<p>Chromatographic data of the identified compounds from the 100% <i>n</i>-hexane extract of <i>C. pruinosa</i> mycelia analyzed using GC-MS.</p
Chromatographic techniques have significant role in natural products chemistry as well as contribute...
Typical TIC GC-MS chromatogram of metabolites found in the headspace above live fungal culture.</p
<p>(A–B) leaf extract constituents profile. (C–D) stem extract constituent profile.</p
<p>(A) D<sub>2</sub>O extracts characterized using NMR analysis. (B) 70% methanol extracts and (C) 1...
<p>This was modified from pathways presented in KEGG database (<a href="http://www.genome.jp/kegg/" ...
<p>Chromatogram obtained from GC-MS with the methanolic extracts of the <i>Xestospongia testudinaria...
<p>Assignment of <sup>1</sup>H NMR spectral peaks for <i>C. pruinosa</i> mycelia using D<sub>2</sub>...
<p>(<b>A</b>) Non-transformed <i>S</i>. <i>lycopersicum</i>, (<b>B</b>–<b>D</b>) three individual pl...
<p>GC/MS analysis of FAME extracts from (<b>A</b>) Empty strain supplemented with hexadecadienoic ac...
<p>Composition of dichloromethane extracts of <i>Quercus faginea</i> samples, in % of the chromatogr...
<p>Quantitative HPLC analyses of phenolic compounds in the <i>Cudrania tricuspidata</i> stem (CTS) e...
<p>Phyto-chemotypes identified in the n-hexane root extract of <i>R. imbricata</i> by GC/MS.</p
<p>Composition of dichloromethane extracts of <i>Quercus faginea</i> bark, in % of the normalized ch...
<p>Gas chromatogram-Mass spectroscopy of <i>A</i>. <i>catechu</i> leaf extract.</p
<p>(1) <i>m</i>-coumaric acid, (2) <i>p</i>-coumaric acid, (3) gallic acid, (4) sinapic acid, (5) (-...
Chromatographic techniques have significant role in natural products chemistry as well as contribute...
Typical TIC GC-MS chromatogram of metabolites found in the headspace above live fungal culture.</p
<p>(A–B) leaf extract constituents profile. (C–D) stem extract constituent profile.</p
<p>(A) D<sub>2</sub>O extracts characterized using NMR analysis. (B) 70% methanol extracts and (C) 1...
<p>This was modified from pathways presented in KEGG database (<a href="http://www.genome.jp/kegg/" ...
<p>Chromatogram obtained from GC-MS with the methanolic extracts of the <i>Xestospongia testudinaria...
<p>Assignment of <sup>1</sup>H NMR spectral peaks for <i>C. pruinosa</i> mycelia using D<sub>2</sub>...
<p>(<b>A</b>) Non-transformed <i>S</i>. <i>lycopersicum</i>, (<b>B</b>–<b>D</b>) three individual pl...
<p>GC/MS analysis of FAME extracts from (<b>A</b>) Empty strain supplemented with hexadecadienoic ac...
<p>Composition of dichloromethane extracts of <i>Quercus faginea</i> samples, in % of the chromatogr...
<p>Quantitative HPLC analyses of phenolic compounds in the <i>Cudrania tricuspidata</i> stem (CTS) e...
<p>Phyto-chemotypes identified in the n-hexane root extract of <i>R. imbricata</i> by GC/MS.</p
<p>Composition of dichloromethane extracts of <i>Quercus faginea</i> bark, in % of the normalized ch...
<p>Gas chromatogram-Mass spectroscopy of <i>A</i>. <i>catechu</i> leaf extract.</p
<p>(1) <i>m</i>-coumaric acid, (2) <i>p</i>-coumaric acid, (3) gallic acid, (4) sinapic acid, (5) (-...
Chromatographic techniques have significant role in natural products chemistry as well as contribute...
Typical TIC GC-MS chromatogram of metabolites found in the headspace above live fungal culture.</p
<p>(A–B) leaf extract constituents profile. (C–D) stem extract constituent profile.</p
DOI
Add to ORKG