Axelrod, Kevin; Samburova, Vera; Khlystov, Andrey Y. published the artcile< Relative abundance of saccharides, free amino acids, and other compounds in specific pollen species for source profiling of atmospheric aerosol>, Computed Properties of 492-62-6, the main research area is abundance saccharide free amino acid pollen species source profiling; atm aerosol; Amino acid; Anhydrosugar; Atmospheric aerosol; Bioaerosol; Pollen; Resin acid; Saccharide.
Though studies in bioaerosols are being conducted with increasing frequency over the past decade, the total breadth of knowledge on bioaerosols and their role in atm. processes is still minimal. In order to better characterize the chem. composition of fresh biol. aerosol for purposes of source apportionment and tracing in the atm., several plant pollen species were selected for detailed chem. analyses. For this purpose, different pollen species were purchased and collected around Reno, Nevada, USA, for further extraction and detailed chem. anal. These species included aspen, corn, pecan, ragweed, eastern cottonwood, paper mulberry, rabbitbrush, bitterbrush, lodgepole pine, and Jeffrey pine. Saccharides, free amino acids, and various other polar compounds (e.g., anhydrosugars and resin acids) were quant. analyzed using gas chromatog. and ultra-high performance liquid chromatog. coupled with mass spectrometry techniques (GC-MS and UPLC-MS), with the purpose to identify differences and nuances in chem. composition of specific pollen species. The saccharides β-D-fructose, α-D-glucose, and β-D-glucose were ubiquitously found across all pollen samples (10), and sucrose was found in five samples. D-galactose was also found in pine species. Total saccharides were 4.0 to 29% of total dry weight across all samples. Total free amino acids were 0.29% to 15% of total dry weight across all samples, with the most common amino acid being proline. Chem. profiles (including both saccharides and amino acids) of surface-deposited aerosol in the Lake Tahoe area correlated most closely with pine pollen than other analyzed pollen species, indicating that chem. profiles of pollen can be used to infer its contribution to local aerosols.
Science of the Total Environment published new progress about Adenostoma fasciculatum. 492-62-6 belongs to class alcohols-buliding-blocks, and the molecular formula is C6H12O6, Computed Properties of 492-62-6.
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts