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Journal articles on the topic 'Melonis'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Risan, Mohsen. "DIAGNOSIS OF Fusarium oxysporum FUNGUS ISOLATIONS AND Bacillus BACTERIA THE OF EFFICIENCY THE OF EVALUATION OF INHIBITION THE IN PHOSPHATE POTASSIUM AND subtili." Iraqi Journal of Science 53, no. 3 (2024): 513–23. http://dx.doi.org/10.24996/iraqijournalofscience.v53i3.12749.

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The study aimed to isolate and diagnose types of Fusarium oxysporum from the roots of cucumbers and melons plants infected , from the fields of Al- Ssaouira, Al-Numaniya and Al-Hai in Wasit Governorate , and the possibility to control it by using the bacteria Bacillus subtilis and potassium phosphate concentration (500) mg / liter of water. Were obtained on (19) pure isolates of fungus F.oxysporum f.sp. cucumerinum and (11) pure isolates of F.oxysporum f.sp. melonis . The isolate F.oxysporum f.sp. cucumerinum (FOS 9) showed a high virulence than the rest isolates , white the isolates F.oxyspor
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2

Mohaghegh, P., A. H. Khoshgoftarmanesh, M. Shirvani, B. Sharifnabi, and N. Nili. "Effect of Silicon Nutrition on Oxidative Stress Induced by Phytophthora melonis Infection in Cucumber." Plant Disease 95, no. 4 (2011): 455–60. http://dx.doi.org/10.1094/pdis-05-10-0379.

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The effect of silicon nutrition on root rot of cucumber caused by Phytophthora melonis was studied in a greenhouse experiment. Two cucumber cultivars (Cucumis sativus ‘Dominus’ and ‘Super Dominus’) fertilized with three concentrations of Si (0.0, 1.0, and 1.7 mM Si in the form of sodium silicate) were not inoculated or were inoculated with P. melonis. The P. melonis isolate significantly decreased root dry weights, although the magnitude of growth reduction varied with cultivar and Si concentration. Silicon nutrition at either concentration significantly reduced disease severity relative to th
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3

Patyka, Volodymyr, Hanna Tsekhmister, Yevhenii Kopylov, et al. "Histological Change in Cucumber Tissue and Cellulase Activity of Plectosphaerella melonis Strain 502." Applied Sciences 12, no. 10 (2022): 5085. http://dx.doi.org/10.3390/app12105085.

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In the last ten years, many countries around the world recorded a new disease of the Cucurbitaceae, the agent of which was P. melonis. The ability of P. melonis 502 to form intracellular mycelium in the epidermal and parenchymal tissues of roots was shown. Leading tissues (xylem and phloem) did not colonize, which indicates the impossibility of plant vessel clogging and shows the fungus’s biochemical effects on plants, which causes the process of pathogenesis. P. melonis 502 is able to develop in a wide range of pH values, while the pH-optimum is 8.5. P. melonis 502 is able to adjust the pH of
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4

KOPILOV, Evgeniy, Hanna TSEKHMISTER, Olena NADKERNYCHNA, and Anna KYSLYNSKA. "Identification of Plectosphaerella melonis from cucumber plants in Ukraine." Phytopathologia Mediterranea 60, no. 2 (2021): 259–63. http://dx.doi.org/10.36253/phyto-12612.

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A fungus was isolated from diseased roots of Cucumis sativus grown in greenhouses. The morphological and cultural characteristics of the isolate allowed it to be classified as Plectosphaerella melonis. BLASTn analysis revealed 99% homology of the ITS sequence from the isolate with 14 Acremonium cucurbitacearum and P. melonis isolates, allowing attribution of the isolate to P. melonis (syn. A. cucurbitacearum). Koch’s hypothesis requirements were fulfilled for the isolate. Symptoms on host roots developed after 14 d of growing cucumber plants on infested soil. Plants of the cucumber variety Niz
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5

Hasenfratz, Adam P., Ralf Schiebel, David J. R. Thornalley, et al. "Mg/Ca-temperature calibration for the benthic foraminifera Melonis barleeanum and Melonis pompilioides." Geochimica et Cosmochimica Acta 217 (November 2017): 365–83. http://dx.doi.org/10.1016/j.gca.2017.08.038.

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6

Tsekhmister, H. V., and А. S. Kyslynska. "Plectosphaerella melonis (Syn. Acremonium cucurbitacearum) — Plant Pathogenic Organism." Mikrobiolohichnyi Zhurnal 84, no. 3 (2022): 92–100. http://dx.doi.org/10.15407/microbiolj84.03.092.

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Fungal diseases cause signifi cant damage to agriculture. Plectosphaerella melonis (syn. Acremonium cucurbitacearum and Nodulisporium melonis) is a pathogen of cultivated plant diseases in Spain, Italy, Japan, USA, Egypt, and Ukraine. This review discusses the main results of research related to this phytopathogen. By morphological and cultural features, P. melonis is a morphologically intermediate species between A. strictum and A. charticola, however, 5.8S-ITS regionbased phylogenetic analysis showed that P. melonis is a monophyletic taxon more closely related to Plectosphaerella than to oth
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7

Altinok, Hacer H., and Murat Dikilitas. "Antioxydant response to biotic and abiotic inducers for the resistance against fusarium wilt disease in eggplant (solanum melongena l.)." Acta Botanica Croatica 73, no. 1 (2014): 107–20. http://dx.doi.org/10.2478/botcro-2013-0014.

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Abstract Acibenzolar-S-methyl as an abiotic plant activator and a non-host isolate of Fusarium oxysporum on eggplant (F. oxysporum f. sp. melonis) as a biotic inducer were applied to eggplant seedlings in order to confer increased resistance to F. oxysporum f. sp. melongenae, the causal agent of Fusarium wilt of eggplant. Acibenzolar-S-methyl and F. oxysporum f. sp. melonis were applied 72 h before pathogen inoculation and the development of disease symptoms was assessed with a Fusarium yellow rating at 7th, 11th, 14th, 17th and 21th day after inoculation. Pretreatment of eggplants with Aciben
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8

Chikh-Rouhou, Hela, Rafael González-Torres, José María Alvarez, and Ali Oumouloud. "Screening and Morphological Characterization of Melons for Resistance to Fusarium oxysporum f.sp. melonis Race 1.2." HortScience 45, no. 7 (2010): 1021–25. http://dx.doi.org/10.21273/hortsci.45.7.1021.

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A total of 110 melon accessions with different geographical origins (18 countries) were screened for resistance to Fusarium oxysporum f.sp. melonis race 1.2 (pathotypes 1.2Y and 1.2W) using two artificial inoculation procedures. Twelve accessions showed some resistance to one or both strains. Three Japanese accessions, Shiro Uri Okayama (var. conomon), Kogane Nashi Makuwa, and C-211 (var. makuwa), and a Portuguese accession, BG-5384 (var. cantalupensis), showed the highest levels of resistance to both strains. The remaining eight accessions (all var. inodorus) had some level of partial resista
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9

Livi, Massimiliano, and Christian Jansen. "Giorgia Meloni und der Rechtsruck in Italien: Eine Analyse fünf Monate nach der Wahl." Leviathan 51, no. 2 (2023): 169–85. http://dx.doi.org/10.5771/0340-0425-2023-2-169.

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Der Artikel analysiert die Leistung von Italiens Ministerpräsidentin Giorgia Meloni, Vorsitzende der Partei Fratelli dʼItalia, nach fünf Monaten im Amt. Die kritische Haltung des Landes gegenüber Europa und der Wunsch nach einer starken Führungspersönlichkeit spiegeln einen allgemeinen Trend der konservativen und autoritären Nostalgie in ganz Europa wider. Ethnonationalismus, antiliberaler Katholizismus, Ressentiments gegen Politiker:innen und Antikapitalismus prägen die Entscheidungen vieler Wähler:innen. Trotz aller Bedenken bleibt Italien eine parlamentarische Demokratie mit stabilen Instit
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10

Elsayed, S., and K. Zhang. "Bacteremia Caused by Janibacter melonis." Journal of Clinical Microbiology 43, no. 7 (2005): 3537–39. http://dx.doi.org/10.1128/jcm.43.7.3537-3539.2005.

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11

Marasabessy, Ahmad, Anis Herliyati Mahsunah, Dyah Noor Hidayati, Panca Wahyudi Soekarno, and Edy Marwanta. "Improved xanthan gum production by a newly Xanthomonas melonis: A promising biopolymer for drilling fluids." International Journal of Innovative Research and Scientific Studies 8, no. 2 (2025): 2530–42. https://doi.org/10.53894/ijirss.v8i2.5732.

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This study investigates xanthan gum production using bacterial strains isolated from plants. Bacteria were screened from local plant sources, fermentation conditions were optimized, and the viscosity of the produced xanthan gum was evaluated for oil drilling applications. A total of 27 bacterial strains were isolated from yellow pumpkin leaves, wild grape leaves, and the bark resin of the red water guava tree. Four strains with high gum viscosity were identified: Xanthomonas melonis LBU-4, X. melonis LBU-8, X. sacchari AGR-5, and Sphingomonas panni LBU-7. Shaken flask fermentation using differ
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12

Srivastava, Subodh K., Z. Gloria Abad, Leandra M. Knight, Kurt Zeller, Vessela Mavrodieva, and Mark Nakhla. "Draft Genome Resource for the Ex-types of Phytophthora ramorum, P. kernoviae, and P. melonis, Species of Regulatory Concern, Using Ultra–Long Read MinION Nanopore Sequencing." Molecular Plant-Microbe Interactions® 33, no. 6 (2020): 794–97. http://dx.doi.org/10.1094/mpmi-12-19-0342-a.

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Phytophthora ramorum, P. kernoviae, and P. melonis are each species of current regulatory concern in the United States, the United Kingdom, and other areas of the world. Ex-type material are cultures and duplicates of the type that was used to describe each species and that are deposited in additional culture collections. Using these type specimens as references is essential to designing correct molecular identification and diagnostic systems. Here, we report a whole genome sequence for the Ex-type material of P. ramorum, P. kernoviae, and P. melonis generated using high-throughput sequencing
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13

Tsekhmister, H., E. Kopilov,, O. Nadkernychna, and A. Kyslynska. "Phylogeny of Plectosphaerella melonis strain 502 and varietal sensitivity of cucumber plants." Agricultural Science and Practice 9, no. 1 (2022): 3–14. http://dx.doi.org/10.15407/agrisp9.01.003.

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Aim. To investigate the phylogenetic relations of P. melonis strain 502 and to study the varietal sensitivity of cu- cumber plants to P. melonis strain 502. Methods. DNA was extracted using the enzymatic lysis buffer. The PCR was conducted following White et al. protocol (1990). The obtained PCR-products were determined by sequencing on the automatic capillary sequencer Applied Biosystems ABI Prism 3130. The sequence of the gene 5.8S rRNA of P. melonis strain 502 was compared to the sequences from the GenBank database using the BLAST analysis. The phy- logenetic analysis was conducted by the n
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14

Perchepied, L., and M. Pitrat. "Polygenic Inheritance of Partial Resistance to Fusarium oxysporum f. sp. melonis Race 1.2 in Melon." Phytopathology® 94, no. 12 (2004): 1331–36. http://dx.doi.org/10.1094/phyto.2004.94.12.1331.

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Fusarium oxysporum f. sp. melonis is responsible for Fusarium wilt of melon. Race 1.2 strains overcome two dominant resistance genes (Fom-1 and Fom-2) and are further divided into two types depending on the symptoms they cause, yellowing or wilting. Partial resistance to F. oxysporum f. sp. melonis race 1.2 was studied by using a recombinant inbred line (RIL) population that was developed by single seed descent from an F1 hybrid between ‘Isabelle’, a partially resistant line, and a susceptible line, ‘Védrantais’. Artificial inoculations were performed with a yellowing strain (TST) and a wiltin
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15

Zuniga, T. L., T. A. Zitter, T. R. Gordon, D. T. Schroeder, and D. Okamoto. "Characterization of Pathogenic Races of Fusarium oxysporum f. sp. melonis Causing Fusarium Wilt of Melon in New York." Plant Disease 81, no. 6 (1997): 592–96. http://dx.doi.org/10.1094/pdis.1997.81.6.592.

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Forty-six isolates of Fusarium oxysporum f. sp. melonis obtained from soil samples throughout melon-producing areas in New York State were identified on the basis of pathogenicity and colony morphology. Physiological races 1 and 2 were identified by their reaction on a set of differential melon cultivars. Race 1 was widely distributed, occurring in six of the seven New York counties surveyed. Twenty-seven of the 28 race 1 isolates were associated with vegetative compatibility group (VCG) 0134, whereas one was incompatible with all known VCGs of F. oxysporum f. sp. melonis. Twelve out of 18 rac
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16

Cohen, R., C. Horev, Y. Burger, et al. "Horticultural and Pathological Aspects of Fusarium Wilt Management Using Grafted Melons." HortScience 37, no. 7 (2002): 1069–73. http://dx.doi.org/10.21273/hortsci.37.7.1069.

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The effect of Cucurbita and melon rootstocks on the horticultural and pathological performance of grafted Fusarium-susceptible melons was studied in four field experiments conducted in Fusarium-infested and Fusarium-free soils. The melon/melon combinations performed better than the melon/Cucurbita combinations regarding yield and disease control. In the 1999 experiment conducted in infested soil, Fusarium wilt symptoms were observed only in the nongrafted susceptible melons whereas all grafted combinations were symptom-free. In the 2000 experiment, nongrafted susceptible melons were totally wi
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17

Jacobson, D. J., and T. R. Gordon. "Further investigations of vegetative compatibility within Fusarium oxysporum f.sp. melonis." Canadian Journal of Botany 68, no. 6 (1990): 1245–48. http://dx.doi.org/10.1139/b90-157.

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One hundred and nineteen strains of Fusarium oxysporum f.sp. melonis were characterized by virulence and vegetative compatibility. One hundred and seven strains were placed in four previously reported vegetative compatibility groups: 0130, 0131, 0133, and 0134. Four strains were placed in three new vegetative compatibility groups, and the remaining eight strains were vegetatively self-incompatible. Two of the three new vegetative compatibility groups shared similar geographic origins and distribution with two previously reported vegetative compatibility groups; the third represented a more iso
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18

Sumarni, E., L. Soesanto, Okti Herliana, et al. "Identification of main fungal disease from hydroponic melon in greenhouse." Proceeding ICMA-SURE 2, no. 1 (2023): 213. http://dx.doi.org/10.20884/2.procicma.2023.2.1.7920.

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Hydroponic melon is a method of cultivating melons and grown in a greenhouse. The melon cultivation has problems, namely plant diseases, even in a closed greenhouse. The melon plant disease caused huge losses in melon cultivation until the melon plants died. The purpose of this descriptive study was to identify the cause of the melon plant disease. Samples of sick melon plants were taken and grown on PDA media in the laboratory. The fungus that grows is identified based on the literature. The identification results showed that the main disease causing hydroponic melon plants in the greenhouse
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19

Kang, Yunyan, Jiale Tong, Wei Liu, et al. "Comprehensive Analysis of Major Latex-Like Protein Family Genes in Cucumber (Cucumis sativus L.) and Their Potential Roles in Phytophthora Blight Resistance." International Journal of Molecular Sciences 24, no. 1 (2023): 784. http://dx.doi.org/10.3390/ijms24010784.

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Major latex-like proteins (MLPs) play crucial roles in abiotic and biotic stresses. However, little was known about this gene family in cucumbers. In this study, a total of 37 putative cucumber MLP genes were identified on a genome-wide level and classified into three groups by sequence homologous comparison with Arabidopsis thaliana. Chromosome mapping suggested that only tandem duplication occurred in evolution. The multiple regulatory cis-elements related to stress, hormone, light and growth response were found in the promoter region of these CsMLP genes, indicating that CsMLPs might be wid
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20

Haegi, Anita, Valentina Catalano, Laura Luongo, et al. "A Newly Developed Real-Time PCR Assay for Detection and Quantification of Fusarium oxysporum and Its Use in Compatible and Incompatible Interactions with Grafted Melon Genotypes." Phytopathology® 103, no. 8 (2013): 802–10. http://dx.doi.org/10.1094/phyto-11-12-0293-r.

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A reliable and species-specific real-time quantitative polymerase chain reaction (qPCR) assay was developed for detection of the complex soilborne anamorphic fungus Fusarium oxysporum. The new primer pair, designed on the translation elongation factor 1-α gene with an amplicon of 142 bp, was highly specific to F. oxysporum without cross reactions with other Fusarium spp. The protocol was applied to grafted melon plants for the detection and quantification of F. oxysporum f. sp. melonis, a devastating pathogen of this cucurbit. Grafting technologies are widely used in melon to confer resistance
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21

Sánchez-Montesinos, Brenda, Mila Santos, Alejandro Moreno-Gavíra, Teresa Marín-Rodulfo, Francisco J. Gea, and Fernando Diánez. "Biological Control of Fungal Diseases by Trichoderma aggressivum f. europaeum and Its Compatibility with Fungicides." Journal of Fungi 7, no. 8 (2021): 598. http://dx.doi.org/10.3390/jof7080598.

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Our purpose was to evaluate the ability of Trichoderma aggressivum f. europaeum as a biological control agent against diseases from fungal phytopathogens. Twelve isolates of T. aggressivum f. europaeum were obtained from several substrates used for Agaricus bisporus cultivation from farms in Castilla-La Mancha (Spain). Growth rates of the 12 isolates were determined, and their antagonistic activity was analysed in vitro against Botrytis cinerea, Sclerotinia sclerotiorum, Fusarium solani f. cucurbitae, Pythium aphanidermatum, Rhizoctonia solani, and Mycosphaerella melonis, and all isolates had
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22

Bhavya, R., N. Thammaiah, V. Devappa, K. M. Indiresh, and J. Jayappa. "Physiological studies of Fusarium oxysporum f. sp. melonis." International Journal of Current Microbiology and Applied Sciences 8, no. 11 (2019): 536–44. http://dx.doi.org/10.20546/ijcmas.2019.811.066.

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23

Veloso, M. M., E. M. P. F. Melo, M. L. Jorge-Silva, and M. A. Bravo. "Genetic diversity in Fusarium oxysporum f. sp. melonis." EPPO Bulletin 30, no. 2 (2000): 195–97. http://dx.doi.org/10.1111/j.1365-2338.2000.tb00878.x.

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24

PhD, Danijela Vukadinovic, Gerrit Polder PhD, and Gert –Jan Swinkels. "Automated Detection of Mycosphaerella Melonis Infected Cucumber Fruits." IFAC-PapersOnLine 49, no. 16 (2016): 105–9. http://dx.doi.org/10.1016/j.ifacol.2016.10.020.

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25

Al-Khazraji, Nizar Khalaf, and Saleh Ismaeel. "A Study on Watermelon Wilt Caused by Fusarium oxysporum f. sp. melonis and Macrophomina phaseolina and its Control." Arab Journal for Plant Protection 39, no. 2 (2021): 85–95. http://dx.doi.org/10.22268/ajpp-39.2.085095.

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26

Gwynne, B. J., T. R. Gordon, and R. M. Davis. "A New Race of Fusarium oxysporum f. sp. melonis Causing Fusarium Wilt of Muskmelon in the Central Valley of California." Plant Disease 81, no. 9 (1997): 1095. http://dx.doi.org/10.1094/pdis.1997.81.9.1095a.

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In 1996, cantaloupe (Cucumis melo L. cv. Durango) vines in two fields exhibited wilt, vascular discoloration, and necrotic streaks on the stems. Fusarium oxysporum Schlechtend.:Fr. was isolated from the stems of vines from both fields. One isolate from each field was compared with known isolates of F. oxysporum f. sp. melonis (Leach & Currence) W.C. Snyder & H.N. Hansen races 1 and 2 in a differential host range experiment in the greenhouse. Three-week-old seedlings were root-dip inoculated with monoconidial isolates at a concentration of 5 × 105 spores per ml. Control plants were dipp
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27

Xu, Xiaomei, Rui Wang, Juan Chao, et al. "The expression patterns of Cucumis sativus WRKY (CsWRKY) family under the condition of inoculation with Phytophthora melonis in disease resistant and susceptible cucumber cultivars." Canadian Journal of Plant Science 95, no. 6 (2015): 1121–31. http://dx.doi.org/10.4141/cjps-2014-403.

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Xu, X., Wang, R., Chao, J., Lin, Y., Jin, Q., He, X., Luo, S. and Wu, T. 2015. The expression patterns of Cucumis sativus WRKY (CsWRKY) family under the condition of inoculation with Phytophthora melonis in disease resistant and susceptible cucumber cultivars. Can. J. Plant Sci. 95: 1121–1131. Based on RNA-seq, we analyzed expression patterns of 55 CsWRKYs in the disease-resistant cultivar (JSH) and the disease-susceptible cucumber cultivar (B80) at 0 and 40 h post-inoculation with Phytophthora melonis. After inoculation with P. melonis, in JSH and B80, the number of up-regulated CsWRKY genes
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28

Ho, H. H. "Phytophthora Melonis and P. Sinensis Synonymous with P. Drechsleri." Mycologia 78, no. 6 (1986): 907–12. http://dx.doi.org/10.1080/00275514.1986.12025348.

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Ho, H. H. "Phytophthora melonis and P. sinensis Synonymous with P. drechsleri." Mycologia 78, no. 6 (1986): 907. http://dx.doi.org/10.2307/3807429.

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30

SUAREZESTRELLA, F. "Survival of Fusarium oxysporum f.sp. melonis on plant waste." Crop Protection 23, no. 2 (2004): 127–33. http://dx.doi.org/10.1016/j.cropro.2003.07.006.

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Chikh-Rouhou, Hela, Rafika Sta-Baba, Chadha Ayed, Sabeh Belgacem, Naima Boughalleb, and Mejda Cherif. "Physiological races of Fusarium oxysporum f.sp. melonis in Tunisia." Phytoparasitica 41, no. 5 (2013): 593–96. http://dx.doi.org/10.1007/s12600-013-0321-1.

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32

Sadeghpour, Neda, Hossein Ali Asadi-Gharneh, Mehdi Nasr-Esfahani, Hamed Hassanzadeh Khankahdani, and Maryam Golabadi. "<i>Corrigendum to</i>: Assessing genetic diversity and population structure of Iranian melons (<i>Cucumis melo</i>) collection using primer pair markers in association with resistance to Fusarium wilt." Functional Plant Biology 50, no. 5 (2023): 434. http://dx.doi.org/10.1071/fp22131_co.

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We evaluated genetic diversity and population structure of Iranian melons (&lt;i&gt;Cucumis melo&lt;/i&gt; L.) using combinations of 35 primer pairs: 15 Simple-Sequence-Repeats (SSR); 10 Inter-Simple-Sequence-Repeats (ISSR); and 10 Sequence-related amplified polymorphism (SRAP) markers in association with resistance to melon Fusarium wilt, caused by &lt;i&gt;Fusarium oxysporum&lt;/i&gt; f. sp. &lt;i&gt;melonis&lt;/i&gt; (&lt;i&gt;FOM&lt;/i&gt;). Genetic similarity was determined by simple matching coefficient (SSM) and dendrogram by clustering-analysis with unweighted pair groups using arithme
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33

Ficcadenti, N., S. Sestili, S. Annibali, et al. "Resistance to Fusarium oxysporum f. sp. melonis Race 1,2 in Muskmelon Lines Nad-1 and Nad-2." Plant Disease 86, no. 8 (2002): 897–900. http://dx.doi.org/10.1094/pdis.2002.86.8.897.

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Of seven doubled-haploid melon lines parthenogenetically originated using irradiated pollen, two lines, Nad-1 and Nad-2, were selected for resistance to Fusarium wilt after successive inoculations with F. oxysporum f. sp. melonis race 1,2w virulent isolate. Nad-1 and Nad-2 were compared with the commercial hybrids and with the parent cvs. Isabelle and Giallo di Paceco. Evaluation of germplasm extended over a 2-year period showed a higher resistance of Nad-1 and Nad-2 plants to Fusarium oxysporum f. sp. melonis race 1,2 than other genotypes tested in this study. The resistance expressed in the
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Çetin, Ayşe Nur. "Determination of Resistance Levels to Fusarium Oxysporum f. sp. Melonis and ZYMV and Homogeneity in Some Melon Genotypes." Alinteri Journal of Agricultural Sciences 36, no. 1 (2021): 01–06. http://dx.doi.org/10.47059/alinteri/v36i1/ajas21001.

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35

Gladding, Jody. "Tasteless Melons (Melones Insipidi)." Chicago Review 44, no. 2 (1998): 27. http://dx.doi.org/10.2307/25304277.

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36

Ballinas-Cano, Roney, Javie Farias-Larios, Mario Orozco-Santos, J. Gerardo López-Aguirre*, and Emilio Sánchez-Arevalo. "Effect of Different Heat Periods on Fusarium oxysporum f. sp. melonis Survival and Viability." HortScience 39, no. 4 (2004): 803B—803. http://dx.doi.org/10.21273/hortsci.39.4.803b.

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Soil solarization is used for soil born pathogens control, as a result of temperature increase in soil, around 10 °C higher than in not solarized soils. In Mexico, is mostly used to decrease cost to control of different diseases that affect to melon crop, one of them is caused by Fusarium oxysporum f. sp. melonis (L &amp; C) Snyder &amp; Hansen, which is characterized by wilt and yellowing in melon plants. The objective of this assay was to evaluate the effect of heat on infective capacity of F. oxysporum f. sp. melonis in melon plants and its reproduction capacity after to be under different
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Mirtalebi, Maryam, Zia Banihashemi, and Celeste C. Linde. "Phylogenetic relationships of Fusarium oxysporum f. sp. melonis in Iran." European Journal of Plant Pathology 136, no. 4 (2013): 749–62. http://dx.doi.org/10.1007/s10658-013-0204-9.

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Khuna, Surapong, Jaturong Kumla, Tanapol Thitla, Wipornpan Nuangmek, Saisamorn Lumyong, and Nakarin Suwannarach. "Morphology, Molecular Identification, and Pathogenicity of Two Novel Fusarium Species Associated with Postharvest Fruit Rot of Cucurbits in Northern Thailand." Journal of Fungi 8, no. 11 (2022): 1135. http://dx.doi.org/10.3390/jof8111135.

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Fruit rot of cucurbits caused by several pathogenic fungi has become an important postharvest disease worldwide. In 2022, fruit rot on watermelon (Citrullus lanatus) and muskmelon (Cucumis melo) was observed during the postharvest storage phase in the Chiang Mai and Phitsanulok Provinces of northern Thailand. These diseases can lead to significant economic losses. This present study was conducted to isolate the causal agent of fungi in lesions of fruit rot. A total of four fungal isolates were obtained, of which two isolates (SDBR-CMU422 and SDBR-CMU423) were obtained from rot lesions of water
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Alvarez, José María, Rafael González-Torres, Cristina Mallor, and María Luisa Gómez-Guillamón. "Potential Sources of Resistance to Fusarium Wilt and Powdery Mildew in Melons." HortScience 40, no. 6 (2005): 1657–60. http://dx.doi.org/10.21273/hortsci.40.6.1657.

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In total, 139 Cucumis melo accessions were evaluated for resistance to races 0, 1, and 2 of Fusarium oxysporum fsp. melonis and 127 accessions were evaluated for resistance to races 1 and 2 of Sphaerotheca fuliginea. In addition, seven C. melo wild relatives were also tested. Artificial inoculations were performed and plants were scored for presence or absence of symptoms. The screening revealed that sources of natural resistance to these fungi are limited. However, several sources of resistance were found in C. melo accessions. Thus, the accession `CUM-334' from Tajikistan has shown resistanc
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de Cara, M., E. J. Fernández, R. Blanco, J. C. Tello Marquina, F. J. Estrada, and S. Montoya. "Detection of Fusarium oxysporum f. sp. melonis Race 1 in Soil in Colima State, Mexico." Plant Disease 88, no. 12 (2004): 1383. http://dx.doi.org/10.1094/pdis.2004.88.12.1383c.

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During the winters of 2002 and 2003, a wilt occurred in melons cultivated on 1,500 ha in Colima State, Mexico. Yield losses reached 25% of final production, despite soil disinfestation with 60% methyl bromide and 40% chloropicrin. On the basis of the observation of plants with necrotic xylem, yellowing, and wilting of leaves, this disease was identified provisionally as Fusarium wilt. During February 2003, four soil samples from affected fields were plated onto a Fusarium-selective medium (1), which resulted in the detection of 2,260 ± 357, 179 ± 76, 668 ± 357, and 1,391 ± 256 CFU/g of F. oxys
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41

Schreuder, W., S. C. Lamprecht, and G. Holz. "Race Determination and Vegetative Compatibility Grouping of Fusarium oxysporum f. sp. melonis from South Africa." Plant Disease 84, no. 3 (2000): 231–34. http://dx.doi.org/10.1094/pdis.2000.84.3.231.

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Isolates of Fusarium oxysporum f. sp. melonis (72 total) obtained from 30 fields in 17 melonproducing regions in South Africa were race typed, using differential cvs. CM 17187, Doublon, Perlita, and Topmark, and grouped on the basis of vegetative compatibility. Fifty-four isolates were identified as race 0, eight as race 1, and ten as race 2. Race 0 occurred in 15 of 17 regions, whereas race 1 was sporadically recovered. Race 2 was obtained from only four fields located in one geographic region. Perlita plants (carrying the gene Fom3) inoculated with local isolates of races 0 and 2 and referen
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42

Ham, Seong-Hun, Hae-Yeon Jeong, Eun-Young Song, and Eun-Chul Lim. "2 Case-Reports on Taeumin Patients with Vertigo Using Melonis Pedicelus." Journal of Sasang Constitutional Medicine 24, no. 3 (2012): 114–22. http://dx.doi.org/10.7730/jscm.2012.24.3.114.

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Ahmad, Aqeel, Waheed Akram, Rui Wang, et al. "Pathogenicity factors of Phytophthora melonis revealed by comparative proteomics." Journal of Plant Interactions 17, no. 1 (2022): 183–97. http://dx.doi.org/10.1080/17429145.2021.2014581.

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Netzer, D. "Race 2 of Fusarium oxysporum f. sp. melonis New to Israel." Plant Disease 73, no. 2 (1989): 183. http://dx.doi.org/10.1094/pd-73-0183b.

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NAMIKI, Fumio, Kanji SHIMIZU, Kyoko SATOH, et al. "Occurrence of Fusarium oxysporum f. sp. melonis Race 1 in Japan." Journal of General Plant Pathology 66, no. 1 (2000): 12–17. http://dx.doi.org/10.1007/pl00012915.

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Denisov, Youlia, Oded Yarden, and Stanley Freeman. "Impaired purine biosynthesis affects pathogenicity of Fusarium oxysporum f. sp. melonis." European Journal of Plant Pathology 112, no. 3 (2005): 293–97. http://dx.doi.org/10.1007/s10658-005-2771-x.

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Arreola-Cruz, Irma A., Rosalba Troncoso-Rojas, Francisco Vásquez-Lara, Nina G. Heredia-Sandoval та Alma R. Islas-Rubio. "Production of an Extract with β-1,4-Xylanase Activity by Fusarium oxysporum f. sp. melonis on a Sonicated Brewer’s Spent Grain Substrate". Fermentation 11, № 1 (2025): 42. https://doi.org/10.3390/fermentation11010042.

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The Fusarium oxysporum species commonly found in soil include plant and human pathogens, and nonpathogenic species. F. oxysporum grown on lignocellulosic substrates under submerged conditions produces an extracellular enzyme profile with hemicellulolytic and cellulolytic activities. Our aim was to produce an extract of Fusarium oxysporum f. sp. melonis with β-1,4-xylanase activity after fermentation on a Brewers’ spent grain (BSG)-containing substrate. We prepared the BSG substrate, with or without sonication, for the submerged fermentation of Fusarium oxysporum previously isolated from local
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Ahmad, Aqeel, Waheed Akram, Zoobia Bashir, et al. "Functional and Structural Analysis of a Novel Acyltransferase from Pathogenic Phytophthora melonis." ACS Omega 6, no. 3 (2021): 1797–808. http://dx.doi.org/10.1021/acsomega.0c03186.

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Wang, Yan-Fen, Fang-Min Hao, Huan-Huan Zhou, et al. "Exploring Potential Mechanisms of Fludioxonil Resistance in Fusarium oxysporum f. sp. melonis." Journal of Fungi 8, no. 8 (2022): 839. http://dx.doi.org/10.3390/jof8080839.

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Melon Fusarium wilt (MFW), which is caused by Fusarium oxysporum f. sp. melonis (FOM), is a soil-borne disease that commonly impacts melon cultivation worldwide. In the absence of any disease-resistant melon cultivars, the control of MFW relies heavily on the application of chemical fungicides. Fludioxonil, a phenylpyrrole fungicide, has been shown to have broad-spectrum activity against many crop pathogens. Sensitivity analysis experiments suggest that fludioxonil has a strong inhibitory effect on the mycelial growth of FOM isolates. Five fludioxonil-resistant FOM mutants were successfully ge
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Ham, Seong-Hun, Hae-Yeon Jeong, Sung-Jin Lee, and Eun-Chul Lim. "A Case-Report on Taeeumin Patient with Essential Tremor using Melonis Pedicelus." Journal of Sasang Constitutional Medicine 25, no. 3 (2013): 254–63. http://dx.doi.org/10.7730/jscm.2013.25.3.254.

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