Works about COLLETOTRICHUM
Results: 1190
Uncovering the Host Range–Lifestyle Relationship in the Endophytic and Anthracnose Pathogenic Genus Colletotrichum.
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- Microorganisms, 2025, v. 13, n. 2, p. 428, doi. 10.3390/microorganisms13020428
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Insights on atypical adult plant resistance phenomenon in Andean bean cultivar Baspa (KRC-8) to Colletotrichum lindemuthianum, the bean anthracnose pathogen.
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- Euphytica, 2022, v. 218, n. 6, p. 1, doi. 10.1007/s10681-022-03018-8
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Genetic improvement of Capsicum frutescens: hybrid vigor for anthracnosis resistance and production traits.
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- Euphytica, 2021, v. 217, n. 4, p. 1, doi. 10.1007/s10681-021-02810-2
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QTL mapping of lentil anthracnose (Colletotrichum lentis) resistance from Lens ervoides accession IG 72815 in an interspecific RIL population.
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- Euphytica, 2021, v. 217, n. 4, p. 1, doi. 10.1007/s10681-021-02804-0
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Genome-Wide Association Study identify the genetic loci conferring resistance to Coffee Berry Disease (Colletotrichum kahawae) in Coffea arabica var. Rume Sudan.
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- Euphytica, 2020, v. 216, n. 6, p. 1, doi. 10.1007/s10681-020-02621-x
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Resistance screening of red clover cultivars to Colletotrichum trifolii and improving the resistance level through recurrent selection.
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- Euphytica, 2015, v. 204, n. 2, p. 303, doi. 10.1007/s10681-014-1323-x
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Additional evidence for oligogenic inheritance of durable host resistance to coffee berry disease ( Colletotrichum kahawae) in arabica coffee ( Coffea arabica L.).
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- Euphytica, 2009, v. 165, n. 1, p. 105, doi. 10.1007/s10681-008-9769-3
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Evaluation of resistance sources and inheritance of resistance in kidney bean to Indian virulences of Colletotrichum lindemuthianum.
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- Euphytica, 2006, v. 149, n. 1/2, p. 97, doi. 10.1007/s10681-005-9057-4
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HISTOPATHOLOGY OF COLLETOTRICHUM SP. IN INFECTED MANGO (MAGNIFERA INDICA L.) FRUITS.
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- Journal of Agricultural Sciences, Belgrade, 2020, v. 65, n. 4, p. 351, doi. 10.2298/JAS2004351O
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Evaluación de aislados de Trichoderma spp. nativos del Paraguay para el control de Colletotrichum spp. causante de la antracnosis en frutilla.
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- Investigación Agraria, 2020, v. 22, n. 1, p. 53, doi. 10.18004/investig.agrar.2020.junio.53-62
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果生刺盘孢致病关键转录因子 CfCrzA 的功能.
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- Mycosystema, 2024, v. 43, n. 1, p. 1, doi. 10.13346/j.mycosystema.230164
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CfNop12 参与调控果生刺盘孢生长发育、低温胁 迫响应和致病力.
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- Mycosystema, 2023, v. 42, n. 11, p. 2257, doi. 10.13346/j.mycosystema.230089
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果生刺盘孢侵染苹果致病关键基因 Cfcyp450 的 功能.
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- Mycosystema, 2023, v. 42, n. 3, p. 770, doi. 10.13346/j.mycosystema.220204
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CfAtg8 在调控果生刺盘孢正负菌株分化中的功能.
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- Mycosystema, 2022, v. 41, n. 8, p. 1174, doi. 10.13346/j.mycosystema.220165
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贵州赤水桫椤自然保护区桫椤内生真菌多样性 研究.
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- Mycosystema, 2021, v. 40, n. 10, p. 2673, doi. 10.13346/j.mycosystema.210177
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自噬相关蛋白 CfAtg8 在果生刺盘孢中的功能分析.
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- Mycosystema, 2021, v. 40, n. 3, p. 592, doi. 10.13346/j.mycosystema.200227
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马比木内生刺盘孢属真菌的分布多样性.
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- Mycosystema, 2020, v. 39, n. 7, p. 1263, doi. 10.13346/j.mycosystema.190432
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刺盘孢菌的蛋白互作预测及侵染早期共表达模块分析.
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- Mycosystema, 2020, v. 39, n. 2, p. 298, doi. 10.13346/j.mycosystema.190310
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西双版纳5 种附生兰非菌根内生真菌多样性研究.
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- Mycosystema, 2019, v. 38, n. 11, p. 1876, doi. 10.13346/j.mycosystema.190190
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Evaluation of Bioagents as Seed Treatment on Dominant Seed Mycoflora of Chilli Var. Gvc 111 In Vitro.
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- Current Agriculture Research Journal, 2022, v. 10, n. 1, p. 20, doi. 10.12944/CARJ.10.1.04
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The Potential of Fungi as Bio-Control Agents in Managing Colletotrichum Kahawae in Kenya.
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- Current Agriculture Research Journal, 2021, v. 9, n. 3, p. 171, doi. 10.12944/CARJ.9.3.04
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Mechanism of Brevibacillus brevis strain TR-4 against leaf disease of Photinia×fraseri Dress.
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- PeerJ, 2024, p. 1, doi. 10.7717/peerj.17568
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Phenotypic, molecular and pathogenic characterization of Colletotrichum scovillei infecting Capsicum species in Rio de Janeiro, Brazil.
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- PeerJ, 2021, p. 1, doi. 10.7717/peerj.10782
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Biocontrol potential of endophytic fungi in tea (Camellia sinensis (L.) Kuntze) leaves against selected fungal phytopathogens.
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- Malaysian Journal of Microbiology, 2022, v. 18, n. 6, p. 665, doi. 10.21161/mjm.220055
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Colletotrichum spp. associated with agricultural crops in Malaysia, causal pathogens and potential control methods.
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- Malaysian Journal of Microbiology, 2020, v. 16, n. 6, p. 530, doi. 10.21161/mjm.190668
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河南省臭椿炭疽病病原鉴定.
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- Forest Research, 2021, v. 34, n. 5, p. 186, doi. 10.13275/j.cnki.lykxyj.2021.005.022
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Partial Least Squares Regression for Binary Data.
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- Mathematics (2227-7390), 2025, v. 13, n. 3, p. 458, doi. 10.3390/math13030458
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Biological Activity of the Endolichenic Trichoderma spp. Isolated from Lichens Cryptothecia spp. and Dirinaria spp.
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- Microbiology (00262617), 2023, v. 92, n. 3, p. 408, doi. 10.1134/S0026261722602093
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ANTAGONISTIC POTENTIAL OF Lactobacillus plantarum AGAINST SOME POSTHARVEST PATHOGENIC FUNGI.
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- Matica Srpska Journal for Natural Sciences, 2019, n. 136, p. 79, doi. 10.2298/ZMSPN1936079Z
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Insights into the cumulative effect of Colletotrichum gloeosporioides and Fusarium acutatum causing anthracnose-twister disease complex of onion.
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- Scientific Reports, 2024, v. 14, n. 1, p. 1, doi. 10.1038/s41598-024-59822-w
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Lifestyle Characteristics and Gene Expression Analysis of Colletotrichum camelliae Isolated from Tea Plant [Camellia sinensis (L.) O. Kuntze] Based on Transcriptome.
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- Biomolecules (2218-273X), 2020, v. 10, n. 5, p. 782, doi. 10.3390/biom10050782
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Plant Growth-Promoting Fungi (PGPF) Instigate Plant Growth and Induce Disease Resistance in Capsicum annuum L. upon Infection with Colletotrichum capsici (Syd.) Butler & Bisby.
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- Biomolecules (2218-273X), 2020, v. 10, n. 1, p. 1, doi. 10.3390/biom10010041
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Colletotrichum Gloesporioides Inhibition In Situ by Chitosan-Ruta graveolens Essential Oil Coatings: Effect on Microbiological, Physicochemical, and Organoleptic Properties of Guava (Psidium guajava L.) during Room Temperature Storage.
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- Biomolecules (2218-273X), 2019, v. 9, n. 9, p. 399, doi. 10.3390/biom9090399
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First detection of Colletotrichum gloesporioides (penz.) Pens. & sacc. On Liriodendron chinense (hemsl.) Sarg. in Ukraine.
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- Modern Phytomorphology, 2019, v. 13, p. 9
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Legitimacy and Implications of Reducing Colletotrichum kahawae to Subspecies in Plant Pathology.
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- Frontiers in Plant Science, 2017, v. 7, p. 1, doi. 10.3389/fpls.2016.02051
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Validation of Reliable Reference Genes for RT-qPCR Studies of Target Gene Expression in Colletotrichum camelliae During Spore Germination and Mycelial Growth and Interaction With Host Plants.
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- Frontiers in Microbiology, 2019, p. 1, doi. 10.3389/fmicb.2019.02055
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Genome-Wide Signatures of Selection in Colletotrichum kahawae Reveal Candidate Genes Potentially Involved in Pathogenicity and Aggressiveness.
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- Frontiers in Microbiology, 2019, p. N.PAG, doi. 10.3389/fmicb.2019.01374
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The MAP Kinase CfPMK1 Is a Key Regulator of Pathogenesis, Development, and Stress Tolerance of Colletotrichum fructicola.
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- Frontiers in Microbiology, 2019, p. N.PAG, doi. 10.3389/fmicb.2019.01070
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Weeds as Potential Inoculum Reservoir for Colletotrichum nymphaeae Causing Strawberry Anthracnose in Iran and Rep-PCR Fingerprinting as Useful Marker to Differentiate C. acutatum Complex on Strawberry.
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- Frontiers in Microbiology, 2019, p. N.PAG, doi. 10.3389/fmicb.2019.00129
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Antifungal activity of various chitinolytic bacteria against Colletotrichum in pepper.
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- Plant Protection Science, 2019, v. 55, n. 2, p. 109, doi. 10.17221/72/2018-PPS
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Effect of temperature on the interaction between Rhizopus stolonifer and Colletotrichum sp., postharvest pathogens of jackfruit (Artocarpus heterophyllus Lam.).
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- Nova Scientia, 2022, v. 14, n. 28, p. 1, doi. 10.21640/ns.v14i28.2966
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Racing to Find a Marker Development of Molecular Markers for Races of Colletotrichum truncatum.
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- Canadian Young Scientist Journal, 2011, v. 2011, n. 2, p. 27
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First Report of Anthracnose Caused by Colletotrichum gloeosporioides on Lucky Bamboo in China.
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- Forests (19994907), 2025, v. 16, n. 1, p. 128, doi. 10.3390/f16010128
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The Phyllosphere Microbial Community Structure of Three Camellia Species upon Anthracnose.
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- Forests (19994907), 2024, v. 15, n. 12, p. 2080, doi. 10.3390/f15122080
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Involvement of the Transporter CgTrk1 in Potassium Uptake, Invasive Growth, and Full Virulence in Colletotrichum gloeosporioides.
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- Forests (19994907), 2024, v. 15, n. 6, p. 1044, doi. 10.3390/f15061044
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Protein Disulfide Isomerase CfPdi1 Is Required for Response to ER Stress, Autophagy, and Pathogenicity in Colletotrichum fructicola.
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- Forests (19994907), 2023, v. 14, n. 8, p. 1597, doi. 10.3390/f14081597
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Identification and Characterization of Colletotrichum Species Causing Tea-Oil Camellia (Camellia oleifera C.Abel) Anthracnose in Hainan, China.
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- Forests (19994907), 2023, v. 14, n. 5, p. 1030, doi. 10.3390/f14051030
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Molecular Characterization, Pathogenicity and Biological Characterization of Colletotrichum Species Associated with Anthracnose of Camellia yuhsienensis Hu in China.
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- Forests (19994907), 2021, v. 12, n. 12, p. 1712, doi. 10.3390/f12121712
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Mechanism of induced systemic resistance against anthracnose disease in cucumber by plant growth-promoting fungi.
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- Acta Agriculturae Scandinavica: Section B, Soil & Plant Science, 2015, v. 65, n. 4, p. 287, doi. 10.1080/09064710.2014.1003248
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Morphological characterization and molecular identification of Colletotrichum spp. associated with Schlumbergera gaertneri.
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- Brazilian Journal of Agricultural Sciences / Revista Brasileira de Ciências Agrárias, 2023, v. 18, n. 2, p. 1, doi. 10.5039/agraria.v18i2a2794
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