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Journal articles on the topic 'Ceratocystis platani'

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Published: 10 March 2023

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1

Modafar, C. El, A. Clérivet, and J. J. Macheix. "Flavan accumulation in stems of Platanus × acerifolia seedlings inoculated with Ceratocystis fimbriata f.sp. platani, the canker stain disease agent." Canadian Journal of Botany 74, no. 12 (December 1, 1996): 1982–87. http://dx.doi.org/10.1139/b96-237.

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Inoculation of Platanus × acerifolia stems with Ceratocystis fimbriata f.sp. platani, the canker stain disease agent, induced the accumulation of preexisting phenolic compounds such as flavan-3-ols and proanthocyanidins in the infected internode of the stem. These flavan compounds and their polymerized products were most quickly accumulated near the inoculation site, particularly in the medulla, vascular tissues, tyloses, and gels. Thus, these plane tree reactions were considered as defensive responses. Their involvement in the restriction of Ceratocystis fimbriata f.sp. platani development around the inoculation site, associated with other located responses previously described, was discussed. Keywords: Ceratocystis fimbriata, flavan-3-ols, Platanus × acerifolia, proanthocyanidins.
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2

Brunetti, Angela, Kurt Heungens, Jacqueline Hubert, Renaud Ioos, Gian Luca Bianchi, Francesca De Amicis, Anne Chandelier, et al. "Interlaboratory Performance of a Real-Time PCR Method for Detection of Ceratocystis platani, the Agent of Canker Stain of Platanus spp." Journal of Fungi 8, no. 8 (July 26, 2022): 778. http://dx.doi.org/10.3390/jof8080778.

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Ceratocystis platani (CP), an ascomycetous fungus, is the agent of canker stain, a lethal vascular disease of Platanus species. Ceratocystis platani has been listed as a quarantine pest (EPPO A2 list) due to extensive damage caused in Southern Europe and the Mediterranean region. As traditional diagnostic assays are ineffective, a Real-Time PCR detection method based on EvaGreen, SYBR Green, and Taqman assays was previously developed, validated in-house, and included in the official EPPO standard PM7/14 (2). Here, we describe the results of a test performance study performed by nine European laboratories for the purpose of an interlaboratory validation. Verification of the DNA extracted from biological samples guaranteed the high quality of preparations, and the stability and the homogeneity of the aliquots intended for the laboratories. All of the laboratories reproduced nearly identical standard curves with efficiencies close to 100%. Testing of blind-coded DNA extracted from wood samples revealed that all performance parameters—diagnostic sensitivity, diagnostic specificity, accuracy and reproducibility—were best fit in most cases both at the laboratory and at the assay level. The previously established limit of detection, 3 fg per PCR reaction, was also validated with similar excellent results. The high interlaboratory performance of this Real-Time PCR method confirms its value as a primary tool to safeguard C. platani-free countries by way of an accurate monitoring, and to investigate the resistance level of potentially canker stain-resistant Platanus genotypes.
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3

Bernardi, R., I. Baccelli, L. Carresi, C. Comparini, L. Pazzagli, and A. Scala. "Cerato-platanin elicits transcription of defence-related genes earlier than Ceratocystis platani on Platanus acerifolia." Forest Pathology 41, no. 4 (June 23, 2010): 255–61. http://dx.doi.org/10.1111/j.1439-0329.2010.00668.x.

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4

Luchi, Nicola, Luisa Ghelardini, Lassaâd Belbahri, Marion Quartier, and Alberto Santini. "Rapid Detection of Ceratocystis platani Inoculum by Quantitative Real-Time PCR Assay." Applied and Environmental Microbiology 79, no. 17 (June 28, 2013): 5394–404. http://dx.doi.org/10.1128/aem.01484-13.

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ABSTRACTCeratocystis plataniis the causal agent of canker stain of plane trees, a lethal disease able to kill mature trees in one or two successive growing seasons. The pathogen is a quarantine organism and has a negative impact on anthropogenic and natural populations of plane trees. Contaminated sawdust produced during pruning and sanitation fellings can contribute to disease spread. The goal of this study was to design a rapid, real-time quantitative PCR assay to detect aC. plataniairborne inoculum. Airborne inoculum traps (AITs) were placed in an urban setting in the city of Florence, Italy, where the disease was present. Primers and TaqMan minor groove binder (MGB) probes were designed to target cerato-platanin (CP) and internal transcribed spacer 2 (ITS2) genes. The detection limits of the assay were 0.05 pg/μl and 2 fg/μl of fungal DNA for CP and ITS, respectively. Pathogen detection directly from AITs demonstrated specificity and high sensitivity forC. platani, detecting DNA concentrations as low as 1.2 × 10−2to 1.4 × 10−2pg/μl, corresponding to ∼10 conidia per ml. Airborne inoculum traps were able to detect theC. plataniinoculum within 200 m of the closest symptomatic infected plane tree. The combination of airborne trapping and real-time quantitative PCR assay provides a rapid and sensitive method for the specific detection of aC. plataniinoculum. This technique may be used to identify the period of highest risk of pathogen spread in a site, thus helping disease management.
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5

Grosclaude, C., R. Olivier, J. C. Pizzuto, Corinne Romiti, and Sylvie Madec. "Détection par piégeage du Ceratocystis fimbriata f. platani." European Journal of Forest Pathology 18, no. 7 (December 1988): 385–90. http://dx.doi.org/10.1111/j.1439-0329.1988.tb00226.x.

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6

Clerivet, A., and C. Modafar. "Vascular modifications in Platanus acerifolia seedlings inoculated with Ceratocystis fimbriata f. sp. platani." Forest Pathology 24, no. 1 (March 1994): 1–10. http://dx.doi.org/10.1111/j.1439-0329.1994.tb01317.x.

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7

Lehtijärvi, A., F. Oskay, H. T. Doğmuş Lehtijärvi, A. G. Aday Kaya, F. Pecori, A. Santini, and S. Woodward. "Ceratocystis platani is killing plane trees in Istanbul (Turkey)." Forest Pathology 48, no. 1 (August 1, 2017): e12375. http://dx.doi.org/10.1111/efp.12375.

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8

Ocasio-Morales, Roberto G., Panaghiotis Tsopelas, and Thomas C. Harrington. "Origin of Ceratocystis platani on Native Platanus orientalis in Greece and Its Impact on Natural Forests." Plant Disease 91, no. 7 (July 2007): 901–4. http://dx.doi.org/10.1094/pdis-91-7-0901.

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Canker stain of plane tree recently was reported in a small area of southwestern Greece on natural populations of the important riparian species, oriental plane tree, Platanus orientalis. The fungus Ceratocystis platani (= C. fimbriata f. platani) was successfully isolated from infected, stained wood of 15 dead or dying trees on the Peloponnese Peninsula. Genetic analyses of these 15 isolates from Greece, using nuclear and mitochondrial DNA fingerprints, showed the fungus to be identical to the genotype reported from Italy, France, and Switzerland. A polymerase chain reaction-based microsatellite analysis of eight polymorphic loci discovered a new microsatellite allele in one of the isolates from Greece, but this may be due to a mutation after introduction of a single strain. Earlier studies indicated that the most common European genotype had been introduced from eastern North America to Italy during World War II. The recent introduction to Greece appears to have originated from Italy, France, or Switzerland, rather than from eastern North America, where the fungus is native. The pathogen is having a dramatic impact on the natural population of P. orientalis in southwestern Greece, and containment measures should be imposed before it spreads throughout the natural range of this ecologically and historically important host.
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9

Pilotti, M., G. Di Lernia, V. Modesti, V. Lumia, and A. Brunetti. "Outcome of Ceratocystis platani inoculations in Platanus × acerifolia in relation to season and inoculum dose." iForest - Biogeosciences and Forestry 9, no. 4 (August 9, 2016): 608–17. http://dx.doi.org/10.3832/ifor1594-008.

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10

El Modafar, C., A. Clerivet, A. Fleuriet, and J. J. Macheix. "Inoculation of Platanus acerifolia with Ceratocystis fimbriata F. Sp. Platani induces scopoletin and umbelliferone accumulation." Phytochemistry 34, no. 5 (November 1993): 1271–76. http://dx.doi.org/10.1016/0031-9422(91)80014-r.

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11

Granata, G., A. Parisi, and S. O. Cacciola. "Electrophoretic protein profiles of strains of Ceratocystis fimbriata f. sp. platani." Forest Pathology 22, no. 1 (March 1992): 58–62. http://dx.doi.org/10.1111/j.1439-0329.1992.tb01336.x.

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12

Tsopelas, Panaghiotis, Alberto Santini, Michael J. Wingfield, and Z. Wilhelm de Beer. "Canker Stain: A Lethal Disease Destroying Iconic Plane Trees." Plant Disease 101, no. 5 (May 2017): 645–58. http://dx.doi.org/10.1094/pdis-09-16-1235-fe.

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In Europe, both Oriental plane and London plane trees are seriously threatened by the invasive fungal pathogen Ceratocystis platani (Walter) Engelbr. & T.C. Harr., the causal agent of canker stain disease (CSD) of plane trees. The fungus is considered to be indigenous to North America and was accidently introduced into Europe during World War II, where it continues to spread clonally. The impact of CSD in Europe can be compared with notorious tree diseases such as Dutch elm disease, chestnut blight, and more recently Ash dieback, which have all caused devastating losses to natural woody ecosystems and ornamental trees. In Italy and France, C. platani has caused widespread mortality to London plane trees and the pathogen has also been recorded in Switzerland and Spain. However, the most dramatic impact of the disease has been in Greece in natural stands of Oriental plane. The objective of this feature article is to review current knowledge regarding CSD and to highlight the dramatic and devastating nature of the disease. An important aim is also to highlight the risk of C. platani spreading northward in Europe and eastward to Asia in the natural and cultivated range of oriental and London plane.
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13

Baccelli, Ivan, Cecilia Comparini, Priscilla P. Bettini, Federica Martellini, Michelina Ruocco, Luigia Pazzagli, Rodolfo Bernardi, and Aniello Scala. "The expression of the cerato-platanin gene is related to hyphal growth and chlamydospores formation in Ceratocystis platani." FEMS Microbiology Letters 327, no. 2 (January 11, 2012): 155–63. http://dx.doi.org/10.1111/j.1574-6968.2011.02475.x.

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14

Alami, Ibtissam, Stéphane Mari, and Alain Clérivet. "A glycoprotein from Ceratocystis fimbriata f. sp. platani triggers phytoalexin synthesis in Platanus × acerifolia cell-suspension cultures." Phytochemistry 48, no. 5 (July 1998): 771–76. http://dx.doi.org/10.1016/s0031-9422(97)00892-3.

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15

Fkyerat, Abdellatif, Nicolas Burki, and Raffaele Tabacchi. "Enantioselective synthesis of 3-hydroxycitronellic acid isolated from Ceratocystis fimbriata sp. platani." Tetrahedron: Asymmetry 7, no. 7 (July 1996): 2023–28. http://dx.doi.org/10.1016/0957-4166(96)00244-3.

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16

Pazzagli, Luigia, Gianni Cappugi, Giampaolo Manao, Guido Camici, Alberto Santini, and Aniello Scala. "Purification, Characterization, and Amino Acid Sequence of Cerato-platanin, a New Phytotoxic Protein from Ceratocystis fimbriata f. sp. platani." Journal of Biological Chemistry 274, no. 35 (August 27, 1999): 24959–64. http://dx.doi.org/10.1074/jbc.274.35.24959.

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17

Vigouroux, A., and B. Stojadinovic. "Possibilités d'infection du platane par Ceratocystis fimbriata f. platani après contamination de l'eau où se développent des racines blessées." European Journal of Forest Pathology 20, no. 2 (June 1990): 118–21. http://dx.doi.org/10.1111/j.1439-0329.1990.tb01280.x.

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18

Vigouroux, A., and H. Rouhani. "Observation de sensibilités differentielles de quelques organes de Platanus acerifolia vis-à-vis de Ceratocystis fimbriata f. platani." European Journal of Forest Pathology 17, no. 3 (June 1987): 181–84. http://dx.doi.org/10.1111/j.1439-0329.1987.tb00743.x.

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19

Pilotti, M., A. Brunetti, L. Tizzani, and O. Marani. "Platanus × acerifolia genotypes surviving to inoculation with Ceratocystis platani (the agent of canker stain): first screening and molecular characterization." Euphytica 169, no. 1 (February 1, 2009): 1–17. http://dx.doi.org/10.1007/s10681-009-9884-9.

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20

FKYERAT, A., N. BURKI, and R. TABACCHI. "ChemInform Abstract: Enantioselective Synthesis of 3-Hydroxycitronellic Acid Isolated from Ceratocystis fimbriata sp. platani." ChemInform 27, no. 47 (August 4, 2010): no. http://dx.doi.org/10.1002/chin.199647180.

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21

Pilotti, Massimo, Valentina Lumia, Giovanni Di Lernia, and Angela Brunetti. "Development of Real-Time PCR for in wood-detection of Ceratocystis platani, the agent of canker stain of Platanus spp." European Journal of Plant Pathology 134, no. 1 (June 22, 2012): 61–79. http://dx.doi.org/10.1007/s10658-012-0022-5.

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22

Grosclaude, C., R. Olivier, J. C. Pizzuto, and Corinne Romiti. "Etude experimentale du transport de Pinoculum de Ceratocystis fimbriata f. platani par ?eau ?une riviere." Forest Pathology 21, no. 3 (July 1991): 168–71. http://dx.doi.org/10.1111/j.1439-0329.1991.tb01421.x.

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23

ENGELBRECHT, C. J. B., T. C. HARRINGTON, J. STEIMEL, and P. CAPRETTI. "Genetic variation in eastern North American and putatively introduced populations of Ceratocystis fimbriata f. platani." Molecular Ecology 13, no. 10 (October 14, 2004): 2995–3005. http://dx.doi.org/10.1111/j.1365-294x.2004.02312.x.

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24

Santini, A., and P. Capretti. "Analysis of the Italian population of Ceratocystis fimbriata f.sp. platani using RAPD and minisatellite markers." Plant Pathology 49, no. 4 (August 2000): 461–67. http://dx.doi.org/10.1046/j.1365-3059.2000.00470.x.

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25

Sieber, Thomas N. "Neomyzeten – eine anhaltende Bedrohung für den Schweizer Wald." Schweizerische Zeitschrift fur Forstwesen 165, no. 6 (June 1, 2014): 173–82. http://dx.doi.org/10.3188/szf.2014.0173.

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Neomycetes – persistent threats to Swiss forests More than 40 neomycetes pathogenic to woody plant species were introduced to Switzerland during the last 100 years, and the number is increasing exponentially. A few neomycetes are invasive and cause serious diseases on forest and ornamental trees: Cryphonectria parasitica, causal agent of chestnut blight, Hymenoscyphus pseudoalbidus causing ash dieback, Ophiostoma novo-ulmi causing Dutch elm disease and Ceratocystis platani causing canker stain of plane. The causal agents of sudden oak death (Phytophthora ramorum) and collar and root rot of alder (P. alni ssp. alni) have been detected in Switzerland but have not reached epidemic levels. Ceratocystis fagacearum, causal agent of oak wilt, or Leptographium wageneri causing black stain root disease of conifers are absent from Switzerland, but are threats to Swiss forests and measures have been implemented to prevent their introduction. Prevention of threats by fungi which are harmless symbionts in their native range, e.g. endophytic fungi, is more challenging. The only way to avoid the endophyte problem is to grow trees from aseptic seed, saplings or meristem cultures. Additionally, setup of sentinel plantings in as many regions as possible all over the world could serve as early warning systems. To prevent the introduction of wilt and root diseases, only treated wood and treated potting media should be allowed for import. Natural regeneration prevents contamination of forest soils by Phytophthora species originating from nursery plants.
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26

Tsopelas, P., and A. Angelopoulos. "First report of canker stain disease of plane trees, caused by Ceratocystis fimbriata f. sp. platani in Greece." Plant Pathology 53, no. 4 (August 2004): 531. http://dx.doi.org/10.1111/j.1365-3059.2004.01021.x.

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27

Clérivet, Alain, Véronique Déon, Ibtissam Alami, Fredérique Lopez, Jean-Paul Geiger, and Michel Nicole. "Tyloses and gels associated with cellulose accumulation in vessels are responses of plane tree seedlings (Platanus × acerifolia) to the vascular fungus Ceratocystis fimbriata f. sp platani." Trees 15, no. 1 (September 14, 2000): 25–31. http://dx.doi.org/10.1007/s004680000063.

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28

Lumia, V., V. Modesti, A. Brunetti, CL Wilkinson, G. Di Lernia, TC Harrington, and M. Pilotti. "Real-Time PCR for Ceratocystis platani detection: in-depth validation to assess the diagnostic potential and include additional technical options." iForest - Biogeosciences and Forestry 11, no. 4 (August 31, 2018): 499–509. http://dx.doi.org/10.3832/ifor2527-011.

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29

Grosclaude, C., R. Olivier, C. Romiti, and JC Pizzuto. "Action antagoniste, sur bois in vitro, de quelques basidiomycètes lignicoles vis-à-vis du Ceratocystis fimbriata f platani présent dans le tissu ligneux." Agronomie 10, no. 5 (1990): 403–5. http://dx.doi.org/10.1051/agro:19900506.

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30

Clérivet, Alain, and Ibtissam Alami. "Effects of jasmonic acid and of an elicitor from Ceratocystis fimbriata f. sp. platani on the accumulation of phytoalexins in leaves of susceptible and resistant plane trees." Plant Science 148, no. 2 (October 1999): 105–10. http://dx.doi.org/10.1016/s0168-9452(99)00119-3.

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31

Baker, Christine J., Thomas C. Harrington, Ulrike Krauss, and Acelino C. Alfenas. "Genetic Variability and Host Specialization in the Latin American Clade of Ceratocystis fimbriata." Phytopathology® 93, no. 10 (October 2003): 1274–84. http://dx.doi.org/10.1094/phyto.2003.93.10.1274.

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The Ceratocystis fimbriata complex includes many undescribed species that cause wilt and canker diseases of many economically important plants. Phylogenetic analyses of DNA sequences have delineated three geographic clades within Ceratocystis fimbriata. This study examined host specialization in the Latin American clade, in which a number of lineages were identified using sequences of the internal transcribed spacer (ITS) region of the rDNA. Three host-associated lineages were identified from cacao (Theobroma cacao), sweet potato (Ipomoea batatas), and sycamore (Platanus spp.), respectively. Isolates from these three lineages showed strong host specialization in reciprocal inoculation experiments on these three hosts. Six cacao isolates from Ecuador, Trinidad, and Columbia differed genetically from other cacao isolates and were not pathogenic to cacao in inoculation tests. Further evidence of host specialization within the Latin American clade of Ceratocystis fimbriata was demonstrated in inoculation experiments in growth chambers using sweet potato, sycamore, Colocasia esculenta, coffee (Coffea arabica), and mango (Mangifera indica) plants; inoculation experiments in Brazil using Brazilian isolates from cacao, Eucalyptus spp., mango, and Gmelina arborea; and inoculation experiments in Costa Rica using Costa Rican isolates from cacao, coffee, and Xantho-soma sp. Hosts native to the Americas appeared to be colonized by only select pathogen genotypes, whereas nonnative hosts were colonized by several genotypes. We hypothesize that local populations of Ceratocystis fimbriata have specialized to different hosts; some of these populations are nascent species, and some host-specialized genotypes have been moved to new areas by humans.
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32

Comparini, Cecilia, Lara Carresi, Eleonora Pagni, Francesca Sbrana, Federico Sebastiani, Nicola Luchi, Alberto Santini, et al. "New proteins orthologous to cerato-platanin in various Ceratocystis species and the purification and characterization of cerato-populin from Ceratocystis populicola." Applied Microbiology and Biotechnology 84, no. 2 (April 22, 2009): 309–22. http://dx.doi.org/10.1007/s00253-009-1998-4.

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33

Carresi, Lara, Barbara Pantera, Camilla Zoppi, Gianni Cappugi, Aline L. Oliveira, Thelma A. Pertinhez, Alberto Spisni, Aniello Scala, and Luigia Pazzagli. "Cerato-platanin, a phytotoxic protein from Ceratocystis fimbriata: Expression in Pichia pastoris, purification and characterization." Protein Expression and Purification 49, no. 2 (October 2006): 159–67. http://dx.doi.org/10.1016/j.pep.2006.07.006.

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34

Oliveira, A. L., L. Pazzagli, B. Pantera, G. Cappugi, C. E. Benedetti, A. Spisni, and T. A. Pertinhez. "1H, 15N and 13C Resonance Assignments of Cerato-platanin, a Phytotoxic Protein from Ceratocystis fimbriata." Journal of Biomolecular NMR 36, S1 (July 4, 2006): 50. http://dx.doi.org/10.1007/s10858-006-9023-z.

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35

AKE, S., and C. LAMBERT. "IN VITRO CULTURE OF PLATANUS ACERIFOLIA IN RELATION WITH THE CANKER STAIN DISEASE INDUCED BY CERATOCYSTIS FIMBRIATA." Acta Horticulturae, no. 212 (September 1987): 539–42. http://dx.doi.org/10.17660/actahortic.1987.212.82.

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36

"Ceratocystis platani. [Distribution map]." Distribution Maps of Plant Diseases, No.April (August 1, 2013). http://dx.doi.org/10.1079/dmpd/20133161834.

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Abstract A new distribution map is provided for Ceratocystis platani (Walter) Engelbr. & T.C. Harr. Ascomycota: Sordariomycetes: Microascales. Hosts: Platanus spp. Information is given on the geographical distribution in Europe (France, Corsica, Mainland France, Greece, Italy, Sicily, Spain, Switzerland), North America (USA, Alabama, Arkansas, California, Delaware, Georgia, Kentucky, Louisiana, Maryland, Mississippi, Missouri, Nevada, New Jersey, New York, North Carolina, Ohio, Pennsylvania, South Carolina, Tennessee, Virginia, West Virginia).
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37

"Ceratocystis platani. [Distribution map]." Distribution Maps of Plant Diseases, No.April (August 1, 2019). http://dx.doi.org/10.1079/dmpd/20193204539.

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Abstract A new distribution map is provided for Ceratocystis platani (Walter) Engelbrecht & Harrington. Sordariomycetes: Microascales: Ceratocystidaceae. Hosts: Platanus spp. Information is given on the geographical distribution in Europe (Albania, France, Corsica, Mainland France, Greece, Italy, Mainland Italy, Sicily, Spain, Switzerland), Asia (Turkey), North America (USA, Alabama, Arkansas, California, Delaware, Georgia, Kentucky, Louisiana, Maryland, Mississippi, Missouri, Nevada, New Jersey, New York, North Carolina, Ohio, Pennsylvania, South Carolina, Tennessee, Virginia, Washington, West Virginia).
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38

"Ceratocystis fimbriata f. sp. platani." EPPO Bulletin 33, no. 2 (August 2003): 249–55. http://dx.doi.org/10.1046/j.1365-2338.2003.00640.x.

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39

"Ceratocystis platani (canker stain of plane)." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.12144.

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40

"Pest survey card on Ceratocystis platani." EFSA Supporting Publications 18, no. 9 (September 2021). http://dx.doi.org/10.2903/sp.efsa.2021.en-6822.

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41

"PM 7/014 (2): Ceratocystis platani." EPPO Bulletin 44, no. 3 (December 2014): 338–49. http://dx.doi.org/10.1111/epp.12159.

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42

"Ceratocystis platani (canker stain of plane)." PlantwisePlus Knowledge Bank Species Pages (January 7, 2022). http://dx.doi.org/10.1079/pwkb.species.12144.

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43

Jeger, Michael, Claude Bragard, Elisavet Chatzivassiliou, Katharina Dehnen‐Schmutz, Gianni Gilioli, Josep Anton Jaques Miret, Alan MacLeod, et al. "Risk assessment and reduction options for Ceratocystis platani in the EU." EFSA Journal 14, no. 12 (December 2016). http://dx.doi.org/10.2903/j.efsa.2016.4640.

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44

Brilli, Federico, Nicola Luchi, Marco Michelozzi, Luca Calamai, Gabriele Cencetti, Francesco Pecori, Emanuele Nigrone, and Alberto Santini. "Volatile organic compounds (VOC) as biomarkers for detection of Ceratocystis platani." Forest Pathology, June 16, 2020, e12618. http://dx.doi.org/10.1111/efp.12618.

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45

Heller, Wade, Thomas C. Harrington, Eva Brill, and Lisa Keith. "High-sensitivity ITS real-time PCR assays for detection of Ceratocystis lukuohia and Ceratocystis huliohia in soil and air samples." PhytoFrontiers™, January 18, 2023. http://dx.doi.org/10.1094/phytofr-09-22-0091-fi.

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Abstract:
Rapid Ohia Death (ROD) is caused by two pathogens, Ceratocystis lukuohia and Ceratocystis huliohia. The established species-specific real-time PCR assays targeting the single-copy cerato-platanin gene require DNA between 2 and 16 spores per reaction for consistent detection, which is suitable for analysis of infected plant tissue but not sensitive enough to consistently detect low spore-loads in environmental samples. Here we present two redesigned qPCR assays targeting the first Internal Transcribed Spacer (ITS) region of the multi-copy ribosomal DNA operon from the respective species, both capable of consistent detection of the pathogen at concentrations as low as 1 fg per reaction, less than the size of the haploid genome. Due to this increased sensitivity, these ITS qPCR assays are superior for analysis of DNA extracted from material collected in airborne particle samplers and from soil. Here, we demonstrate the utility of these qPCR assays for the characterization of windblown and soilborne dispersal of the pathogens, which is critical for the development of management practices that mitigate disease spread.
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