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中国科学院昆明植物研究所知识管理系统
Knowledge Management System of Kunming Institute of Botany,CAS
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0.05) between wild (AR = 4.651), semi-cultivated (AR = 5.091) and cultivated (AR = 5.132) populations of C. taliensis, which suggested that the genetic background of long-lived woody plant was not easy to be changed, and there were moderate high gene flow between populations. However, there was a significant difference (P < 0.05) between wild (AR = 5.9) and cultivated (AR = 7.1) populations distributed in the same place in Yun county, Yunnan province, which may result from the hybridization and introgression of species in the tea garden and anthropogenic damages to the wild population. The hypothesis of hybrid origin of C. grandibracteata was tested by morphological and microsatellites analyses. Compared with other species, the locules in ovary of C. grandibracteata are variable, which showed a morphological intermediate and mosaic. Except one private allele, Ninety-nine percent alleles of C. grandibracteata were shared with these of C. taliensis and C. sinensis var. assamica. And C. grandibracteata was nested in the cluster of C. taliensis in the UPGMA tree. Conclusively, our results supported the hypothesis of hybrid origin of C. grandibracteata partly. The speciation of C. grandibracteata was derived from hybridization and asymmetrical introgression potentially. It is possible that C. taliensis was one of its parents, but it still needs more evidences to prove that C. sinensis var. assamica was another parent.","jscount":"1","jsurl":"/simple-search?field1=all&rpp=10&accurate=false&advanced=false&sort_by=2&isNonaffiliated=false&search_type=-1&query1=Western%2BNorth-america&order=desc&&fq=dc.project.title_filter%3ACamellia%5C+taliensis%5C+%5C%28W.%5C+W.%5C+Smith%5C%29%5C+Melchior%2C%5C+a%5C+member%5C+of%5C+Camellia%5C+sect.%5C+Thea%2C%5C+is%5C+an%5C+indigenous%5C+species%5C+in%5C+local%5C+natural%5C+forest%5C+and%5C+has%5C+a%5C+long%5C+cultivative%5C+history%5C+in%5C+western%5C+Yunnan%5C+and%5C+its%5C+neighborhood%2C%5C+where%5C+the%5C+domestications%5C+of%5C+this%5C+species%5C+in%5C+different%5C+historical%5C+periods%5C+and%5C+in%5C+different%5C+ways%5C+can%5C+be%5C+found.%5C+C.%5C+taliensis%5C+is%5C+an%5C+important%5C+contributor%5C+to%5C+the%5C+formations%5C+of%5C+tea%5C+landraces%5C+by%5C+hybridization%5C+and%5C+introgression.%5C+In%5C+the%5C+present%5C+study%2C%5C+14%5C+microsatellite%5C+loci%5C+screened%5C+from%5C+37%5C+loci%5C+were%5C+used%5C+to%5C+explore%5C+the%5C+genetic%5C+diversity%5C+about%5C+this%5C+species%5C+with%5C+579%5C+samples%5C+from%5C+25%5C+populations%5C+%5C%2816%5C+wild%5C+populations%2C%5C+4%5C+semi%5C-cultivated%5C+populations%5C+and%5C+5%5C+cultivated%5C+populations%5C%29.%5C+At%5C+the%5C+same%5C+time%2C%5C+the%5C+potential%5C+hybrid%5C+speciation%5C+of%5C+C.%5C+grandibracteata%2C%5C+was%5C+investigated%5C+using%5C+39%5C+individuals%5C+from%5C+2%5C+populations%2C%5C+along%5C+with%5C+C.%5C+taliensis%5C+and%5C+C.%5C+sinensis%5C+var.%5C+assamica%5C+%5C%2883%5C+individuals%5C+from%5C+4%5C+populations%5C%29%5C+by%5C+the%5C+same%5C+microsatellite%5C+markers.%5C+C.%5C+taliensis%5C+had%5C+a%5C+moderate%5C+high%5C+level%5C+of%5C+genetic%5C+diversity%5C+%5C%28A%5C+%3D%5C+14.3%2C%5C+Ne%3D%5C+5.7%2C%5C+HE%5C+%3D%5C+0.666%2C%5C+I%5C+%3D%5C+1.753%2C%5C+AR%5C+%3D%5C+7.2%2C%5C+PPB%5C+%3D%5C+100%25%5C%29.%5C+This%5C+may%5C+result%5C+from%5C+several%5C+factors%5C+including%5C+K%5C-strategy%2C%5C+genetic%5C+background%2C%5C+gene%5C+flow%5C+between%5C+populations%2C%5C+hybridization%5C+and%5C+introgression%5C+among%5C+species.%5C+Between%5C+wild%5C+populations%5C+of%5C+C.%5C+taliensis%2C%5C+the%5C+gene%5C+flow%5C+was%5C+moderate%5C+high%5C+%5C%28Nm%5C+%3D%5C+1.197%5C%29%2C%5C+and%5C+genetic%5C+variation%5C+was%5C+less%5C+than%5C+20%25%5C+%5C%28GST%5C+%3D%5C+0.147%2C%5C+FST%5C+%3D%5C+0.173%5C%29%2C%5C+which%5C+was%5C+similar%5C+to%5C+other%5C+research%5C+results%5C+of%5C+long%5C-lived%5C+woody%5C+plants%2C%5C+and%5C+reflected%5C+the%5C+genetic%5C+structure%5C+of%5C+its%5C+ancestry%5C+to%5C+same%5C+extent.%5C+There%5C+was%5C+a%5C+high%5C+significant%5C+correlation%5C+between%5C+geographic%5C+distance%5C+and%5C+Nei%E2%80%99s%5C+genetic%5C+distance%5C+%5C%28r%5C+%3D%5C+0.372%2C%5C+P%5C+%3D%5C+0.001%5C%29%5C+of%5C+populations%2C%5C+which%5C+accorded%5C+with%5C+isolation%5C+by%5C+distance%5C+model.%5C+Inferring%5C+from%5C+Bayesian%5C+clustering%5C+of%5C+genotypes%2C%5C+all%5C+individuals%5C+of%5C+C.%5C+taliensis%5C+were%5C+divided%5C+into%5C+two%5C+groups%2C%5C+conflicting%5C+with%5C+the%5C+result%5C+based%5C+on%5C+Nei%E2%80%99s%5C+genetic%5C+distance%5C+and%5C+real%5C+geographic%5C+distribution%2C%5C+which%5C+suggested%5C+there%5C+were%5C+heavy%5C+and%5C+non%5C-random%5C+influences%5C+by%5C+human%5C+practices.%5C+According%5C+to%5C+allelic%5C+richness%2C%5C+there%5C+were%5C+no%5C+significant%5C+differences%5C+%5C%28P%5C+%3E%5C+0.05%5C%29%5C+between%5C+wild%5C+%5C%28AR%5C+%3D%5C+4.651%5C%29%2C%5C+semi%5C-cultivated%5C+%5C%28AR%5C+%3D%5C+5.091%5C%29%5C+and%5C+cultivated%5C+%5C%28AR%5C+%3D%5C+5.132%5C%29%5C+populations%5C+of%5C+C.%5C+taliensis%2C%5C+which%5C+suggested%5C+that%5C+the%5C+genetic%5C+background%5C+of%5C+long%5C-lived%5C+woody%5C+plant%5C+was%5C+not%5C+easy%5C+to%5C+be%5C+changed%2C%5C+and%5C+there%5C+were%5C+moderate%5C+high%5C+gene%5C+flow%5C+between%5C+populations.%5C+However%2C%5C+there%5C+was%5C+a%5C+significant%5C+difference%5C+%5C%28P%5C+%3C%5C+0.05%5C%29%5C+between%5C+wild%5C+%5C%28AR%5C+%3D%5C+5.9%5C%29%5C+and%5C+cultivated%5C+%5C%28AR%5C+%3D%5C+7.1%5C%29%5C+populations%5C+distributed%5C+in%5C+the%5C+same%5C+place%5C+in%5C+Yun%5C+county%2C%5C+Yunnan%5C+province%2C%5C+which%5C+may%5C+result%5C+from%5C+the%5C+hybridization%5C+and%5C+introgression%5C+of%5C+species%5C+in%5C+the%5C+tea%5C+garden%5C+and%5C+anthropogenic%5C+damages%5C+to%5C+the%5C+wild%5C+population.%5C+The%5C+hypothesis%5C+of%5C+hybrid%5C+origin%5C+of%5C+C.%5C+grandibracteata%5C+was%5C+tested%5C+by%5C+morphological%5C+and%5C+microsatellites%5C+analyses.%5C+Compared%5C+with%5C+other%5C+species%2C%5C+the%5C+locules%5C+in%5C+ovary%5C+of%5C+C.%5C+grandibracteata%5C+are%5C+variable%2C%5C+which%5C+showed%5C+a%5C+morphological%5C+intermediate%5C+and%5C+mosaic.%5C+Except%5C+one%5C+private%5C+allele%2C%5C+Ninety%5C-nine%5C+percent%5C+alleles%5C+of%5C+C.%5C+grandibracteata%5C+were%5C+shared%5C+with%5C+these%5C+of%5C+C.%5C+taliensis%5C+and%5C+C.%5C+sinensis%5C+var.%5C+assamica.%5C+And%5C+C.%5C+grandibracteata%5C+was%5C+nested%5C+in%5C+the%5C+cluster%5C+of%5C+C.%5C+taliensis%5C+in%5C+the%5C+UPGMA%5C+tree.%5C+Conclusively%2C%5C+our%5C+results%5C+supported%5C+the%5C+hypothesis%5C+of%5C+hybrid%5C+origin%5C+of%5C+C.%5C+grandibracteata%5C+partly.%5C+The%5C+speciation%5C+of%5C+C.%5C+grandibracteata%5C+was%5C+derived%5C+from%5C+hybridization%5C+and%5C+asymmetrical%5C+introgression%5C+potentially.%5C+It%5C+is%5C+possible%5C+that%5C+C.%5C+taliensis%5C+was%5C+one%5C+of%5C+its%5C+parents%2C%5C+but%5C+it%5C+still%5C+needs%5C+more%5C+evidences%5C+to%5C+prove%5C+that%5C+C.%5C+sinensis%5C+var.%5C+assamica%5C+was%5C+another%5C+parent."},{"jsname":"Chemical constituents and bioactivities research on Cimicifuga species have been became an international hotspot. There are abundant plant resources of this genus in China, however the step of exploitation is far fall behind the western world. In an attempt to fully utilize our domestic resources, our research group has been studying on the chemical constituents and their bioactivities, specially 9,19-cyclolanostanetriterpenes of this genus, since 2003. As a result, several cycloartane triterpenoids with potential anti-tumor activities were obtained for the first time in China. For further searching anti-tumor lead compounds with novel structures and more potent activities, in this thesis,the roots of C. yunnanensis and the aerial parts of C. foetida, which collected from Shangrila County in Yunnan Province, the roots of C. foetida, which collected from Heishitou Town in Guizhou Province and the roots of C. dahurica and C. heracleifolia, which collected from Qingyuan County in Liaoning Province were used as experimental materials and total 105 compounds were isolated and identified by different spectroscopic and chemical methods. Among these 105 compounds, there are 94 9,19-cyclolanostanetriterpenes,including 44 new constituents. All these new compounds can be categorized as Cimigenol-type, Shengmanol-type, Hydroxyshengmanol-type, Acteol-type, Dahurinol-type, Cimicidol-type, and 3,4-Seco-type, 15,16-Seco-type, which were very novel. The left 11 compounds are normal Chromones, sitosterols, oleanane triterpenes and a new Ergostane-type steoid. The isolated 9,19-cyclolanostane compounds were tested for their cytotoxicities against 15 human carcinoma cell lines, which included human hepatoma cell line HepG2, human breast carcinoma cell line MCF-7, human colorectal carcinoma cell line HT-19 and so on. 40 compounds showed activities and three of them, which isolated from C. yunnanensis exhibited as potent activities as positive control Taxol. Mechanism research indicated that these three compounds can increase the expression of p53 and bax, which led to the loss of mitochondrial potential and then resulted in the activation of caspase-7 and induced apoptosis of MCF-7. In addition, a series of compounds which isolated from the roots of C. foetida showed selective significant cytotoxicity (potent than positive controlcisplatin) against the human HepG2 cell line and a domestic patent was applied for these compounds. A conclusion of the structure-activity relationships of Cimigenol-type compounds were proposed: one of the key point for anti-tumor activities is at least one side of the compound has hydrophobic groups such as carbonyl, double bond substitute hydroxyl groups. At the end of this thesis, a comprehensive review about the distribution and utilization of the Cimicifuga genus worldwide, the structures of 9,19-cyclolanostanetriterpenes and their anti-climacteric syndrome, anti-osteoporotic and anti-tumor activities were gave.","jscount":"1","jsurl":"/simple-search?field1=all&rpp=10&accurate=false&advanced=false&sort_by=2&isNonaffiliated=false&search_type=-1&query1=Western%2BNorth-america&order=desc&&fq=dc.project.title_filter%3AChemical%5C+constituents%5C+and%5C+bioactivities%5C+research%5C+on%5C+Cimicifuga%5C+species%5C+have%5C+been%5C+became%5C+an%5C+international%5C+hotspot.%5C+There%5C+are%5C+abundant%5C+plant%5C+resources%5C+of%5C+this%5C+genus%5C+in%5C+China%2C%5C+however%5C+the%5C+step%5C+of%5C+exploitation%5C+is%5C+far%5C+fall%5C+behind%5C+the%5C+western%5C+world.%5C+In%5C+an%5C+attempt%5C+to%5C+fully%5C+utilize%5C+our%5C+domestic%5C+resources%2C%5C+our%5C+research%5C+group%5C+has%5C+been%5C+studying%5C+on%5C+the%5C+chemical%5C+constituents%5C+and%5C+their%5C+bioactivities%2C%5C+specially%5C+9%2C19%5C-cyclolanostanetriterpenes%5C+of%5C+this%5C+genus%2C%5C+since%5C+2003.%5C+As%5C+a%5C+result%2C%5C+several%5C+cycloartane%5C+triterpenoids%5C+with%5C+potential%5C+anti%5C-tumor%5C+activities%5C+were%5C+obtained%5C+for%5C+the%5C+first%5C+time%5C+in%5C+China.%5C+For%5C+further%5C+searching%5C+anti%5C-tumor%5C+lead%5C+compounds%5C+with%5C+novel%5C+structures%5C+and%5C+more%5C+potent%5C+activities%2C%5C+in%5C+this%5C+thesis%EF%BC%8Cthe%5C+roots%5C+of%5C+C.%5C+yunnanensis%5C+and%5C+the%5C+aerial%5C+parts%5C+of%5C+C.%5C+foetida%2C%5C+which%5C+collected%5C+from%5C+Shangrila%5C+County%5C+in%5C+Yunnan%5C+Province%2C%5C+the%5C+roots%5C+of%5C+C.%5C+foetida%2C%5C+which%5C+collected%5C+from%5C+Heishitou%5C+Town%5C+in%5C+Guizhou%5C+Province%5C+and%5C+the%5C+roots%5C+of%5C+C.%5C+dahurica%5C+and%5C+C.%5C+heracleifolia%2C%5C+which%5C+collected%5C+from%5C+Qingyuan%5C+County%5C+in%5C+Liaoning%5C+Province%5C+were%5C+used%5C+as%5C+experimental%5C+materials%5C+and%5C+total%5C+105%5C+compounds%5C+were%5C+isolated%5C+and%5C+identified%5C+by%5C+different%5C+spectroscopic%5C+and%5C+chemical%5C+methods.%5C+Among%5C+these%5C+105%5C+compounds%2C%5C+there%5C+are%5C+94%5C+9%2C19%5C-cyclolanostanetriterpenes%EF%BC%8Cincluding%5C+44%5C+new%5C+constituents.%5C+All%5C+these%5C+new%5C+compounds%5C+can%5C+be%5C+categorized%5C+as%5C+Cimigenol%5C-type%2C%5C+Shengmanol%5C-type%2C%5C+Hydroxyshengmanol%5C-type%2C%5C+Acteol%5C-type%2C%5C+Dahurinol%5C-type%2C%5C+Cimicidol%5C-type%2C%5C+and%5C+3%2C4%5C-Seco%5C-type%2C%5C+15%2C16%5C-Seco%5C-type%2C%5C+which%5C+were%5C+very%5C+novel.%5C+The%5C+left%5C+11%5C+compounds%5C+are%5C+normal%5C+Chromones%2C%5C+sitosterols%2C%5C+oleanane%5C+triterpenes%5C+and%5C+a%5C+new%5C+Ergostane%5C-type%5C+steoid.%5C+The%5C+isolated%5C+9%2C19%5C-cyclolanostane%5C+compounds%5C+were%5C+tested%5C+for%5C+their%5C+cytotoxicities%5C+against%5C+15%5C+human%5C+carcinoma%5C+cell%5C+lines%2C%5C+which%5C+included%5C+human%5C+hepatoma%5C+cell%5C+line%5C+HepG2%2C%5C+human%5C+breast%5C+carcinoma%5C+cell%5C+line%5C+MCF%5C-7%2C%5C+human%5C+colorectal%5C+carcinoma%5C+cell%5C+line%5C+HT%5C-19%5C+and%5C+so%5C+on.%5C+40%5C+compounds%5C+showed%5C+activities%5C+and%5C+three%5C+of%5C+them%2C%5C+which%5C+isolated%5C+from%5C+C.%5C+yunnanensis%5C+exhibited%5C+as%5C+potent%5C+activities%5C+as%5C+positive%5C+control%5C+Taxol.%5C+Mechanism%5C+research%5C+indicated%5C+that%5C+these%5C+three%5C+compounds%5C+can%5C+increase%5C+the%5C+expression%5C+of%5C+p53%5C+and%5C+bax%2C%5C+which%5C+led%5C+to%5C+the%5C+loss%5C+of%5C+mitochondrial%5C+potential%5C+and%5C+then%5C+resulted%5C+in%5C+the%5C+activation%5C+of%5C+caspase%5C-7%5C+and%5C+induced%5C+apoptosis%5C+of%5C+MCF%5C-7.%5C+In%5C+addition%2C%5C+a%5C+series%5C+of%5C+compounds%5C+which%5C+isolated%5C+from%5C+the%5C+roots%5C+of%5C+C.%5C+foetida%5C+showed%5C+selective%5C+significant%5C+cytotoxicity%5C+%5C%28potent%5C+than%5C+positive%5C+controlcisplatin%5C%29%5C+against%5C+the%5C+human%5C+HepG2%5C+cell%5C+line%5C+and%5C+a%5C+domestic%5C+patent%5C+was%5C+applied%5C+for%5C+these%5C+compounds.%5C+A%5C+conclusion%5C+of%5C+the%5C+structure%5C-activity%5C+relationships%5C+of%5C+Cimigenol%5C-type%5C+compounds%5C+were%5C+proposed%5C%3A%5C+one%5C+of%5C+the%5C+key%5C+point%5C+for%5C+anti%5C-tumor%5C+activities%5C+is%5C+at%5C+least%5C+one%5C+side%5C+of%5C+the%5C+compound%5C+has%5C+hydrophobic%5C+groups%5C+such%5C+as%5C+carbonyl%2C%5C+double%5C+bond%5C+substitute%5C+hydroxyl%5C+groups.%5C+At%5C+the%5C+end%5C+of%5C+this%5C+thesis%2C%5C+a%5C+comprehensive%5C+review%5C+about%5C+the%5C+distribution%5C+and%5C+utilization%5C+of%5C+the%5C+Cimicifuga%5C+genus%5C+worldwide%2C%5C+the%5C+structures%5C+of%5C+9%2C19%5C-cyclolanostanetriterpenes%5C+and%5C+their%5C+anti%5C-climacteric%5C+syndrome%2C%5C+anti%5C-osteoporotic%5C+and%5C+anti%5C-tumor%5C+activities%5C+were%5C+gave."},{"jsname":"lastIndexed","jscount":"2025-02-14"}],"Funding Project","dc.project.title_filter")'>
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Systematics and Biogeography of Aralia L. (Araliaceae):Revision of Aralia Sects. Aralia, Humiles, Nanae, andSciadodendron
期刊论文
出版物, 3111, 卷号: 57, 期号: 0, 页码: 1-172
Authors:
Jun Wen
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Aralia
Aralia Sect. Aralia
Aralia Sect. Dimorphanthus
Aralia Sect. Humiles
Aralia Sect. Nanae
Aralia Sect. pentapanax
Aralia Sect. Sciadodendron
Biogeography
Araliaceae
Systematics
Boletes clarified
期刊论文
出版物, 3111, 期号: 0, 页码: 1-38
Authors:
David Arora
;
Jonathan L. Frank
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Submit date:2017/07/24
Appendiculati
Boletaceae
Butter Boletes
Butyriboletus
Molecular phylogenetics
New Genus
New Species
Taxonomy
JATROPHA CURCAS L.AN INTERNATIONAL BOTANICAL ANSWER TOBIODIESEL PRODUCTION & RENEWABLE ENERGY
期刊论文
出版物, 3111, 期号: 0, 页码: 1—65
Authors:
Zuo Z(作者)
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Submit date:2017/07/24
Data Analysisin Vegetation Ecology
期刊论文
出版物, 3111, 期号: 0, 页码: 1-297
Authors:
Otto Wildi
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Submit date:2017/07/24
Multi-locus phylogeny of Bryoria reveals recent diversification and unexpected diversity in section Divaricatae
期刊论文
LICHENOLOGIST, 2023
Authors:
Myllys,Leena
;
Pino-Bodas,Raquel
;
Velmala,Saara
;
Wang,Li-Song
;
Goward,Trevor
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Submit date:2024/07/30
fungal barcode
incomplete lineage sorting
ITS regions
lichen
species delimitation
SPECIES DELIMITATION
PCR PRIMERS
PARMELIACEAE
ASCOMYCOTA
DNA
EVOLUTION
TAXONOMY
LICHENS
USNEA
LECANORALES
A global phylogeny of Lycopodiaceae (Lycopodiales; lycophytes) with the description of a new genus, Brownseya, from Oceania
期刊论文
TAXON, 2022, 卷号: 71, 期号: 1, 页码: 25-51
Authors:
Chen,De-Kui
;
Zhou,Xin-Mao
;
Rothfels,Carl J.
;
Shepherd,Lara D.
;
Knapp,Ralf
;
Zhang,Liang
;
Lu,Ngan Thi
;
Fan,Xue-Ping
;
Wan,Xia
;
Gao,Xin-Fen
;
He,Hai
;
Zhang,Li-Bing
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Submit date:2022/04/02
Huperzia
Lycophyte Phylogeny
Lycopodiella Serpentina
Phlegmariurus
Phylloglossum
Vascular Plant Evolution
Complete Chloroplast Genome
Lycopodiopsida Lycopodiaceae
Generic Classification
Spore Morphology
Early Evolution
Land Plants
Rbcl Gene
Huperzia
Sequence
Likelihood
Phylogeny and biogeography of Fagus (Fagaceae) based on 28 nuclear single/low-copy loci
期刊论文
JOURNAL OF SYSTEMATICS AND EVOLUTION, 2021
Authors:
Jiang,Lu
;
Bao,Qin
;
He,Wei
;
Fan,Deng-Mei
;
Cheng,Shan-Mei
;
Lopez-Pujol,Jordi
;
Chung,Myong Gi
;
Sakaguchi,Shota
;
Sanchez-Gonzalez,Arturo
;
Gedik,Aysun
;
Li,De-Zhu
;
Kou,Yi-Xuan
;
Zhang,Zhi-Yong
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Submit date:2022/04/02
biogeography
Fagus
nuclear single-copy gene
phylogeny
species tree
MULTINERVIS NAKAI FAGACEAE
NORTHERN-HEMISPHERE
GENETIC-VARIATION
TIBETAN PLATEAU
WESTERN EURASIA
LAND BRIDGES
SYLVATICA L.
SEQUENCE
BEECH
EVOLUTION
Reviewing the world's edible mushroom species: A new evidence-based classification system
期刊论文
COMPREHENSIVE REVIEWS IN FOOD SCIENCE AND FOOD SAFETY, 2021
Authors:
Li,Huili
;
Tian,Yang
;
Menolli Jr,Nelson
;
Ye,Lei
;
Karunarathna,Samantha C.
;
Perez-Moreno,Jesus
;
Rahman,Mohammad Mahmudur
;
Rashid,Md Harunur
;
Phengsintham,Pheng
;
Rizal,Leela
;
Kasuya,Taiga
;
Lim,Young Woon
;
Dutta,Arun Kumar
;
Khalid,Abdul Nasir
;
Le Thanh Huyen
;
Balolong,Marilen Parungao
;
Baruah,Gautam
;
Madawala,Sumedha
;
Thongklang,Naritsada
;
Hyde,Kevin D.
;
Kirk,Paul M.
;
Xu,Jianchu
;
Sheng,Jun
;
Boa,Eric
;
Mortimer,Peter E.
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Submit date:2023/09/08
Morphological and Phylogenetic Appraisal of Novel and Extant Taxa of Stictidaceae from Northern Thailand
期刊论文
JOURNAL OF FUNGI, 2021, 卷号: 7, 期号: 10, 页码: 880
Authors:
Wei,De-Ping
;
Wanasinghe,Dhanushka N.
;
Gentekaki,Eleni
;
Thiyagaraja,Vinodhini
;
Lumyong,Saisamorn
;
Hyde,Kevin D.
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Submit date:2022/04/02
lichenization
new species
non-lichenized fungi
Ostropales
phylogeny
taxonomy
LICHENICOLOUS FUNGI
ASCOMYCOTA
OSTROPALES
STICTIS
PLACEMENT
KEY
ODONTOTREMATACEAE
CLASSIFICATION
ABSCONDITELLA
COMBINATIONS
Rhexocercosporidium camporesii sp. nov. (Ploettnerulaceae, Helotiales) from Italy
期刊论文
PHYTOTAXA, 2021, 卷号: 482, 期号: 1, 页码: 14-24
Authors:
Phutthacharoen,Kunthida
;
Chethana,K. W. Thilini
;
Phookamsak,Rungtiwa
;
Mckenzie,Eric H. C.
;
Hyde,Kevin D.
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Submit date:2022/04/02
1 new species
cup-shaped fungi
Discomycetes
Leotiomycetes
Taxonomy
MEDICAGINIS-SATIVAE
FUNGAL COMMUNITIES
GRAPEVINE