79 g of acidic extract. Initial screening of the contents of these crude extracts by 1H-NMR revealed that the major components of the extracts were nearly identical. The 1H-NMR recorded for these extracts were surprisingly simple, displaying only a few peaks between 2.5 and 4.0 p.p.m. It was
decided to purify the compounds present in the acidic extract click here as a larger mass of material had been obtained. Column chromatography (MeOH-CH2Cl2 gradient) was performed on the acidic extract to yield three pure compounds, which were characterized using a combination of 1H- and 13C-NMR data (Bruker AMX500, Milton, Canada). All characterization data including copies of the 1H- and 13C-NMR spectra are provided in the Supporting Information. Dr Tom Booth, Department of Biological Sciences, University of Manitoba, carried out an initial taxonomic classification see more based on morphology (T. Booth, pers. commun.). This
visual inspection suggested that this organism was a strain of A. niger. In order to confirm this classification, the internal transcribed spacer (ITS) in the mtDNA was sequenced. The DNA was extracted from the mycelia following a modification of a previously reported method (Grube et al., 1995). The primer pair 1184-5′ (SSU rDNA) (Gargas & Taylor, 1992) and ITS4-3′ (ITS rDNA) (White et al., 1990) were used for the DNA amplification, and the amplified DNA was extracted from the agarose gel for sequencing. Sequencing of the amplified DNA generated a nucleotide sequence of 1117 bp. Sequence alignment was performed using a blast search (Zhang et al., 2000), and the results of this search confirmed the identity of the fungus as a strain
Interleukin-2 receptor of A. niger. The nucleotide sequence obtained was submitted to GenBank and was assigned the accession number of GQ130305. Full experimental details, including the primer sequences and the full nucleotide sequence, are provided in the Supporting Information. Each of the pure compounds that were recovered from the chromatographic purification was subjected to analysis by 1H- and 13C-NMR. The 1H-NMR of the most polar compound (1234 mg) displayed a singlet at δ 3.66 and two doublets, one at δ 2.94 and one at δ 2.79, with a large coupling constant of 15.3 Hz. The 13C-NMR spectra for this compound displayed five signals in total. These signals suggested the presence of two carbonyl groups (δ 176.5 and 172.0), an oxygen-bearing quaternary carbon (δ 74.4) and one signal (δ 52.3) that implied a methyl ester as well as a signal consistent with a methylene group attached to an electron-withdrawing group (δ 44.2). The mass spectrum of this compound suggested a molecular formula of C8H12O7. Based on these data, we concluded that this compound was dimethyl citrate (1).