Responses of beneficial Bacillus amyloliquefaciens SQR9 to different soilborne fungal pathogens through the alteration of antifungal compounds production by Bing eLi, Qing eLi, Zhihui eXu, Nan eZhang, Qirong eShen, Ruifu eZhang, Ruifu eZhang

“…Fengycin contributed to the antagonistic activity against Verticillium dahliae kleb, Fusarium oxysporum, Fusarium solani and Phytophthora parasitica. Surfactin participated in the antagonistic process against Sclerotinia sclerotiorum, Rhizoctonia solani and Fusarium solani. …”
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Epigenetic Modifiers Affect the Bioactive Compounds Secreted by an Endophyte of the Tropical Plant <i>Piper longum</i> by Fuad Ameen, Abobakr Almansob, Mona Al Tami, Nouf Al-Enazi, Ahmed Al-Sabri, Raha Orfali

“…The extracts inhibited growth of the human pathogens <i>Pseudomonas aeruginosa, Shigella sonnei, Streptococcus pyogenes</i>, and <i>Salmonella typhi</i>, as well as the phytopathogens <i>Puccinia recondita, Rhizoctonia solani, Phytophthora infestans</i>, and <i>Botrytis cinerea</i>. …”
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Comparison of Tomato Transcriptomic Profiles Reveals Overlapping Patterns in Abiotic and Biotic Stress Responses by Ciro Gianmaria Amoroso, Daniela D’Esposito, Riccardo Aiese Cigliano, Maria Raffaella Ercolano

“…Therefore, we analyzed and compared the transcriptomic responses of resistant and susceptible genotypes to seven biotic stresses (<i>Cladosporium fulvum</i>, <i>Phytophthora infestans</i>, <i>Pseudomonas syringae</i>, <i>Ralstonia solanacearum</i>, <i>Sclerotinia sclerotiorum</i>, Tomato spotted wilt virus (TSWV) and <i>Tuta absoluta</i>) and five abiotic stresses (drought, salinity, low temperatures, and oxidative stress) to identify genes involved in response to multiple stressors. …”
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The GHKL ATPase MORC1 Modulates Species-Specific Plant Immunity in Solanaceae by Patricia Manosalva, Murli Manohar, Karl-Heinz Kogel, Hong-Gu Kang, Daniel F. Klessig

“…To assess the role of MORC1 during resistance to Phytophthora infestans in solanaceous species, we altered the expression of the corresponding MORC1 homologs in potato, tomato, and Nicotiana benthamiana. …”
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A Mobile App for Detecting Potato Crop Diseases by Dunia Pineda Medina, Ileana Miranda Cabrera, Rolisbel Alfonso de la Cruz, Lizandra Guerra Arzuaga, Sandra Cuello Portal, Monica Bianchini

“…Artificial intelligence techniques are now widely used in various agricultural applications, including the detection of devastating diseases such as late blight (<i>Phytophthora infestans</i>) and early blight (<i>Alternaria solani</i>) affecting potato (<i>Solanum tuberorsum</i> L.) crops. …”
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Potato Late Blight Severity and Epidemic Period Prediction Based on Vis/NIR Spectroscopy by Bingru Hou, Yaohua Hu, Peng Zhang, Lixia Hou

“…Late blight caused by <i>Phytophthora infestans</i> is a destructive disease in potato production, which can lead to crop failure in severe cases. …”
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ESTUDIO COMPARATIVO DE LA PRODUCCIÓN ORGÁNICA Y TRADICIONAL DE PAPA (Solanum tuberosum L.) EN MIRAFLOR, ESTELI by José Dolores Cisne Contreras, Reinaldo Laguna M.

“…En las variables altura final de plantas y numero de tallos por planta, no se observaron diferencias estadísticas entre tratamientos. El tizón tardío (Phytophthora infestans), enfermedad común en el cultivo, se presentó con mayor incidencia en sistema de producción orgánico. …”
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Analysis of the inheritance of the marker SCAR-R1A, linked to the <i>Rpf1</i> red stele root rot resistance gene, in strawberry hybrid progeny by A. S. Lyzhin, I. V. Luk’yanchuk

“…Red stele root rot (Phytophthora fragariae var. fragariae Hickman) is a dangerous root disease. …”
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Replacing Mancozeb with Alternative Fungicides for the Control of Late Blight in Potato by Yariv Ben Naim, Yigal Cohen

“…Mancozeb (MZ) is a broadly used fungicide for the control of plant diseases, including late blight in potatoes caused by the oomycete <i>Phytophthora infestans</i> (Mont.) De Bary. MZ has been banned for agricultural use by the European Union as of January 2022 due to its hazards to humans and the environment. …”
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Managing Macadamia Decline: A Review and Proposed Biological Control Strategies by Xiaofang Yao, Qiumei Liu, Yongxin Liu, Dejun Li

“…It exhibits either a slow decline due to infection by <i>Kretzschmaria clavus</i> or <i>Ganoderma lucidum</i>, or a quick decline caused by pathogens like <i>Phytophthora</i> spp., <i>Lasiodiplodia</i> spp., <i>Neofusiccocum</i> spp., <i>Nectria rugulosa</i>, <i>Xylaria arbuscula</i>, <i>Phellinus gilvus</i>, <i>Acremonium recifei</i>, and <i>Rosellinia</i> spp. …”
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Diagnosis of Soybean Diseases Caused by Fungal and Oomycete Pathogens: Existing Methods and New Developments by Behnoush Hosseini, Ralf Thomas Voegele, Tobias Immanuel Link

“…Here, we provide an overview of available molecular assays to identify species of the genera <i>Diaporthe</i>, <i>Sclerotinia</i>, <i>Colletotrichum</i>, <i>Fusarium</i>, <i>Cercospora</i>, <i>Septoria</i>, <i>Macrophomina</i>, <i>Phialophora</i>, <i>Rhizoctonia</i>, <i>Phakopsora</i>, <i>Phytophthora</i>, and <i>Pythium,</i> causing soybean diseases. …”
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Duplication and neofunctionalization of a horizontally-transferred xyloglucanase as a facet of the red queen co-evolutionary dynamic by Attah, V, Milner, DS, Fang, Y, Yan, X, Leonard, G, Heitman, J, Talbot, NJ, Richards, TA

“…Using a combination of phylogenomic analysis and functional assays, we investigate the diversification of a horizontally-transferred xyloglucanase gene family in the model oomycete species Phytophthora sojae. Our analyses detect 11 genes retained in P. sojae among a complex pattern of gene duplications and losses. …”

Extracellular proteolytic cascade in tomato activates immune protease Rcr3 by Paulus, JK, Kourelis, J, Ramasubramanian, S, Homma, F, Godson, A, Hörger, AC, Hong, TN, Krahn, D, Ossorio Carballo, L, Wang, S, Win, J, Smoker, M, Kamoun, S, Dong, S, van der Hoorn, RAL

“…Rcr3 is a secreted papain-like Cys protease (PLCP) of tomato that acts both in basal resistance against late blight disease (Phytophthora infestans) and in gene-for-gene resistance against the fungal pathogen Cladosporium fulvum (syn. …”

Characterisation of Trichoderma spp. and assessment as biocontrol using dual culture assay against fungi associated with black pepper (Piper nigrum L.) diseases in Sarawak by Wilson, Joy Franco, Aman Zuki, Ameyra, Yee, Min Kwan

“…Based on the morphological and molecular characterisation, the identified fungal causal agents were Fusarium solani (yellowing disease), Colletotrichum gloeosporioides (black berry disease), and Phytophthora palmivora (foot rot disease). Twenty isolates of Trichoderma spp. were isolated from secondary forest and Biopark in Bintulu, Sarawak. …”

Characterization and bioactive potential of secondary metabolites isolated from piper sarmentosum roxb. by Ware, Ismail, Franke, Katrin, Dube, Mthandazo, Ali El Enshasy, Hesham, Wessjohann, Ludger A.

“…The compounds were evaluated for their anthelmintic (Caenorhabditis elegans), antifungal (Botrytis cinerea, Septoria tritici and Phytophthora infestans), antibacterial (Aliivibrio fischeri) and cytotoxic (PC-3 and HT-29 human cancer cells lines) activities. …”
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Worldwide Genetic Structure Elucidates the Eurasian Origin and Invasion Pathways of <i>Dothistroma septosporum</i>, Causal Agent of Dothistroma Needle Blight by Martin S. Mullett, Rein Drenkhan, Kalev Adamson, Piotr Boroń, Anna Lenart-Boroń, Irene Barnes, Michal Tomšovský, Zuzana Jánošíková, Katarína Adamčíková, Emília Ondrušková, Valentin Queloz, Barbara Piškur, Dmitry L. Musolin, Kateryna Davydenko, Margarita Georgieva, Sophie Schmitz, Audrius Kačergius, Luisa Ghelardini, Jelena Kranjec Orlović, Michael Müller, Funda Oskay, Tine Hauptman, Ágnes Halász, Svetlana Markovskaja, Halvor Solheim, Martti Vuorinen, Renate Heinzelmann, Richard C. Hamelin, Adam Konečný

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Triphenylphosphonium (TPP)-Conjugated Quinolone Analogs Displayed Significantly Enhanced Fungicidal Activity Superior to Its Parent Molecule by Jiayao Wang, Xuelian Liu, Fahong Yin, Yanjun Xu, Bin Fu, Jiaqi Li, Zhaohai Qin

“…They exhibited greatly enhanced fungicidal activity compared to the parent molecule, especially mitoQNO₁₁, which showed high antifungal activity against <i>Phytophthora capsici</i> and <i>Sclerotinia sclerotiorum</i> with EC₅₀ values of 7.42 and 4.43 μmol/L, respectively. …”
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The secreted PAMP-induced peptide StPIP1_1 activates immune responses in potato by Linda Nietzschmann, Ulrike Smolka, Elvio Henrique Benatto Perino, Karin Gorzolka, Gina Stamm, Sylvestre Marillonnet, Katharina Bürstenbinder, Sabine Rosahl

“…Expression of StPIP1_1 is also induced in response to infection with Phytophthora infestans, the causal agent of late blight disease. …”
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A Peroxidase Gene Promoter Induced by Phytopathogens and Methyl Jasmonate in Transgenic Plants by Mark D. Curtis, Anne L. Rae, Anca G. Rusu, Stuart J. Harrison, John M. Manners

“…Much more extensive staining for GUS was observed following inoculation of tobacco leaves with conidia of the fungal pathogen Cercospora nicotianae and the inoculation of wound sites with mycelium of the Oomycete pathogen Phytophthora parasitica var. nicotianae. Treatment of mature leaves with methyl jasmonate induced GUS activity while treatment with ABA, SA, and H2O2 had no effect. …”
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Lysinabacillus fusiformis and Paenibacillus alvei Obtained from the Internal of Nasutitermes Termites Revealed Their Ability as Antagonist of Plant Pathogenic Fungi by Yuyun Fitriana, Desi Apriani Teresa Tampubolon, Radix Suharjo, Puji Lestari, I Gede Swibawa

“…Antagonistic capability was investigated in the laboratory against 3 phytopathogenic fungi i.e., Phytophthora capsici, Ganoderma boninense, and Rigidoporus microporus. …”
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