FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3016920045> ?p ?o ?g. }

• W3016920045 endingPage "578" @default.
• W3016920045 startingPage "578" @default.
• W3016920045 abstract "In this study, the occurrence of multiple fungal metabolites including mycotoxins was determined in four different winter wheat varieties in a field experiment in Croatia. One group was naturally infected, while the second group was inoculated with a Fusarium graminearum and F. culmorum mixture to simulate a worst-case infection scenario. Data on the multiple fungal metabolites including mycotoxins were acquired with liquid chromatography with mass spectrometry (LC-MS/MS) multi-(myco)toxin method. In total, 36 different fungal metabolites were quantified in this study: the Fusarium mycotoxins deoxynivalenol (DON), DON-3-glucoside (D3G), 3-acetyldeoxynivalenol (3-ADON), culmorin (CULM), 15-hydroxyculmorin, 5-hydroxyculmorin, aurofusarin, rubrofusarin, enniatin (Enn) A, Enn A1, Enn B, Enn B1, Enn B2, Enn B3, fumonisin B1, fumonisin B2, chrysogin, zearalenone (ZEN), moniliformin (MON), nivalenol (NIV), siccanol, equisetin, beauvericin (BEA), and antibiotic Y; the Alternaria mycotoxins alternariol, alternariolmethylether, altersetin, infectopyron, tentoxin, tenuazonic acid; the Aspergillus mycotoxin kojic acid; unspecific metabolites butenolid, brevianamid F, cyclo(L-Pro-L-Tyr), cyclo(L-Pro-L-Val), and tryptophol. The most abundant mycotoxins in the inoculated and naturally contaminated samples, respectively, were found to occur at the following average concentrations: DON (19,122/1504 µg/kg), CULM (6109/1010 µg/kg), 15-hydroxyculmorin (56,022/1301 µg/kg), 5-hydroxyculmorin (21,219/863 µg/kg), aurofusarin (43,496/1266 µg/kg). Compared to naturally-infected samples, Fusarium inoculations at the flowering stage increased the concentrations of all Fusarium mycotoxins, except enniatins and siccanol in Ficko, the Aspergillus metabolite kojic acid, the Alternaria mycotoxin altersetin, and unspecific metabolites brevianamid F, butenolid, cyclo(L-Pro-L-Tyr), and cyclo(L-Pro-L-Val). In contrast to these findings, because of possible antagonistic actions, Fusarium inoculation decreased the concentrations of the Alternaria toxins alternariol, alternariolmethylether, infectopyron, tentoxin, tenuazonic acid, as well as the concentration of the nonspecific metabolite tryptophol." @default.
• W3016920045 created "2020-04-24" @default.
• W3016920045 creator A5017963229 @default.
• W3016920045 creator A5020626535 @default.
• W3016920045 creator A5045016055 @default.
• W3016920045 creator A5058145372 @default.
• W3016920045 creator A5062612276 @default.
• W3016920045 creator A5065202894 @default.
• W3016920045 creator A5075067727 @default.
• W3016920045 creator A5079373437 @default.
• W3016920045 date "2020-04-17" @default.
• W3016920045 modified "2023-10-06" @default.
• W3016920045 title "Multiple Fungal Metabolites Including Mycotoxins in Naturally Infected and Fusarium-Inoculated Wheat Samples" @default.
• W3016920045 cites W1493776746 @default.
• W3016920045 cites W1748584362 @default.
• W3016920045 cites W1911852658 @default.
• W3016920045 cites W1968075632 @default.
• W3016920045 cites W1979052345 @default.
• W3016920045 cites W1980547175 @default.
• W3016920045 cites W1984914600 @default.
• W3016920045 cites W1988367556 @default.
• W3016920045 cites W1991892132 @default.
• W3016920045 cites W1996982130 @default.
• W3016920045 cites W2003218596 @default.
• W3016920045 cites W2004204906 @default.
• W3016920045 cites W2009497214 @default.
• W3016920045 cites W2010521434 @default.
• W3016920045 cites W2010853117 @default.
• W3016920045 cites W2015271858 @default.
• W3016920045 cites W2015306112 @default.
• W3016920045 cites W2043533042 @default.
• W3016920045 cites W2052754616 @default.
• W3016920045 cites W2065253981 @default.
• W3016920045 cites W2068946309 @default.
• W3016920045 cites W2071247688 @default.
• W3016920045 cites W2076111497 @default.
• W3016920045 cites W2078237871 @default.
• W3016920045 cites W2085410476 @default.
• W3016920045 cites W2103631230 @default.
• W3016920045 cites W2103783721 @default.
• W3016920045 cites W2118476033 @default.
• W3016920045 cites W2118491260 @default.
• W3016920045 cites W2120690955 @default.
• W3016920045 cites W2121811003 @default.
• W3016920045 cites W2124525271 @default.
• W3016920045 cites W2125887537 @default.
• W3016920045 cites W2141485976 @default.
• W3016920045 cites W2141960023 @default.
• W3016920045 cites W2143013358 @default.
• W3016920045 cites W2160782907 @default.
• W3016920045 cites W2174902449 @default.
• W3016920045 cites W2244230362 @default.
• W3016920045 cites W2299225833 @default.
• W3016920045 cites W2331582955 @default.
• W3016920045 cites W2415870096 @default.
• W3016920045 cites W2479711985 @default.
• W3016920045 cites W2509108354 @default.
• W3016920045 cites W2571580161 @default.
• W3016920045 cites W2581354198 @default.
• W3016920045 cites W2614826378 @default.
• W3016920045 cites W270292379 @default.
• W3016920045 cites W2738720396 @default.
• W3016920045 cites W2752440542 @default.
• W3016920045 cites W2769147313 @default.
• W3016920045 cites W2772763427 @default.
• W3016920045 cites W2788588370 @default.
• W3016920045 cites W2801614795 @default.
• W3016920045 cites W2886420348 @default.
• W3016920045 cites W2892203065 @default.
• W3016920045 cites W2894231086 @default.
• W3016920045 cites W2922858800 @default.
• W3016920045 cites W2927893841 @default.
• W3016920045 cites W2943660878 @default.
• W3016920045 cites W2944555451 @default.
• W3016920045 cites W2945923936 @default.
• W3016920045 cites W2973285273 @default.
• W3016920045 cites W2979845041 @default.
• W3016920045 cites W3008868946 @default.
• W3016920045 cites W88292234 @default.
• W3016920045 doi "https://doi.org/10.3390/microorganisms8040578" @default.
• W3016920045 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7232504" @default.
• W3016920045 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32316403" @default.
• W3016920045 hasPublicationYear "2020" @default.
• W3016920045 type Work @default.
• W3016920045 sameAs 3016920045 @default.
• W3016920045 citedByCount "34" @default.
• W3016920045 countsByYear W30169200452020 @default.
• W3016920045 countsByYear W30169200452021 @default.
• W3016920045 countsByYear W30169200452022 @default.
• W3016920045 countsByYear W30169200452023 @default.
• W3016920045 crossrefType "journal-article" @default.
• W3016920045 hasAuthorship W3016920045A5017963229 @default.
• W3016920045 hasAuthorship W3016920045A5020626535 @default.
• W3016920045 hasAuthorship W3016920045A5045016055 @default.
• W3016920045 hasAuthorship W3016920045A5058145372 @default.
• W3016920045 hasAuthorship W3016920045A5062612276 @default.
• W3016920045 hasAuthorship W3016920045A5065202894 @default.
• W3016920045 hasAuthorship W3016920045A5075067727 @default.

• next