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Coniella

From Wikipedia - Reading time: 7 min

Coniella
Scientific classification
Kingdom:
Fungi
Division:
Ascomycota
Class:
Sordariomycetes
Order:
Diaporthales
Family:
Schizoparmeaceae
Genus:
Coniella

Höhnel, 1918
Species

Coniella is a fungus genus in the family Schizoparmeaceae (or Schizoparmaceae), which contains 65 species recorded in the database Mycobank.[1][2] This genus Coniella are reported as a typical plant pathogenic fungi for grape,[3] eucalyptus [4] and several plant. It mainly found in Europe, Asian, also South Africa. less report in American, only one paper published new spaces founded.[1]

The first fungus belonging to Coniella genus was Coniella pulchella, established by Von Hoehnel in 1918. (Von H.hnel 1918)[5] Alvarez, regarded genera Pilidiella and Schizoparme together with Coniella as synonyms. (Alvarez, Groenewald et al. 2016) [6] As typical plant pathogenic fungi and due to globalization, Coniella occur worldwide as plant pathogens. Coniella vitis and Coniella diplodiella are two common pathogens that cause white rot disease in grapevines.[7] Coniella granati induces crown rot and fruit rot in pomegranates in Central Asia.[8] In northern Australia, several species of Coniella have been reported to cause foliage blight on eucalyptus trees.[9] Several Coniella fungi from South Africa are harmful for grapevine cultivation.[10] In 2015, Coniella fragariae was reported as the causal agent for strawberry crown rot in Latvia.[11] Fewer reports about Coniella come from north and south America, but Coniella lustricola was isolated as a new species from submerged detritus in Black Moshannon State Park in Pennsylvania, USA.[12] Considerable research on this genus of fungi has been published in the field of agriculture and biology but there are far few reports about the secondary metabolites of Coniella. In the chemical constitution study, two paper reported azaphilone are the main metabolites.[13][14]

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References

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  1. ^ a b Raudabaugh, Daniel B.; Iturriaga, Teresa; Carver, Akiko; Mondo, Stephen; Pangilinan, Jasmyn; Lipzen, Anna; He, Guifen; Amirebrahimi, Mojgan; Grigoriev, Igor V. (2018-01-01). "Coniella lustricola, a new species from submerged detritus". Mycological Progress. 17 (1): 191–203. doi:10.1007/s11557-017-1337-6. ISSN 1861-8952. S2CID 245669.
  2. ^ Alvarez, L. V.; Groenewald, J. Z.; Crous, P. W. (2016-09-01). "Revising the Schizoparmaceae: Coniella and its synonyms Pilidiella and Schizoparme". Studies in Mycology. 85: 1–34. doi:10.1016/j.simyco.2016.09.001. ISSN 0166-0616. PMC 5066162. PMID 27766001.
  3. ^ Chethana, K. W. T.; Zhou, Y.; Zhang, W.; Liu, M.; Xing, Q. K.; Li, X. H.; Yan, J. Y.; Chethana, K. W. T.; Hyde, K. D. (2017-07-28). "Coniella vitis sp. nov. Is the Common Pathogen of White Rot in Chinese Vineyards". Plant Disease. 101 (12): 2123–2136. doi:10.1094/PDIS-12-16-1741-RE. ISSN 0191-2917. PMID 30677388.
  4. ^ Rhodes, David; Stephens, Michael (2014-11-26). "Planted forest development in Australia and New Zealand: comparative trends and future opportunities". New Zealand Journal of Forestry Science. 44 (1): S10. doi:10.1186/1179-5395-44-S1-S10. ISSN 1179-5395.
  5. ^ "Über die minimale Belichtungszeit, welche die Keimung der Samen von Lythrum Salicaria auslöst". Die Naturwissenschaften. 8 (16): 309. April 1920. Bibcode:1920NW......8Q.309.. doi:10.1007/bf02448696. ISSN 0028-1042. S2CID 41169014.
  6. ^ Alvarez, L.V.; Groenewald, J.Z.; Crous, P.W. (September 2016). "Revising the Schizoparmaceae: Coniella and its synonyms Pilidiella and Schizoparme". Studies in Mycology. 85: 1–34. doi:10.1016/j.simyco.2016.09.001. ISSN 0166-0616. PMC 5066162. PMID 27766001.
  7. ^ Chethana, K. W. T.; Zhou, Y.; Zhang, W.; Liu, M.; Xing, Q. K.; Li, X. H.; Yan, J. Y.; Chethana, K. W. T.; Hyde, K. D. (December 2017). "Coniella vitis sp. nov. Is the Common Pathogen of White Rot in Chinese Vineyards". Plant Disease. 101 (12): 2123–2136. doi:10.1094/pdis-12-16-1741-re. ISSN 0191-2917. PMID 30677388.
  8. ^ Çeliker, Naciye Mükerrem; Uysal, Ayşe; Çetinel, Barbaros; Poyraz, Dilek (2012-10-16). "Crown rot on pomegranate caused by Coniella granati in Turkey". Australasian Plant Disease Notes. 7 (1): 161–162. doi:10.1007/s13314-012-0074-6. ISSN 1833-928X. S2CID 42485912.
  9. ^ Janet, Griffiths, M.W. Wylie, F. Ross Lawson, Simon A. Pegg, Geoff S. McDonald (2004). Known or potential threats from pests and diseases to prospective tree species for high value timber plantings in northern Australia. OCLC 1143219084.{{cite book}}: CS1 maint: multiple names: authors list (link)
  10. ^ Van Niekerk, Jan M.; Groenewald, J. Z. ‘Ewald’; Verkley, Gerard J.M.; Fourie, Paul H.; Wingfield, Michael J.; Crous, Pedro W. (March 2004). "Systematic reappraisal of Coniella and Pilidiella, with specific reference to species occurring on Eucalyptus and Vitis in South Africa". Mycological Research. 108 (3): 283–303. doi:10.1017/s0953756204009268. ISSN 0953-7562. PMID 15185979.
  11. ^ Grantina-Ievina, Lelde (2015-12-01). "Fungi Causing Storage Rot of Apple Fruit in Integrated Pest Management System and their Sensitivity to Fungicides". Rural Sustainability Research. 34 (329): 2–11. doi:10.1515/plua-2015-0007. ISSN 2256-0939. S2CID 64274764.
  12. ^ Raudabaugh, Daniel B.; Iturriaga, Teresa; Carver, Akiko; Mondo, Stephen; Pangilinan, Jasmyn; Lipzen, Anna; He, Guifen; Amirebrahimi, Mojgan; Grigoriev, Igor V.; Miller, Andrew N. (2017-09-13). "Coniella lustricola, a new species from submerged detritus". Mycological Progress. 17 (1–2): 191–203. doi:10.1007/s11557-017-1337-6. ISSN 1617-416X. S2CID 245669.
  13. ^ Yu, Haiqian; Sperlich, Julia; Höfert, Simon-Patrick; Janiak, Christoph; Teusch, Nicole; Stuhldreier, Fabian; Wesselborg, Sebastian; Wang, Chenyin; Kassack, Matthias U. (2019-09-01). "Azaphilone pigments and macrodiolides from the coprophilous fungus Coniella fragariae". Fitoterapia. 137: 104249. doi:10.1016/j.fitote.2019.104249. ISSN 0367-326X. PMID 31247219. S2CID 195765769.
  14. ^ Yu, Haiqian; Sperlich, Julia; Mándi, Attila; Kurtán, Tibor; Dai, Haofu; Teusch, Nicole; Guo, Zhi-Yong; Zou, Kun; Liu, Zhen (2018-11-26). "Azaphilone Derivatives from the Fungus Coniella fragariae Inhibit NF-κB Activation and Reduce Tumor Cell Migration". Journal of Natural Products. 81 (11): 2493–2500. doi:10.1021/acs.jnatprod.8b00540. ISSN 0163-3864. PMID 30354103. S2CID 53031014.


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