Mushroom volatiles

Other compounds that have been detected in mushroom volatiles include a range of Cg alcohols, their esters and oxidation products and various other compounds such as benzyl alcohol, benzaldehyde, acetone, ethanol, ethyl acetate,... 

Found in grapes, ripe bananas and mushroom volatiles. Bp, 87-89 . 

Gyrometrin toxin is produced by the false morel (Gyromitra esculenta), a short-stalked mushroom with a brain-like cap of dark brown color. Fruiting bodies of this mushroom appear mostly in spring and are valued as edible, even as delicacies. While many people consume the mushroom without any troubles, others become ill, some of them severely. It has been shown that the toxin content may vary with growth conditions, such as altitude and temperature. More probably, however, the variation is caused by differences in handling or cooking as the toxic components are volatile. The toxin has been detected in cooked, frozen, and dried specimens. 

Uq 1.4378, may occur in the optically active form. It is found, for example, in lavender oil and is a steam-volatile component of mushrooms. l-Octen-3-ol is a liquid with an intense mushroom, forest-earthy odor that can be prepared by a Grignard reaction from vinylmagnesium bromide and hexanal. It is used in lavender compositions and in mushroom aromas. 

CgHioO, Mr 122.17, mp 20°C, Z pioi.skPa 203°C, df 1.0135, ng 1.5275, has been identified as a volatile component of food (e.g., in tea aroma and mushrooms). The alcohol is a colorless liquid with a dry, roselike odor, slightly reminiscent of hawthorn. It can be prepared by catalytic hydrogenation of acetophenone. 1-Phenylethyl alcohol is used in small quantities in perfumery and in larger amounts for the production of its esters, which are more important as fragrance materials. 

Unsaturated fatty acids also seem to undergo oxidative breakdown during cooking. The volatile compounds found in cooked products are generally the same as in the raw product. Frequently there are, however, quantitative differences between the cooked and the raw product. Flowever, not much is known about the thermal fatty acid breakdown, but possibly it involves decomposition of already formed hydroperoxides in the raw product and/or oxidation of already formed volatile compounds. For example, l-octen-3-ol occurs in raw cut mushroom, whereas l-octen-3-one cannot be detected. On the other hand, l-octen-3-one is found in relatively large amounts in cooked mushroom [26]. 

Wood WF, Lefevre CK (2007) Changing Volatile Compounds from Mycelium and Sporocarp of American Matsutake Mushroom, Tricholoma magnivelare. Biochem Syst Ecol 35 634... 

Trithiolanes have received increasing attention since the identification of diastereomeric 3,5-dimethyl-l,2,4-trithiolane in the volatiles of boiled beef (13). The parent 1,2,4-trithiolane is a component of Shiitake mushrooms (14) and red algae (15). In addition to 3,5-dimethyl-l,2,4-trithiolane, Kubota et al. (16) identified 3-methyl-5-ethyl-l,2,4-trithiolane and 3,5-diethyl-l,2,4-tri-thiolane in both syn and anti forms in boiled Antarctic Gulls. Both compounds were described as garlicky. Flament and co-workers (17) reported the identification of 3-methyl-5-ethyl-l,2,4-trithiolane and 3-methyl-5-isopropyl-l,2,4-trithiolane in a commercial beef extract. ... 

Being volatile, the aldehydes formed in the Strecker degradation have often been thought to be important contributors to the aroma of foodstuffs and many patents have been granted which use the Strecker degradation to produce flavouring materials of various types, such as, maple, chocolate, coffee, tea, honey, mushroom, and bread.66... 

The vinyl ketone 222 which displays an unpleasant smell is found in the volatiles of cooked mushrooms it is an aroma component of clover. The racemic alcohol 223 called mushroom alcohol because of its typical smell was isolated from soya... 

Se Speciation in Plants The presence of a number of volatile Se species was reported in edible allium plants such as garlic by GC-AES [79]. Selenomethionine, Se-methylselenocysteine, and y-glutamyl-Se-methyl-L-seleno cysteine were identibed in garlic and onion by HPLC-ICP-MS and ES-MS/MS [80]. Selenomethionine is the primary species found in all types of nuts (19D25 percent of the total Se) [30], sunBower [81], and mushrooms [36, 37], The distribution of Se among different fractions (lipid extract, low molecular weight, and protein fractions) of nuts and speciation analysis was studied [30]. Selenium was not detected in any of the lipid extracts obtained from the different types of nuts [30], Results obtained for Brazil nuts by SEC with on-line ICP-MS detection showed that approximately 12 percent of total Se was weakly bound to proteins [30],... 

In another thorough flavor study Wu et al.(55) determined both the volatile and nonvolatile flavor compounds found in mushroom blanching water. They used HPLC to determine such non volatile flavor components as sugars, amino acids and nucleotides. The free amino acids were analyzed to determine if they might be involved in any thermal reactions which might produce Amadori compounds or Strecker aldehydes which in turn would produce aroma components. 

The development of a characteristic, objectionable, beany, grassy, and hay-like flavor in soybean oil, commonly known as reversion flavor, is a classic problem of the food industry. Soybean oil tends to develop this objectionable flavor when its peroxide value is still as low as a few meq/kg, whereas other vegetable oils, such as cottonseed, com, and sunflower, do not (15, 51). Smouse and Chang (52) identified 71 compounds in the volatiles of a typical reverted-but-not-rancid soybean oil. They reported that 2-pentylfuran formed from the autoxidation of linoleic acid, which is the major fatty acid of soybean oil, and contributes significantly to the beany and grassy flavor of soybean oil. Other compounds identified in the reverted soybean oil also have fatty acids as their precursors. For example, the green bean flavor is caused by c/i-3-hexenal, which is formed by the autoxidation of linolenic acid that usually constitutes 2-11% in soybean oil. Linoleic acid oxidized to l-octen-3-ol, which is characterized by its mushroom-like flavor (53). 

A metallic taste is often noted with exposure to metals or metal-containing compounds, tetracycline, mushrooms (e.g., Coprinus sp.), snake venom, and others. Metal fume fever, a febrile immunologically mediated reaction to metal oxides volatilized during welding, also produces a metallic taste. An abnormal... 

Fischer, K.-H., Grosch, W. (1987) Volatile Compounds of importance in the aroma of mushrooms (psalliota bispom). Lebensm. Wiss. Technol. 20, 233-236... 

The oxidation products of lipids include volatile aldehydes and acids. Therefore, lipids are one of the major sources of flavors in foods. For example, much of the desirable flavors of vegetables such as tomatoes, cucumbers, mushrooms, and peas (Ho and Chen, 1994) fresh fish (Hsieh and Kinsella, 1989), fish oil (Hu and Pan, 2000) and cooked shrimp (Kuo and Pan, 1991 Kuo et al., 1994), as well as many deep-fat fried foods such as French-fried potatoes (Salinas et al., 1994) and fried chicken (Shi and Ho, 1994), are contributed by lipid oxidation. LOX-catalyzed lipid oxidation produces secondary derivatives, e.g., tetradecatrienone, which is a key compound of shrimp (Kuo and Pan, 1991). The major difference between the flavors of chicken broth and beef broth is the abundance of 2,4-decadienal and y-dodeca-lactone in chicken broth (Shi and Ho, 1994). Both compounds are well-known lipid oxidation products. A total of 193 compounds has been reported in the flavor of chicken. Forty-one of them are lipid-derived aldehydes. 

Chen, C.C. et al., Effects of pH value on the formation of volatiles of shiitake (Lentinus edodes), an edible mushroom, J. Agric. Food Chem., 32, 999, 1984. 

Enzymic Formation of Volatile Compounds in Shiitake Mushroom (Lentinus edodes Sing.)... 

Volatile compounds of Shiitake mushroom (Lentinus edodes Sing.) are composed of eight-carbon containing alcohols and sulfur compounds. l-Octen-3-ol and 2-octen-l-ol are the major C8-compounds comprising the "mushroom" character of Shiitake mushroom. The characteristic "sulfurous" note of Shiitake mushroom is composed of cyclic S-compounds, such as lenthionine (C2 H4 S5, 1,2,3,5,6-pentathiepane),... 

Kameoka and Higuchi (5) were the first to report the presence of C8-compounds in the steam distilled volatiles of crushed mushrooms and l-octen-3-ol was the most abundant C8-compound identified. Other C8-compound identified were 3-octanol, 1-octanol and 2-octen-l-ol. 

It is well known that the amount of volatile C8-compounds produced in edible mushrooms can be greatly enhanced by adding pure linoleic acid to the enzymic reaction mixture (17, 20). 

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