Gıda Kaynaklı Viral Gastroenteritler

Virüsler, az sayıda gen taşıyan küçük bir genomdan ve bu genomu koruyup konak hücreye girişini sağlayan protein bir kılıftan oluşurlar. Diğer canlılardan farklı olarak aktif bir metabolizmaya sahip değillerdir. Çoğalmak için içine girdikleri hücrenin protein sentez ve enzim sistemlerinin kontrolünü ele geçirir, çok sayıda kopyalarını ürettikten sonra çoğunlukla hücrenin ölümüne yol açarak hücreden dışarı çıkarlar. Gıda içerisindeki sayıları değişmez ancak gıda ile iletilebilirler. Uygun işlemlerle gıdalarda etkisiz hale getirilebilirler. Hastalık etmeni bazı virüsler et, süt ve enfekte olmuş hayvanlardan gelen ürünler arasında bulunabilirler. Virüslere bağlı gastroenteritlerin sıklığının özellikle gelişmiş ülkeler başta olmak üzere giderek arttığı gözlenmektedir. Viral gastroenterit etkenlerinden Rotavirüs ve Enterik Adenovirüsler, çocuklarda akut gastroenteritlerin en sık görülen etkenleridir. Gıdalardaki virüsleri saptama yöntemleri yeteri kadar tatmin edici değildir ve gıda tedarikinin rutin olarak izlenmesinde tespiti çok zordur

Aroma Profile and Phenolic Content of Honey Wine Produced from Wild Rose Fruit

426-433In this study, two chromatographic techniques were applied to determine the aroma profile and phenolic compounds of “Honey wine” produced by addition of Wild Rose Fruits (Rosa odorata-Andrews-Sweet). In addition, another control wine was produced with sucrose and rose fruits in order to differentiate compounds produced by yeast fermentation from those originated from honey and rose fruits. After maturation aroma components, phenolic compounds and sugar composition of wines were identified. Aroma components were determined by headspace solid-phase microextraction gas chromatography mass spectrometry (HS-SPME/GC-MS) techniques in wine samples. The dominant aroma components in both wines were ethanol, ethyl acetate, isobutyl alcohol, 2-methyl-1-butanol, 3-methyl-1-butanol, ethyl caprylate, ethyl decanoate, capronate ethyl. Some minor differences in the percentage of major aroma components were determined between two wine samples. Phenolic and sugar compositions were identified by high performance liquid chromatographic (HPLC) method in fruit extract and wine samples. While the total amount of phenolic compounds were 3604.9 mg/l in fruit juice, 74.3 mg/l in control wine and 111.8 mg/l in honey wine, the most abundant phenolics in both wines were catechin, epicatechin and routine

Aroma Profile and Phenolic Content of Honey Wine Produced from Wild Rose Fruit

In this study, two chromatographic techniques were applied to determine the aroma profile and phenolic compounds of “Honey wine” produced by addition of Wild Rose Fruits (Rosa odorata-Andrews-Sweet). In addition, another control wine was produced with sucrose and rose fruits in order to differentiate compounds produced by yeast fermentation from those originated from honey and rose fruits. After maturation aroma components, phenolic compounds and sugar composition of wines were identified. Aroma components were determined by headspace solid-phase microextraction gas chromatography mass spectrometry (HS-SPME/GC-MS) techniques in wine samples. The dominant aroma components in both wines were ethanol, ethyl acetate, isobutyl alcohol, 2-methyl-1-butanol, 3-methyl-1-butanol, ethyl caprylate, ethyl decanoate, capronate ethyl. Some minor differences in the percentage of major aroma components were determined between two wine samples. Phenolic and sugar compositions were identified by high performance liquid chromatographic (HPLC) method in fruit extract and wine samples. While the total amount of phenolic compounds were 3604.9 mg/l in fruit juice, 74.3 mg/l in control wine and 111.8 mg/l in honey wine, the most abundant phenolics in both wines were catechin, epicatechin and routine