Thorben Nawrath, K. Gerth, R. Müller
Sep 1, 2010
Citations
1
Influential Citations
17
Citations
Journal
Chemistry & Biodiversity
Abstract
The analysis of the volatiles released by the novel bacterial isolate Chitinophaga Fx7914 revealed the presence of ca. 200 compounds including different methyl esters. These esters comprise monomethyl‐ and dimethyl‐branched, saturated, and unsaturated fatty acid methyl esters that have not been described as bacterial volatiles before. More than 30 esters of medium C‐chain length were identified, which belong to five main classes, methyl (S)‐2‐methylalkanoates (class A), methyl (S)‐2,(ω−1)‐dimethylalkanoates (class B), methyl 2,(ω−2)‐dimethylalkanoates (class C), methyl (E)‐2‐methylalk‐2‐enoates (class D), and methyl (E)‐2,(ω−1)‐dimethylalk‐2‐enoates (class E). The structures of the compounds were verified by GC/MS analysis and synthesis of the target compounds as methyl (S)‐2‐methyloctanoate (28), methyl (S)‐2,7‐dimethyloctanoate ((S)‐43), methyl 2,6‐dimethyloctanoate (49), methyl (E)‐2‐methylnon‐2‐enoate (20a), and methyl (E)‐2,7‐dimethyloct‐2‐enoate (41a). Furthermore, the natural saturated 2‐methyl‐branched methyl esters showed (S)‐configuration as confirmed by GC/MS experiments using chiral phases. Additionally, the biosynthetic pathway leading to the methyl esters was investigated by feeding experiments with labeled precursors. The Me group at C(2) is introduced by propanoate incorporation, while the methyl ester is formed from the respective carboxylic acid by a methyltransferase using S‐adenosylmethionine (SAM).