw, I.M., Leemans, C.Rene, Baatenburg de Jong, R.J., Terhaard, Chris H. J., Takes, R.P., Langendijk, J.A., Jager, S.C. de, Kraaijeveld, A.O., Pasterkamp, G., Smits, M., Schalken, J.A., Łapińska-Szumczyk, S., Łojkowska, A., Żaczek, A.J., Lokhorst, H., Donk, N. van de, Nijhof, I., Prins, H.J., Zijlstra, J.M., Idema, S., Baayen, J.C., Teunissen, C.E., Killestein, J., Besselink, M.G.H., Brammen, L., Bachleitner-Hofmann, T., Mateen, F., Plukker, J.T., Heger, M., Mast, Q. de, Lisman, T., Pegtel, D.M., Bogaard, H.J., Jassem, J., Supernat, A., Mehra, N., Gerritsen, W.R., Kroon, C.D. de, Lok, C. A. R., Piek, J.M.J., Steeghs, N., Houdt, W.J. van, Brakenhoff, R.H., Sonke, G.S., Verheul, H.M.W., Giovannetti, E., Kazemier, G., Sabrkhany, S., Schuuring, E., and Sistermans, E.A.
- Abstract
Contains fulltext : 281792.pdf (Publisher’s version ) (Open Access), Cancer patients benefit from early tumor detection since treatment outcomes are more favorable for less advanced cancers. Platelets are involved in cancer progression and are considered a promising biosource for cancer detection, as they alter their RNA content upon local and systemic cues. We show that tumor-educated platelet (TEP) RNA-based blood tests enable the detection of 18 cancer types. With 99% specificity in asymptomatic controls, thromboSeq correctly detected the presence of cancer in two-thirds of 1,096 blood samples from stage I-IV cancer patients and in half of 352 stage I-III tumors. Symptomatic controls, including inflammatory and cardiovascular diseases, and benign tumors had increased false-positive test results with an average specificity of 78%. Moreover, thromboSeq determined the tumor site of origin in five different tumor types correctly in over 80% of the cancer patients. These results highlight the potential properties of TEP-derived RNA panels to supplement current approaches for blood-based cancer screening.
- Published
- 2022
3. Efficient embedded computing
- Author
-
Dally, William J., Balfour, James, Black-Shaffer, David, Chen, James, Harting, R. Curtis, Parikh, Vishal, Park, Jongsoo, and Sheffield, David
- Subjects
Application-specific integrated circuit ,Custom IC ,Embedded system ,System on a chip ,Application-specific integrated circuits -- Usage ,Application-specific integrated circuits -- Methods ,Custom integrated circuits -- Usage ,Custom integrated circuits -- Methods ,Embedded systems -- Energy use - Published
- 2008
4. Correlating in vitro degradation and drug release kinetics of biopolymer-based drug delivery systems
- Author
-
Harting, R., primary, Johnston, K., additional, and Petersen, S., additional
- Published
- 2019
- Full Text
- View/download PDF
5. Characterisation of the Groningen subsurface for seismic hazard and risk modelling
- Author
-
Kruiver, P.P., Wiersma, A., Kloosterman, F.H., Lange, G. de, Korff, M., Stafleu, J., Harting, R., Gunnink, J.L., Green, R.A., Elk, J. van, and Doornhof, D.
- Subjects
Liquefaction ,2015 Geo ,GM - Geomodelling ,Site response ,Geological Survey Netherlands ,Geology ,Soil properties ,ELSS - Earth, Life and Social Sciences ,Microzonation ,2015 Energy ,Geosciences - Abstract
The shallow subsurface of Groningen, the Netherlands, is heterogeneous due to its formation in a Holocene tidal coastal setting on a periglacially and glacially inherited landscape with strong lateral variation in subsurface architecture. Soft sediments with low, small-strain shear wave velocities (VS30 around 200ms−1) are known to amplify earthquake motions. Knowledge of the architecture and properties of the subsurface and the combined effect on the propagation of earthquake waves is imperative for the prediction of geohazards of ground shaking and liquefaction at the surface. In order to provide information for the seismic hazard and risk analysis, two geological models were constructed. The first is the ‘Geological model for Site response in Groningen’ (GSG model) and is based on the detailed 3D GeoTOP voxel model containing lithostratigraphy and lithoclass attributes. The GeoTOP model was combined with information from boreholes, cone penetration tests, regional digital geological and geohydrological models to cover the full range from the surface down to the base of the North Sea Supergroup (base Paleogene) at ∼800m depth. The GSG model consists of a microzonation based on geology and a stack of soil stratigraphy for each of the 140,000 grid cells (100m × 100 m) to which properties (VS and parameters relevant for nonlinear soil behaviour) were assigned. The GSG model serves as input to the site response calculations that feed into the Ground Motion Model. The second model is the ‘Geological model for Liquefaction sensitivity in Groningen’ (GLG). Generally, loosely packed sands might be susceptible to liquefaction upon earthquake shaking. In order to delineate zones of loosely packed sand in the first 40m below the surface, GeoTOP was combined with relative densities inferred from a large cone penetration test database. The marine Naaldwijk and Eem Formations have the highest proportion of loosely packed sand (31% and 38%, respectively) and thus are considered to be the most vulnerable to liquefaction; other units contain 5–17% loosely packed sand. The GLG model serves as one of the inputs for further research on the liquefaction potential in Groningen, such as the development of region-specific magnitude scaling factors (MSF) and depth–stress reduction relationships (rd).
- Published
- 2017
6. Nucleation Place for Urinary Calculi
- Author
-
Bastian, H. P., Gebhardt, M., Vahlensieck, W., Harting, R., Fleisch, H., editor, Robertson, W. G., editor, Smith, L. H., editor, and Vahlensieck, W., editor
- Published
- 1976
- Full Text
- View/download PDF
7. PS02.13 Rapid Progression in 100% PDL-1 expressing NSCLC
- Author
-
Fidler, M.J., primary, Harting, R., additional, Batus, M., additional, and Bonomi, P., additional
- Published
- 2017
- Full Text
- View/download PDF
8. Digital Design Using VHDL
- Author
-
Dally, William J., primary, Harting, R. Curtis, additional, and Aamodt, Tor M., additional
- Published
- 2015
- Full Text
- View/download PDF
9. 3D subsurface modelling reveals the shallow geology of Amsterdam
- Author
-
Schokker, J., primary, Bakker, M.A.J., additional, Dubelaar, C.W., additional, Dambrink, R.M., additional, and Harting, R., additional
- Published
- 2015
- Full Text
- View/download PDF
10. On-Chip Active Messages for Speed, Scalability, and Efficiency
- Author
-
Harting, R. Curtis, primary and Dally, William J., additional
- Published
- 2015
- Full Text
- View/download PDF
11. ExTra — Expert System for Diagnosis of Complications after Kidney Transplantation
- Author
-
Derenbach, M., primary, Harting, R., additional, and Schneeberger, H., additional
- Published
- 1988
- Full Text
- View/download PDF
12. ExTra — Expert System for Diagnosis of Complications after Kidney Transplantation
- Author
-
Derenbach, M., Harting, R., Schneeberger, H., Reichertz, P. L., editor, Lindberg, D. A. B., editor, Rienhoff, O., editor, Piccolo, U., editor, and Schneider, B., editor
- Published
- 1988
- Full Text
- View/download PDF
13. The utility of fast active messages on many-core chips: Efficient supercomputing project
- Author
-
Harting, R. Curtis, primary, Parikh, Vishal, additional, and Dally, William J., additional
- Published
- 2011
- Full Text
- View/download PDF
14. Clinical characteristics and course of chronic lymphocytic leukemia patients with the combination favorable and unfavorable cytogenetics
- Author
-
Harting, R. R., primary, Venugopal, P., additional, Hsu, W., additional, Catchatourian, R., additional, and Ogundipe, O., additional
- Published
- 2007
- Full Text
- View/download PDF
15. Operand Registers and Explicit Operand Forwarding.
- Author
-
Balfour, James, Harting, R. Curtis, and Dally, William J.
- Published
- 2009
- Full Text
- View/download PDF
16. Efficacy and safety of rituximab combined with ESHAP chemotherapy for the treatment of relapsed/refractory aggressive B-cell non-Hodgkin lymphoma.
- Author
-
Harting R, Venugopal P, Gregory SA, O'brien T, and Bogdanova E
- Published
- 2007
17. Induction of Aspergillus fumigatus zinc cluster transcription factor OdrA/Mdu2 provides combined cellular responses for oxidative stress protection and multiple antifungal drug resistance.
- Author
-
Sasse C, Bastakis E, Bakti F, Höfer AM, Zangl I, Schüller C, Köhler AM, Gerke J, Krappmann S, Finkernagel F, Harting R, Strauss J, Heimel K, and Braus GH
- Subjects
- Drug Resistance, Multiple, Fungal genetics, Azoles pharmacology, Drug Resistance, Fungal genetics, Aspergillus fumigatus genetics, Aspergillus fumigatus drug effects, Aspergillus fumigatus metabolism, Oxidative Stress, Antifungal Agents pharmacology, Transcription Factors genetics, Transcription Factors metabolism, Gene Expression Regulation, Fungal, Fungal Proteins genetics, Fungal Proteins metabolism
- Abstract
Importance: An overexpression screen of 228 zinc cluster transcription factor encoding genes of A. fumigatus revealed 11 genes conferring increased tolerance to antifungal drugs. Out of these, four oxidative stress and drug tolerance transcription factor encoding odr genes increased tolerance to oxidative stress and antifungal drugs when overexpressed. This supports a correlation between oxidative stress response and antifungal drug tolerance in A. fumigatus . OdrA/Mdu2 is required for the cross-tolerance between azoles, polyenes, and oxidative stress and activates genes for detoxification. Under oxidative stress conditions or when overexpressed, OdrA/Mdu2 accumulates in the nucleus and activates detoxifying genes by direct binding at their promoters, as we describe with the mdr1 gene encoding an itraconazole specific efflux pump. Finally, this work gives new insights about drug and stress resistance in the opportunistic pathogenic fungus A. fumigatus ., Competing Interests: The authors declare no conflict of interest.
- Published
- 2023
- Full Text
- View/download PDF
18. Fungal COP9 signalosome assembly requires connection of two trimeric intermediates for integration of intrinsic deneddylase.
- Author
-
Bakti F, Stupperich H, Schmitt K, Valerius O, Köhler AM, Meister C, Strohdiek A, Harting R, Sasse C, Heimel K, Neumann P, Ficner R, and Braus GH
- Subjects
- COP9 Signalosome Complex genetics, Catalysis, Cell Nucleus, Chromatography, Affinity, Ubiquitin-Protein Ligases, Aspergillus nidulans genetics
- Abstract
The conserved eight-subunit COP9 signalosome (CSN) is required for multicellular fungal development. The CSN deneddylase cooperates with the Cand1 exchange factor to control replacements of E3 ubiquitin cullin RING ligase receptors, providing specificity to eukaryotic protein degradation. Aspergillus nidulans CSN assembles through a heptameric pre-CSN, which is activated by integration of the catalytic CsnE deneddylase. Combined genetic and biochemical approaches provided the assembly choreography within a eukaryotic cell for native fungal CSN. Interactomes of functional GFP-Csn subunit fusions in pre-CSN deficient fungal strains were compared by affinity purifications and mass spectrometry. Two distinct heterotrimeric CSN subcomplexes were identified as pre-CSN assembly intermediates. CsnA-C-H and CsnD-F-G form independently of CsnB, which connects the heterotrimers to a heptamer and enables subsequent integration of CsnE to form the enzymatically active CSN complex. Surveillance mechanisms control accurate Csn subunit amounts and correct cellular localization for sequential assembly since deprivation of Csn subunits changes the abundance and location of remaining Csn subunits.
- Published
- 2023
- Full Text
- View/download PDF
19. The Frq-Frh Complex Light-Dependently Delays Sfl1-Induced Microsclerotia Formation in Verticillium dahliae .
- Author
-
Nagel A, Leonard M, Maurus I, Starke J, Schmitt K, Valerius O, Harting R, and Braus GH
- Abstract
The vascular plant pathogenic fungus Verticillium dahliae has to adapt to environmental changes outside and inside its host. V. dahliae harbors homologs of Neurospora crassa clock genes. The molecular functions and interactions of Frequency (Frq) and Frq-interacting RNA helicase (Frh) in controlling conidia or microsclerotia development were investigated in V. dahliae JR2. Fungal mutant strains carrying clock gene deletions, an FRH point mutation, or GFP gene fusions were analyzed on transcript, protein, and phenotypic levels as well as in pathogenicity assays on tomato plants. Our results support that the Frq-Frh complex is formed and that it promotes conidiation, but also that it suppresses and therefore delays V. dahliae microsclerotia formation in response to light. We investigated a possible link between the negative element Frq and positive regulator Suppressor of flocculation 1 (Sfl1) in microsclerotia formation to elucidate the regulatory molecular mechanism. Both Frq and Sfl1 are mainly present during the onset of microsclerotia formation with decreasing protein levels during further development. Induction of microsclerotia formation requires Sfl1 and can be delayed at early time points in the light through the Frq-Frh complex. Gaining further molecular knowledge on V. dahliae development will improve control of fungal growth and Verticillium wilt disease.
- Published
- 2023
- Full Text
- View/download PDF
20. Verticillium dahliae Vta3 promotes ELV1 virulence factor gene expression in xylem sap, but tames Mtf1-mediated late stages of fungus-plant interactions and microsclerotia formation.
- Author
-
Maurus I, Harting R, Herrfurth C, Starke J, Nagel A, Mohnike L, Chen YY, Schmitt K, Bastakis E, Süß MT, Leonard M, Heimel K, Valerius O, Feussner I, Kronstad JW, and Braus GH
- Subjects
- Virulence Factors genetics, Virulence Factors metabolism, Fungal Proteins metabolism, Xylem genetics, Xylem metabolism, Transcription Factors genetics, Transcription Factors metabolism, Gene Expression, Plant Diseases genetics, Plant Diseases microbiology, Verticillium genetics, Ascomycota genetics
- Abstract
Verticillium transcription activator of adhesion 3 (Vta3) is required for plant root colonization and pathogenicity of the soil-borne vascular fungus Verticillium dahliae. RNA sequencing identified Vta3-dependent genetic networks required for growth in tomato xylem sap. Vta3 affects the expression of more than 1,000 transcripts, including candidates with predicted functions in virulence and morphogenesis such as Egh16-like virulence factor 1 (Elv1) and Master transcription factor 1 (Mtf1). The genes encoding Elv1 and Mtf1 were deleted and their functions in V. dahliae growth and virulence on tomato (Solanum lycopersicum) plants were investigated using genetics, plant infection experiments, gene expression studies and phytohormone analyses. Vta3 contributes to virulence by promoting ELV1 expression, which is dispensable for vegetative growth and conidiation. Vta3 decreases disease symptoms mediated by Mtf1 in advanced stages of tomato plant colonization, while Mtf1 induces the expression of fungal effector genes and tomato pathogenesis-related protein genes. The levels of pipecolic and salicylic acids functioning in tomato defense signaling against (hemi-) biotrophic pathogens depend on the presence of MTF1, which promotes the formation of resting structures at the end of the infection cycle. In summary, the presence of VTA3 alters gene expression of virulence factors and tames the Mtf1 genetic subnetwork for late stages of plant disease progression and subsequent survival of the fungus in the soil., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Maurus et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)
- Published
- 2023
- Full Text
- View/download PDF
21. Tomato Xylem Sap Hydrophobins Vdh4 and Vdh5 Are Important for Late Stages of Verticillium dahliae Plant Infection.
- Author
-
Maurus I, Leonard M, Nagel A, Starke J, Kronstad JW, Harting R, and Braus GH
- Abstract
Verticillium dahliae causes economic losses to a wide range of crops as a vascular fungal pathogen. This filamentous ascomycete spends long periods of its life cycle in the plant xylem, a unique environment that requires adaptive processes. Specifically, fungal proteins produced in the xylem sap of the plant host may play important roles in colonizing the plant vasculature and in inducing disease symptoms. RNA sequencing revealed over 1500 fungal transcripts that are significantly more abundant in cells grown in tomato xylem sap compared with pectin-rich medium. Of the 85 genes that are strongly induced in the xylem sap, four genes encode the hydrophobins Vdh1, Vdh2, Vdh4 and Vdh5. Vdh4 and Vhd5 are structurally distinct from each other and from the three other hydrophobins (Vdh1-3) annotated in V. dahliae JR2. Their functions in the life cycle and virulence of V. dahliae were explored using genetics, cell biology and plant infection experiments. Our data revealed that Vdh4 and Vdh5 are dispensable for V. dahliae development and stress response, while both contribute to full disease development in tomato plants by acting at later colonization stages. We conclude that Vdh4 and Vdh5 are functionally specialized fungal hydrophobins that support pathogenicity against plants.
- Published
- 2022
- Full Text
- View/download PDF
22. Detection and localization of early- and late-stage cancers using platelet RNA.
- Author
-
In 't Veld SGJG, Arkani M, Post E, Antunes-Ferreira M, D'Ambrosi S, Vessies DCL, Vermunt L, Vancura A, Muller M, Niemeijer AN, Tannous J, Meijer LL, Le Large TYS, Mantini G, Wondergem NE, Heinhuis KM, van Wilpe S, Smits AJ, Drees EEE, Roos E, Leurs CE, Tjon Kon Fat LA, van der Lelij EJ, Dwarshuis G, Kamphuis MJ, Visser LE, Harting R, Gregory A, Schweiger MW, Wedekind LE, Ramaker J, Zwaan K, Verschueren H, Bahce I, de Langen AJ, Smit EF, van den Heuvel MM, Hartemink KJ, Kuijpers MJE, Oude Egbrink MGA, Griffioen AW, Rossel R, Hiltermann TJN, Lee-Lewandrowski E, Lewandrowski KB, De Witt Hamer PC, Kouwenhoven M, Reijneveld JC, Leenders WPJ, Hoeben A, Verdonck-de Leeuw IM, Leemans CR, Baatenburg de Jong RJ, Terhaard CHJ, Takes RP, Langendijk JA, de Jager SC, Kraaijeveld AO, Pasterkamp G, Smits M, Schalken JA, Łapińska-Szumczyk S, Łojkowska A, Żaczek AJ, Lokhorst H, van de Donk NWCJ, Nijhof I, Prins HJ, Zijlstra JM, Idema S, Baayen JC, Teunissen CE, Killestein J, Besselink MG, Brammen L, Bachleitner-Hofmann T, Mateen F, Plukker JTM, Heger M, de Mast Q, Lisman T, Pegtel DM, Bogaard HJ, Jassem J, Supernat A, Mehra N, Gerritsen W, de Kroon CD, Lok CAR, Piek JMJ, Steeghs N, van Houdt WJ, Brakenhoff RH, Sonke GS, Verheul HM, Giovannetti E, Kazemier G, Sabrkhany S, Schuuring E, Sistermans EA, Wolthuis R, Meijers-Heijboer H, Dorsman J, Oudejans C, Ylstra B, Westerman BA, van den Broek D, Koppers-Lalic D, Wesseling P, Nilsson RJA, Vandertop WP, Noske DP, Tannous BA, Sol N, Best MG, and Wurdinger T
- Subjects
- Biomarkers, Tumor genetics, Blood Platelets, Early Detection of Cancer methods, Humans, Neoplasms diagnosis, Neoplasms genetics, RNA genetics
- Abstract
Cancer patients benefit from early tumor detection since treatment outcomes are more favorable for less advanced cancers. Platelets are involved in cancer progression and are considered a promising biosource for cancer detection, as they alter their RNA content upon local and systemic cues. We show that tumor-educated platelet (TEP) RNA-based blood tests enable the detection of 18 cancer types. With 99% specificity in asymptomatic controls, thromboSeq correctly detected the presence of cancer in two-thirds of 1,096 blood samples from stage I-IV cancer patients and in half of 352 stage I-III tumors. Symptomatic controls, including inflammatory and cardiovascular diseases, and benign tumors had increased false-positive test results with an average specificity of 78%. Moreover, thromboSeq determined the tumor site of origin in five different tumor types correctly in over 80% of the cancer patients. These results highlight the potential properties of TEP-derived RNA panels to supplement current approaches for blood-based cancer screening., Competing Interests: Declaration of interests M.G. Best, R.J.A.N., and T.W. are inventors on relevant patent applications (PCT/NL2011/050518 and PCT/NL2018/050110). R.J.A.N. and T.W. are shareholders of Illumina, Inc. M.H. is chief formulation officer at Nurish.Me, Inc., and Camelina Sun LLC and has equity in those companies (whose business activities are unrelated to the present work). D.M.P. and D.K.L. are shareholders of ExBiome BV., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)
- Published
- 2022
- Full Text
- View/download PDF
23. Adhesion as a Focus in Trichoderma-Root Interactions.
- Author
-
Taylor JT, Harting R, Shalaby S, Kenerley CM, Braus GH, and Horwitz BA
- Abstract
Fungal spores, germlings, and mycelia adhere to substrates, including host tissues. The adhesive forces depend on the substrate and on the adhesins, the fungal cell surface proteins. Attachment is often a prerequisite for the invasion of the host, hence its importance. Adhesion visibly precedes colonization of root surfaces and outer cortex layers, but little is known about the molecular details. We propose that by starting from what is already known from other fungi, including yeast and other filamentous pathogens and symbionts, the mechanism and function of Trichoderma adhesion will become accessible. There is a sequence, and perhaps functional, homology to other rhizosphere-competent Sordariomycetes. Specifically, Verticillium dahliae is a soil-borne pathogen that establishes itself in the xylem and causes destructive wilt disease. Metarhizium species are best-known as insect pathogens with biocontrol potential, but they also colonize roots. Verticillium orthologs of the yeast Flo8 transcription factor, Som1, and several other relevant genes are already under study for their roles in adhesion. Metarhizium encodes relevant adhesins. Trichoderma virens encodes homologs of Som1, as well as adhesin candidates. These genes should provide exciting leads toward the first step in the establishment of beneficial interactions with roots in the rhizosphere.
- Published
- 2022
- Full Text
- View/download PDF
24. Secondary metabolites of Hülle cells mediate protection of fungal reproductive and overwintering structures against fungivorous animals.
- Author
-
Liu L, Sasse C, Dirnberger B, Valerius O, Fekete-Szücs E, Harting R, Nordzieke DE, Pöggeler S, Karlovsky P, Gerke J, and Braus GH
- Subjects
- Animals, Anthraquinones metabolism, Aspergillus nidulans genetics, Aspergillus nidulans growth & development, Crustacea, Fungal Proteins genetics, Gene Expression Regulation, Developmental, Gene Expression Regulation, Fungal, Mutation, Spores, Fungal genetics, Spores, Fungal growth & development, Tenebrio, Time Factors, Xanthones metabolism, Arthropods, Aspergillus nidulans metabolism, Feeding Behavior, Fungal Proteins metabolism, Predatory Behavior, Secondary Metabolism, Soil Microbiology, Spores, Fungal metabolism
- Abstract
Fungal Hülle cells with nuclear storage and developmental backup functions are reminiscent of multipotent stem cells. In the soil, Hülle cells nurse the overwintering fruiting bodies of Aspergillus nidulans . The genome of A. nidulans harbors genes for the biosynthesis of xanthones. We show that enzymes and metabolites of this biosynthetic pathway accumulate in Hülle cells under the control of the regulatory velvet complex, which coordinates development and secondary metabolism. Deletion strains blocked in the conversion of anthraquinones to xanthones accumulate emodins and are delayed in maturation and growth of fruiting bodies. Emodin represses fruiting body and resting structure formation in other fungi. Xanthones are not required for sexual development but exert antifeedant effects on fungivorous animals such as springtails and woodlice. Our findings reveal a novel role of Hülle cells in establishing secure niches for A. nidulans by accumulating metabolites with antifeedant activity that protect reproductive structures from animal predators., Competing Interests: LL, CS, BD, OV, EF, RH, SP, PK, JG, GB none, DN None, (© 2021, Liu et al.)
- Published
- 2021
- Full Text
- View/download PDF
25. A 20-kb lineage-specific genomic region tames virulence in pathogenic amphidiploid Verticillium longisporum.
- Author
-
Harting R, Starke J, Kusch H, Pöggeler S, Maurus I, Schlüter R, Landesfeind M, Bulla I, Nowrousian M, de Jonge R, Stahlhut G, Hoff KJ, Aßhauer KP, Thürmer A, Stanke M, Daniel R, Morgenstern B, Thomma BPHJ, Kronstad JW, Braus-Stromeyer SA, and Braus GH
- Subjects
- Ascomycota, Genomics, Virulence genetics, Plant Diseases genetics, Verticillium genetics
- Abstract
Amphidiploid fungal Verticillium longisporum strains Vl43 and Vl32 colonize the plant host Brassica napus but differ in their ability to cause disease symptoms. These strains represent two V. longisporum lineages derived from different hybridization events of haploid parental Verticillium strains. Vl32 and Vl43 carry same-sex mating-type genes derived from both parental lineages. Vl32 and Vl43 similarly colonize and penetrate plant roots, but asymptomatic Vl32 proliferation in planta is lower than virulent Vl43. The highly conserved Vl43 and Vl32 genomes include less than 1% unique genes, and the karyotypes of 15 or 16 chromosomes display changed genetic synteny due to substantial genomic reshuffling. A 20 kb Vl43 lineage-specific (LS) region apparently originating from the Verticillium dahliae-related ancestor is specific for symptomatic Vl43 and encodes seven genes, including two putative transcription factors. Either partial or complete deletion of this LS region in Vl43 did not reduce virulence but led to induction of even more severe disease symptoms in rapeseed. This suggests that the LS insertion in the genome of symptomatic V. longisporum Vl43 mediates virulence-reducing functions, limits damage on the host plant, and therefore tames Vl43 from being even more virulent., (© 2021 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)
- Published
- 2021
- Full Text
- View/download PDF
26. Blood-Based Biomarkers for Glioma in the Context of Gliomagenesis: A Systematic Review.
- Author
-
Ali H, Harting R, de Vries R, Ali M, Wurdinger T, and Best MG
- Abstract
Background: Gliomas are the most common and aggressive tumors of the central nervous system. A robust and widely used blood-based biomarker for glioma has not yet been identified. In recent years, a plethora of new research on blood-based biomarkers for glial tumors has been published. In this review, we question which molecules, including proteins, nucleic acids, circulating cells, and metabolomics, are most promising blood-based biomarkers for glioma diagnosis, prognosis, monitoring and other purposes, and align them to the seminal processes of cancer., Methods: The Pubmed and Embase databases were systematically searched. Biomarkers were categorized in the identified biomolecules and biosources. Biomarker characteristics were assessed using the area under the curve (AUC), accuracy, sensitivity and/or specificity values and the degree of statistical significance among the assessed clinical groups was reported., Results: 7,919 references were identified: 3,596 in PubMed and 4,323 in Embase. Following screening of titles, abstracts and availability of full-text, 262 articles were included in the final systematic review. Panels of multiple biomarkers together consistently reached AUCs >0.8 and accuracies >80% for various purposes but especially for diagnostics. The accuracy of single biomarkers, consisting of only one measurement, was far more variable, but single microRNAs and proteins are generally more promising as compared to other biomarker types., Conclusion: Panels of microRNAs and proteins are most promising biomarkers, while single biomarkers such as GFAP, IL-10 and individual miRNAs also hold promise. It is possible that panels are more accurate once these are involved in different, complementary cancer-related molecular pathways, because not all pathways may be dysregulated in cancer patients. As biomarkers seem to be increasingly dysregulated in patients with short survival, higher tumor grades and more pathological tumor types, it can be hypothesized that more pathways are dysregulated as the degree of malignancy of the glial tumor increases. Despite, none of the biomarkers found in the literature search seem to be currently ready for clinical implementation, and most of the studies report only preliminary application of the identified biomarkers. Hence, large-scale validation of currently identified and potential novel biomarkers to show clinical utility is warranted., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Ali, Harting, de Vries, Ali, Wurdinger and Best.)
- Published
- 2021
- Full Text
- View/download PDF
27. Pseudomonas Strains Induce Transcriptional and Morphological Changes and Reduce Root Colonization of Verticillium spp.
- Author
-
Harting R, Nagel A, Nesemann K, Höfer AM, Bastakis E, Kusch H, Stanley CE, Stöckli M, Kaever A, Hoff KJ, Stanke M, deMello AJ, Künzler M, Haney CH, Braus-Stromeyer SA, and Braus GH
- Abstract
Phytopathogenic Verticillia cause Verticillium wilt on numerous economically important crops. Plant infection begins at the roots, where the fungus is confronted with rhizosphere inhabiting bacteria. The effects of different fluorescent pseudomonads, including some known biocontrol agents of other plant pathogens, on fungal growth of the haploid Verticillium dahliae and/or the amphidiploid Verticillium longisporum were compared on pectin-rich medium, in microfluidic interaction channels, allowing visualization of single hyphae, or on Arabidopsis thaliana roots. We found that the potential for formation of bacterial lipopeptide syringomycin resulted in stronger growth reduction effects on saprophytic Aspergillus nidulans compared to Verticillium spp. A more detailed analyses on bacterial-fungal co-cultivation in narrow interaction channels of microfluidic devices revealed that the strongest inhibitory potential was found for Pseudomonas protegens CHA0, with its inhibitory potential depending on the presence of the GacS/GacA system controlling several bacterial metabolites. Hyphal tip polarity was altered when V. longisporum was confronted with pseudomonads in narrow interaction channels, resulting in a curly morphology instead of straight hyphal tip growth. These results support the hypothesis that the fungus attempts to evade the bacterial confrontation. Alterations due to co-cultivation with bacteria could not only be observed in fungal morphology but also in fungal transcriptome. P. protegens CHA0 alters transcriptional profiles of V. longisporum during 2 h liquid media co-cultivation in pectin-rich medium. Genes required for degradation of and growth on the carbon source pectin were down-regulated, whereas transcripts involved in redox processes were up-regulated. Thus, the secondary metabolite mediated effect of Pseudomonas isolates on Verticillium species results in a complex transcriptional response, leading to decreased growth with precautions for self-protection combined with the initiation of a change in fungal growth direction. This interplay of bacterial effects on the pathogen can be beneficial to protect plants from infection, as shown with A . thaliana root experiments. Treatment of the roots with bacteria prior to infection with V. dahliae resulted in a significant reduction of fungal root colonization. Taken together we demonstrate how pseudomonads interfere with the growth of Verticillium spp. and show that these bacteria could serve in plant protection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Harting, Nagel, Nesemann, Höfer, Bastakis, Kusch, Stanley, Stöckli, Kaever, Hoff, Stanke, deMello, Künzler, Haney, Braus-Stromeyer and Braus.)
- Published
- 2021
- Full Text
- View/download PDF
28. Unfolded Protein Response and Scaffold Independent Pheromone MAP Kinase Signaling Control Verticillium dahliae Growth, Development, and Plant Pathogenesis.
- Author
-
Starke J, Harting R, Maurus I, Leonard M, Bremenkamp R, Heimel K, Kronstad JW, and Braus GH
- Abstract
Differentiation, growth, and virulence of the vascular plant pathogen Verticillium dahliae depend on a network of interconnected cellular signaling cascades. The transcription factor Hac1 of the endoplasmic reticulum-associated unfolded protein response (UPR) is required for initial root colonization, fungal growth, and vascular propagation by conidiation. Hac1 is essential for the formation of microsclerotia as long-time survival resting structures in the field. Single endoplasmic reticulum-associated enzymes for linoleic acid production as precursors for oxylipin signal molecules support fungal growth but not pathogenicity. Microsclerotia development, growth, and virulence further require the pheromone response mitogen-activated protein kinase (MAPK) pathway, but without the Ham5 scaffold function. The MAPK phosphatase Rok1 limits resting structure development of V. dahliae , but promotes growth, conidiation, and virulence. The interplay between UPR and MAPK signaling cascades includes several potential targets for fungal growth control for supporting disease management of the vascular pathogen V. dahliae .
- Published
- 2021
- Full Text
- View/download PDF
29. The velvet protein Vel1 controls initial plant root colonization and conidia formation for xylem distribution in Verticillium wilt.
- Author
-
Höfer AM, Harting R, Aßmann NF, Gerke J, Schmitt K, Starke J, Bayram Ö, Tran VT, Valerius O, Braus-Stromeyer SA, and Braus GH
- Subjects
- DNA-Binding Proteins, Fungal Proteins chemistry, Fungal Proteins genetics, Host-Pathogen Interactions, Solanum lycopersicum, Models, Biological, Phenotype, Plant Diseases genetics, Plant Diseases microbiology, Secondary Metabolism, Fungal Proteins metabolism, Plant Roots metabolism, Plant Roots microbiology, Spores, Fungal, Verticillium physiology, Xylem metabolism
- Abstract
The conserved fungal velvet family regulatory proteins link development and secondary metabolite production. The velvet domain for DNA binding and dimerization is similar to the structure of the Rel homology domain of the mammalian NF-κB transcription factor. A comprehensive study addressed the functions of all four homologs of velvet domain encoding genes in the fungal life cycle of the soil-borne plant pathogenic fungus Verticillium dahliae. Genetic, cell biological, proteomic and metabolomic analyses of Vel1, Vel2, Vel3 and Vos1 were combined with plant pathogenicity experiments. Different phases of fungal growth, development and pathogenicity require V. dahliae velvet proteins, including Vel1-Vel2, Vel2-Vos1 and Vel3-Vos1 heterodimers, which are already present during vegetative hyphal growth. The major novel finding of this study is that Vel1 is necessary for initial plant root colonization and together with Vel3 for propagation in planta by conidiation. Vel1 is needed for disease symptom induction in tomato. Vel1, Vel2, and Vel3 control the formation of microsclerotia in senescent plants. Vel1 is the most important among all four V. dahliae velvet proteins with a wide variety of functions during all phases of the fungal life cycle in as well as ex planta., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2021
- Full Text
- View/download PDF
30. Verticillium longisporum Elicits Media-Dependent Secretome Responses With Capacity to Distinguish Between Plant-Related Environments.
- Author
-
Leonard M, Kühn A, Harting R, Maurus I, Nagel A, Starke J, Kusch H, Valerius O, Feussner K, Feussner I, Kaever A, Landesfeind M, Morgenstern B, Becher D, Hecker M, Braus-Stromeyer SA, Kronstad JW, and Braus GH
- Abstract
Verticillia cause a vascular wilt disease affecting a broad range of economically valuable crops. The fungus enters its host plants through the roots and colonizes the vascular system. It requires extracellular proteins for a successful plant colonization. The exoproteomes of the allodiploid Verticillium longisporum upon cultivation in different media or xylem sap extracted from its host plant Brassica napus were compared. Secreted fungal proteins were identified by label free liquid chromatography-tandem mass spectrometry screening. V. longisporum induced two main secretion patterns. One response pattern was elicited in various non-plant related environments. The second pattern includes the exoprotein responses to the plant-related media, pectin-rich simulated xylem medium and pure xylem sap, which exhibited similar but additional distinct features. These exoproteomes include a shared core set of 221 secreted and similarly enriched fungal proteins. The pectin-rich medium significantly induced the secretion of 143 proteins including a number of pectin degrading enzymes, whereas xylem sap triggered a smaller but unique fungal exoproteome pattern with 32 enriched proteins. The latter pattern included proteins with domains of known pathogenicity factors, metallopeptidases and carbohydrate-active enzymes. The most abundant proteins of these different groups are the necrosis and ethylene inducing-like proteins Nlp2 and Nlp3, the cerato-platanin proteins Cp1 and Cp2, the metallopeptidases Mep1 and Mep2 and the carbohydrate-active enzymes Gla1, Amy1 and Cbd1. Their pathogenicity contribution was analyzed in the haploid parental strain V. dahliae . Deletion of the majority of the corresponding genes caused no phenotypic changes during ex planta growth or invasion and colonization of tomato plants. However, we discovered that the MEP1 , NLP2 , and NLP3 deletion strains were compromised in plant infections. Overall, our exoproteome approach revealed that the fungus induces specific secretion responses in different environments. The fungus has a general response to non-plant related media whereas it is able to fine-tune its exoproteome in the presence of plant material. Importantly, the xylem sap-specific exoproteome pinpointed Nlp2 and Nlp3 as single effectors required for successful V. dahliae colonization., (Copyright © 2020 Leonard, Kühn, Harting, Maurus, Nagel, Starke, Kusch, Valerius, Feussner, Feussner, Kaever, Landesfeind, Morgenstern, Becher, Hecker, Braus-Stromeyer, Kronstad and Braus.)
- Published
- 2020
- Full Text
- View/download PDF
31. The Vta1 transcriptional regulator is required for microsclerotia melanization in Verticillium dahliae.
- Author
-
Harting R, Höfer A, Tran VT, Weinhold LM, Barghahn S, Schlüter R, and Braus GH
- Subjects
- Gene Expression Regulation, Fungal, Plant Diseases microbiology, Ascomycota genetics, Ascomycota metabolism, Fungal Proteins genetics, Melanins genetics, Transcription Factors genetics
- Abstract
Many fungi are able to produce resting structures, which ensure survival and protect them against various stresses in their habitat such as exposure to UV light, temperature variations, drought as well as changing pH and nutrient conditions. Verticillium dahliae is a plant pathogenic fungus that forms melanized resting structures, called microsclerotia, for survival of time periods without a host. These highly stress resistant microsclerotia persist in the soil for many years and are therefore problematic for an effective treatment of the fungus. The Verticillium transcription activator of adhesion 1 (Vta1) was initially identified as one of several transcriptional regulators that rescue adhesion in non-adhesive Saccharomyces cerevisiae cells. Vta2 and Vta3 are required for early steps in plant infection and colonization and additionally control microsclerotia formation. Here, we show that Vta1 function is different, because it is dispensable for root colonization and infection. Vta1 is produced in the fungal cell during microsclerotia development. Analysis of the deletion mutant revealed that the absence of Vta1 allows microsclerotia production, but they are colorless and no more melanized. Vta1 is required for melanin production and activates transcription of melanin biosynthesis genes including the polyketide synthase encoding PKS1 and the laccase LAC1. The primary function of Vta1 in melanin production is important for survival of microsclerotia as resting structures of V. dahliae., Competing Interests: Declaration of Competing Interest None declared., (Copyright © 2020. Published by Elsevier Ltd.)
- Published
- 2020
- Full Text
- View/download PDF
32. Integration of Fungus-Specific CandA-C1 into a Trimeric CandA Complex Allowed Splitting of the Gene for the Conserved Receptor Exchange Factor of CullinA E3 Ubiquitin Ligases in Aspergilli.
- Author
-
Köhler AM, Harting R, Langeneckert AE, Valerius O, Gerke J, Meister C, Strohdiek A, and Braus GH
- Subjects
- Multiprotein Complexes, Ubiquitin metabolism, Aspergillus nidulans enzymology, Aspergillus nidulans genetics, Cullin Proteins genetics, Fungal Proteins genetics, Fungal Proteins metabolism, Ubiquitin-Protein Ligases genetics
- Abstract
E3 cullin-RING ubiquitin ligase (CRL) complexes recognize specific substrates and are activated by covalent modification with ubiquitin-like Nedd8. Deneddylation inactivates CRLs and allows Cand1/A to bind and exchange substrate recognition subunits. Human as well as most fungi possess a single gene for the receptor exchange factor Cand1, which is split and rearranged in aspergilli into two genes for separate proteins. Aspergillus nidulans CandA-N blocks the neddylation site, and CandA-C inhibits the interaction to the adaptor/substrate receptor subunits similar to the respective N-terminal and C-terminal parts of single Cand1. The pathogen Aspergillus fumigatus and related species express a CandA-C with a 190-amino-acid N-terminal extension domain encoded by an additional exon. This extension corresponds in most aspergilli, including A. nidulans , to a gene directly upstream of candA-C encoding a 20-kDa protein without human counterpart. This protein was named CandA-C1, because it is also required for the cellular deneddylation/neddylation cycle and can form a trimeric nuclear complex with CandA-C and CandA-N. CandA-C and CandA-N are required for asexual and sexual development and control a distinct secondary metabolism. CandA-C1 and the corresponding domain of A. fumigatus control spore germination, vegetative growth, and the repression of additional secondary metabolites. This suggests that the dissection of the conserved Cand1-encoding gene within the genome of aspergilli was possible because it allowed the integration of a fungus-specific protein required for growth into the CandA complex in two different gene set versions, which might provide an advantage in evolution. IMPORTANCE Aspergillus species are important for biotechnological applications, like the production of citric acid or antibacterial agents. Aspergilli can cause food contamination or invasive aspergillosis to immunocompromised humans or animals. Specific treatment is difficult due to limited drug targets and emerging resistances. The CandA complex regulates, as a receptor exchange factor, the activity and substrate variability of the ubiquitin labeling machinery for 26S proteasome-mediated protein degradation. Only Aspergillus species encode at least two proteins that form a CandA complex. This study shows that Aspergillus species had to integrate a third component into the CandA receptor exchange factor complex that is unique to aspergilli and required for vegetative growth, sexual reproduction, and activation of the ubiquitin labeling machinery. These features have interesting implications for the evolution of protein complexes and could make CandA-C1 an interesting candidate for target-specific drug design to control fungal growth without affecting the human ubiquitin-proteasome system., (Copyright © 2019 Köhler et al.)
- Published
- 2019
- Full Text
- View/download PDF
33. Verticillium dahliae transcription factors Som1 and Vta3 control microsclerotia formation and sequential steps of plant root penetration and colonisation to induce disease.
- Author
-
Bui TT, Harting R, Braus-Stromeyer SA, Tran VT, Leonard M, Höfer A, Abelmann A, Bakti F, Valerius O, Schlüter R, Stanley CE, Ambrósio A, and Braus GH
- Subjects
- Amino Acid Sequence, Biomass, DNA, Fungal metabolism, Fungal Proteins chemistry, Genetic Loci, Humans, Hyphae physiology, Hyphae ultrastructure, Models, Biological, Mutation genetics, Nuclear Proteins metabolism, Oxidative Stress, Phenotype, Plant Roots ultrastructure, Protein Domains, Saccharomyces cerevisiae metabolism, Stress, Physiological, Vacuoles metabolism, Verticillium genetics, Verticillium pathogenicity, Verticillium ultrastructure, Virulence, Fungal Proteins metabolism, Plant Roots microbiology, Transcription Factors metabolism, Verticillium growth & development
- Abstract
Verticillium dahliae nuclear transcription factors Som1 and Vta3 can rescue adhesion in a FLO8-deficient Saccharomyces cerevisiae strain. Som1 and Vta3 induce the expression of the yeast FLO1 and FLO11 genes encoding adhesins. Som1 and Vta3 are sequentially required for root penetration and colonisation of the plant host by V. dahliae. The SOM1 and VTA3 genes were deleted and their functions in fungus-induced plant pathogenesis were studied using genetic, cell biology, proteomic and plant pathogenicity experiments. Som1 supports fungal adhesion and root penetration and is required earlier than Vta3 in the colonisation of plant root surfaces and tomato plant infection. Som1 controls septa positioning and the size of vacuoles, and subsequently hyphal development including aerial hyphae formation and normal hyphal branching. Som1 and Vta3 control conidiation, microsclerotia formation, and antagonise in oxidative stress responses. The molecular function of Som1 is conserved between the plant pathogen V. dahliae and the opportunistic human pathogen Aspergillus fumigatus. Som1 controls genes for initial steps of plant root penetration, adhesion, oxidative stress response and VTA3 expression to allow subsequent root colonisation. Both Som1 and Vta3 regulate developmental genetic networks required for conidiation, microsclerotia formation and pathogenicity of V. dahliae., (© 2018 The Authors. New Phytologist © 2018 New Phytologist Trust.)
- Published
- 2019
- Full Text
- View/download PDF
34. Fluorescent pseudomonads pursue media-dependent strategies to inhibit growth of pathogenic Verticillium fungi.
- Author
-
Nesemann K, Braus-Stromeyer SA, Harting R, Höfer A, Kusch H, Ambrosio AB, Timpner C, and Braus GH
- Subjects
- Culture Media, Gene Expression Regulation, Bacterial, Solanum lycopersicum microbiology, Pest Control, Biological, Phenazines metabolism, Phloroglucinol analogs & derivatives, Phloroglucinol metabolism, Plant Diseases, Secondary Metabolism, Verticillium pathogenicity, Antibiosis, Bacterial Proteins metabolism, Pseudomonas fluorescens physiology, Verticillium growth & development
- Abstract
Verticillium species represent economically important phytopathogenic fungi with bacteria as natural rhizosphere antagonists. Growth inhibition patterns of Verticillium in different media were compared to saprophytic Aspergillus strains and were significantly more pronounced in various co-cultivations with different Pseudomonas strains. The Brassica napus rhizosphere bacterium Pseudomonas fluorescens DSM8569 is able to inhibit growth of rapeseed (Verticillium longisporum) or tomato (Verticillium dahliae) pathogens without the potential for phenazine or 2,4-diacetylphloroglucinol (DAPG) mycotoxin biosynthesis. Bacterial inhibition of Verticillium growth remained even after the removal of pseudomonads from co-cultures. Fungal growth response in the presence of the bacterium is independent of the fungal control genes of secondary metabolism LAE1 and CSN5. The phenazine producer P. fluorescens 2-79 (P_phen) inhibits Verticillium growth especially on high glucose solid agar surfaces. Additional phenazine-independent mechanisms in the same strain are able to reduce fungal surface growth in the presence of pectin and amino acids. The DAPG-producing Pseudomonas protegens CHA0 (P_DAPG), which can also produce hydrogen cyanide or pyoluteorin, has an additional inhibitory potential on fungal growth, which is independent of these antifungal compounds, but which requires the bacterial GacA/GacS control system. This translational two-component system is present in many Gram-negative bacteria and coordinates the production of multiple secondary metabolites. Our data suggest that pseudomonads pursue different media-dependent strategies that inhibit fungal growth. Metabolites such as phenazines are able to completely inhibit fungal surface growth in the presence of glucose, whereas GacA/GacS controlled inhibitors provide the same fungal growth effect on pectin/amino acid agar.
- Published
- 2018
- Full Text
- View/download PDF
35. Bacillus thuringiensis and Bacillus weihenstephanensis Inhibit the Growth of Phytopathogenic Verticillium Species.
- Author
-
Hollensteiner J, Wemheuer F, Harting R, Kolarzyk AM, Diaz Valerio SM, Poehlein A, Brzuszkiewicz EB, Nesemann K, Braus-Stromeyer SA, Braus GH, Daniel R, and Liesegang H
- Abstract
Verticillium wilt causes severe yield losses in a broad range of economically important crops worldwide. As many soil fumigants have a severe environmental impact, new biocontrol strategies are needed. Members of the genus Bacillus are known as plant growth-promoting bacteria (PGPB) as well as biocontrol agents of pests and diseases. In this study, we isolated 267 Bacillus strains from root-associated soil of field-grown tomato plants. We evaluated the antifungal potential of 20 phenotypically diverse strains according to their antagonistic activity against the two phytopathogenic fungi Verticillium dahliae and Verticillium longisporum . In addition, the 20 strains were sequenced and phylogenetically characterized by multi-locus sequence typing (MLST) resulting in 7 different Bacillus thuringiensis and 13 Bacillus weihenstephanensis strains. All B. thuringiensis isolates inhibited in vitro the tomato pathogen V. dahliae JR2, but had only low efficacy against the tomato-foreign pathogen V. longisporum 43. All B. weihenstephanensis isolates exhibited no fungicidal activity whereas three B. weihenstephanensis isolates showed antagonistic effects on both phytopathogens. These strains had a rhizoid colony morphology, which has not been described for B. weihenstephanensis strains previously. Genome analysis of all isolates revealed putative genes encoding fungicidal substances and resulted in identification of 304 secondary metabolite gene clusters including 101 non-ribosomal polypeptide synthetases and 203 ribosomal-synthesized and post-translationally modified peptides. All genomes encoded genes for the synthesis of the antifungal siderophore bacillibactin. In the genome of one B. thuringiensis strain, a gene cluster for zwittermicin A was detected. Isolates which either exhibited an inhibitory or an interfering effect on the growth of the phytopathogens carried one or two genes encoding putative mycolitic chitinases, which might contribute to antifungal activities. This indicates that chitinases contribute to antifungal activities. The present study identified B. thuringiensis isolates from tomato roots which exhibited in vitro antifungal activity against Verticillium species.
- Published
- 2017
- Full Text
- View/download PDF
36. Interplay of the fungal sumoylation network for control of multicellular development.
- Author
-
Harting R, Bayram O, Laubinger K, Valerius O, and Braus GH
- Subjects
- Aspergillus nidulans genetics, Carrier Proteins, Fungal Proteins genetics, Hyphae metabolism, Methyltransferases genetics, Methyltransferases metabolism, Peptide Hydrolases metabolism, Protein Processing, Post-Translational, Small Ubiquitin-Related Modifier Proteins genetics, Sumoylation, Transcription Factors genetics, Transcription Factors metabolism, Ubiquitin-Conjugating Enzymes metabolism, Ubiquitins metabolism, Aspergillus nidulans growth & development, Aspergillus nidulans metabolism, Fungal Proteins metabolism, Genes, Fungal, Small Ubiquitin-Related Modifier Proteins metabolism
- Abstract
The role of the complex network of the ubiquitin-like modifier SumO in fungal development was analysed. SumO is not only required for sexual development but also for accurate induction and light stimulation of asexual development. The Aspergillus nidulans COMPASS complex including its subunits CclA and the methyltransferase SetA connects the SumO network to histone modification. SetA is required for correct positioning of aerial hyphae for conidiophore and asexual spore formation. Multicellular fungal development requires sumoylation and desumoylation. This includes the SumO processing enzyme UlpB, the E1 SumO activating enzyme AosA/UbaB, the E2 conjugation enzyme UbcN and UlpA as major SumO isopeptidase. Genetic suppression analysis suggests a connection between the genes for the Nedd8 isopeptidase DenA and the SumO isopeptidase UlpA and therefore a developmental interplay between neddylation and sumoylation in fungi. Biochemical evidence suggests an additional connection of the fungal SumO network with ubiquitination. Members of the cellular SumO network include histone modifiers, components of the transcription, RNA maturation and stress response machinery, or metabolic enzymes. Our data suggest that the SumO network controls specific temporal and spatial steps in fungal differentiation., (© 2013 John Wiley & Sons Ltd.)
- Published
- 2013
- Full Text
- View/download PDF
37. The COP9 signalosome counteracts the accumulation of cullin SCF ubiquitin E3 RING ligases during fungal development.
- Author
-
von Zeska Kress MR, Harting R, Bayram Ö, Christmann M, Irmer H, Valerius O, Schinke J, Goldman GH, and Braus GH
- Subjects
- Aspergillus nidulans genetics, COP9 Signalosome Complex, Cullin Proteins genetics, Fungal Proteins genetics, Gene Expression Regulation, Developmental, Gene Expression Regulation, Fungal, Multiprotein Complexes genetics, Peptide Hydrolases genetics, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Ubiquitins metabolism, Aspergillus nidulans enzymology, Aspergillus nidulans growth & development, Cullin Proteins metabolism, Fungal Proteins metabolism, Multiprotein Complexes metabolism, Peptide Hydrolases metabolism
- Abstract
Defects in the COP9 signalosome (CSN) impair multicellular development, including embryonic plant or animal death or a block in sexual development of the fungus Aspergillus nidulans. CSN deneddylates cullin-RING ligases (CRLs), which are activated by covalent linkage to ubiquitin-like NEDD8. Deneddylation allows CRL disassembly for subsequent reassembly. An attractive hypothesis is a consecutive order of CRLs for development, which demands repeated cycles of neddylation and deneddylation for reassembling CRLs. Interruption of these cycles could explain developmental blocks caused by csn mutations. This predicts an accumulation of neddylated CRLs exhibiting developmental functions when CSN is dysfunctional. We tested this hypothesis in A. nidulans, which tolerates reduced levels of neddylation for growth. We show that only genes for CRL subunits or neddylation are essential, whereas CSN is primarily required for development. We used functional tagged NEDD8, recruiting all three fungal cullins. Cullins are associated with the CSN1/CsnA subunit when deneddylation is defective. Two CRLs were identified which are specifically involved in differentiation and accumulate during the developmental block. This suggests that an active CSN complex is required to counteract the accumulation of specific CRLs during development., (© 2012 Blackwell Publishing Ltd.)
- Published
- 2012
- Full Text
- View/download PDF
38. Recruitment of the inhibitor Cand1 to the cullin substrate adaptor site mediates interaction to the neddylation site.
- Author
-
Helmstaedt K, Schwier EU, Christmann M, Nahlik K, Westermann M, Harting R, Grond S, Busch S, and Braus GH
- Subjects
- Artificial Gene Fusion, Aspergillus nidulans genetics, Aspergillus nidulans growth & development, Cell Cycle Proteins metabolism, Cell Nucleus metabolism, Cullin Proteins chemistry, Cullin Proteins genetics, Cytoplasm metabolism, Fungal Proteins chemistry, Gene Expression Regulation, Fungal, Genes, Fungal, Protein Binding, Recombinant Fusion Proteins metabolism, Signal Transduction, Transcription Factors chemistry, Two-Hybrid System Techniques, Ubiquitination, Ubiquitins metabolism, Aspergillus nidulans metabolism, Cullin Proteins metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Transcription Factors genetics, Transcription Factors metabolism
- Abstract
Cand1 inhibits cullin RING ubiquitin ligases by binding unneddylated cullins. The Cand1 N-terminus blocks the cullin neddylation site, whereas the C-terminus inhibits cullin adaptor interaction. These Cand1 binding sites can be separated into two functional polypeptides which bind sequentially. C-terminal Cand1 can directly bind to unneddylated cullins in the nucleus without blocking the neddylation site. The smaller N-terminal Cand1 cannot bind to the cullin neddylation region without C-terminal Cand1. The separation of a single cand1 into two independent genes represents the in vivo situation of the fungus Aspergillus nidulans, where C-terminal Cand1 recruits smaller N-terminal Cand1 in the cytoplasm. Either deletion results in an identical developmental and secondary metabolism phenotype in fungi, which resembles csn mutants deficient in the COP9 signalosome (CSN) deneddylase. We propose a two-step Cand1 binding to unneddylated cullins which initiates at the adaptor binding site and subsequently blocks the neddylation site after CSN has left.
- Published
- 2011
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.