SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2904681346> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W2904681346 endingPage "1204" @default.
W2904681346 startingPage "1189" @default.
W2904681346 abstract "Multilocus DNA sequence data were used to investigate species identity and diversity in two sister clades, the Fusarium concolor (FCOSC) and F. babinda species complexes. Of the 109 isolates analyzed, only 4 were received correctly identified to species and these included 1/46 F. concolor, 1/31 F. babinda, and 2/3 F. anguioides. The majority of the F. concolor and F. babinda isolates were received as F. polyphialidicum, which is a heterotypic synonym of the former species. Previously documented from South America, Africa, Europe, and Australia, our data show that F. concolor is also present in North America. The present study expands the known distribution of F. babinda in Australia to Asia, Europe, and North America. The molecular phylogenetic results support the recognition of a novel Fusarium species within the FCOSC, which is described and illustrated here as F. austroafricanum, sp. nov. It was isolated as an endophyte of kikuyu grass associated with a putative mycotoxicosis of cattle and from plant debris in soil in South Africa. Fusarium austroafricanum is most similar morphologically to F. concolor and F. babinda but differs from the latter two species in producing (i) much longer macroconidia in which the apical cell is blunt to slightly papillate and the basal cell is only slightly notched and (ii) macroconidia via microcycle conidiation on water agar. BLASTn searches of the whole genome sequence of F. austroafricanum NRRL 53441 were conducted to predict mycotoxin potential, using genes known to be essential for the synthesis of several mycotoxins and biologically active metabolites. Based on the presence of intact gene clusters that confer the ability to synthesize mycotoxins and pigments, we analyzed cracked corn kernel cultures of F. austroafricanum via liquid chromatography-mass spectrometry (LC-MS) but failed to detect these metabolites in vitro." @default.
W2904681346 created "2018-12-22" @default.
W2904681346 creator A5012996967 @default.
W2904681346 creator A5014520949 @default.
W2904681346 creator A5026610699 @default.
W2904681346 creator A5033030062 @default.
W2904681346 creator A5066424217 @default.
W2904681346 creator A5068017050 @default.
W2904681346 creator A5075717161 @default.
W2904681346 creator A5083485776 @default.
W2904681346 date "2018-11-02" @default.
W2904681346 modified "2023-10-11" @default.
W2904681346 title "Molecular systematics of two sister clades, the <i>Fusarium concolor</i> and <i>F. babinda</i> species complexes, and the discovery of a novel microcycle macroconidium–producing species from South Africa" @default.
W2904681346 cites W1519727170 @default.
W2904681346 cites W1538517758 @default.
W2904681346 cites W1540563425 @default.
W2904681346 cites W1952399505 @default.
W2904681346 cites W1966575126 @default.
W2904681346 cites W1968307828 @default.
W2904681346 cites W1976189549 @default.
W2904681346 cites W1981634513 @default.
W2904681346 cites W1983985796 @default.
W2904681346 cites W1990326485 @default.
W2904681346 cites W1990384969 @default.
W2904681346 cites W2011388716 @default.
W2904681346 cites W2016457192 @default.
W2904681346 cites W2033683031 @default.
W2904681346 cites W2035427125 @default.
W2904681346 cites W2037130418 @default.
W2904681346 cites W2039443304 @default.
W2904681346 cites W2055659098 @default.
W2904681346 cites W2073107868 @default.
W2904681346 cites W2077989537 @default.
W2904681346 cites W2081106043 @default.
W2904681346 cites W2084814113 @default.
W2904681346 cites W2092989176 @default.
W2904681346 cites W2099295686 @default.
W2904681346 cites W2107771001 @default.
W2904681346 cites W2111838694 @default.
W2904681346 cites W2112666939 @default.
W2904681346 cites W2116149411 @default.
W2904681346 cites W2118617624 @default.
W2904681346 cites W2124603595 @default.
W2904681346 cites W2132926880 @default.
W2904681346 cites W2135761490 @default.
W2904681346 cites W2138146077 @default.
W2904681346 cites W2149516223 @default.
W2904681346 cites W2152443616 @default.
W2904681346 cites W2172226063 @default.
W2904681346 cites W2176936097 @default.
W2904681346 cites W2319183909 @default.
W2904681346 cites W2319317477 @default.
W2904681346 cites W2325928061 @default.
W2904681346 cites W2329878737 @default.
W2904681346 cites W2330302563 @default.
W2904681346 cites W2335338259 @default.
W2904681346 cites W2336180443 @default.
W2904681346 cites W2504916271 @default.
W2904681346 cites W2560836014 @default.
W2904681346 cites W2563359276 @default.
W2904681346 cites W2620918137 @default.
W2904681346 cites W2736733215 @default.
W2904681346 cites W2756381002 @default.
W2904681346 cites W2792917463 @default.
W2904681346 doi "https://doi.org/10.1080/00275514.2018.1526619" @default.
W2904681346 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30522417" @default.
W2904681346 hasPublicationYear "2018" @default.
W2904681346 type Work @default.
W2904681346 sameAs 2904681346 @default.
W2904681346 citedByCount "23" @default.
W2904681346 countsByYear W29046813462019 @default.
W2904681346 countsByYear W29046813462020 @default.
W2904681346 countsByYear W29046813462021 @default.
W2904681346 countsByYear W29046813462022 @default.
W2904681346 countsByYear W29046813462023 @default.
W2904681346 crossrefType "journal-article" @default.
W2904681346 hasAuthorship W2904681346A5012996967 @default.
W2904681346 hasAuthorship W2904681346A5014520949 @default.
W2904681346 hasAuthorship W2904681346A5026610699 @default.
W2904681346 hasAuthorship W2904681346A5033030062 @default.
W2904681346 hasAuthorship W2904681346A5066424217 @default.
W2904681346 hasAuthorship W2904681346A5068017050 @default.
W2904681346 hasAuthorship W2904681346A5075717161 @default.
W2904681346 hasAuthorship W2904681346A5083485776 @default.
W2904681346 hasBestOaLocation W29046813462 @default.
W2904681346 hasConcept C104317684 @default.
W2904681346 hasConcept C125390029 @default.
W2904681346 hasConcept C193252679 @default.
W2904681346 hasConcept C195239911 @default.
W2904681346 hasConcept C2778867309 @default.
W2904681346 hasConcept C41806617 @default.
W2904681346 hasConcept C44465124 @default.
W2904681346 hasConcept C54355233 @default.
W2904681346 hasConcept C58642233 @default.
W2904681346 hasConcept C59822182 @default.
W2904681346 hasConcept C86803240 @default.
W2904681346 hasConcept C90856448 @default.
W2904681346 hasConceptScore W2904681346C104317684 @default.