基本情報
- 所属
- 日本獣医生命科学大学 応用生命科学部 食品科学科 教授
- 学位
- 農学博士(東京大学)
- J-GLOBAL ID
- 201601000957354266
- researchmap会員ID
- B000250962
- 外部リンク
研究分野
1経歴
10-
2013年4月 - 現在
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2009年4月 - 2013年3月
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2006年4月 - 2009年3月
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2001年4月 - 2006年3月
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1999年10月 - 2001年3月
学歴
2-
1979年4月 - 1981年3月
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- 1979年3月
委員歴
6-
2018年7月 - 現在
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2011年10月 - 現在
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2005年4月 - 現在
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2014年4月 - 2018年6月
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2013年10月 - 2018年6月
受賞
3論文
124-
Microbiology Resource Announcements 2022年9月22日In this study, the genome sequences of two Basidiomycetous yeasts, Tremella yokohamensis and Tremella fuciformis , which have very similar morphological characteristics, were determined. The genomic sequence data obtained will be useful for understanding the taxonomy and metabolic-related genes of basidiomycete yeasts.
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Journal of food protection 85(9) 1258-1264 2022年6月10日Wild boar meat containing radioactive cesium (Cs) of approximately 1000 Bq/kg (134Cs+137Cs) was processed into bacon, sausage, and ham. In order to understand the concentration and quantity change of radioactive Cs, processing factor (Pf) and food processing retention factor (Fr) were calculated. The radioactive Cs quantity in the meat did not reduce during smoking. The dehydration-related meat mass reduction during smoking without decrease of radioactive Cs led to Cs condensation in the bacon compared with the raw rib meat before processing, resulting in a Pf of 1.18. Soaking in liquid, such as pickling in liquid and desalting or boiling in water, effectively removed radioactive Cs by leakage into water. Therefore, the Fr value of the boiled ham produced from a loin meat block through the above-described three liquid-soaking processes was 0.27. The Pf value of the boiled ham was 0.30 due to the meat block mass reduction after boiling as the result of dehydration along with the protein thermal denaturation-related muscle tissue shrinkage. The steamed ham Fr value was 0.53 since the removal of the radioactive Cs was less efficient by steaming than by boiling. The Pf value of the steamed ham was 0.54, almost the same as the Fr value, as the mass decrease rate was the same as the radioactive Cs decrease rate by steaming. The Fr and the Pf values of the boiled sausage, of which processing did not include soaking in the pickling liquid, were 0.64 and 0.62, respectively. The steaming of the sausage meat did not remove radioactive Cs during the dehydration-related mass reduction leading to Fr and Pf values of 1.01 and 1.17, respectively. As the result of this study, processing to boiled ham was the most effective measure for reducing both radioactive Cs quantity and concentration in raw meat. Processing to bacon and steamed sausage showed no Cs quantity reduction with the moisture loss resulting in Cs condensation compared to the raw material.
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Carbohydrate Research 108626-108626 2022年6月
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Food chemistry 373(Pt B) 131462-131462 2022年3月30日 査読有り筆頭著者In this study, we investigated the possibility of the geographical origin discrimination between Japanese and Mexican kabocha pumpkin using δ13C and δ18O in lyophilized raw flesh. Kabocha harvested in Hokkaido, the major kabocha production area in Japan, could be discriminated against not only that grown in Mexico but also that in New Zealand. However, seasoning after cooking or processing affected the δ13C and the δ18O values. Crude fiber extraction eliminated the effect of seasonings and enabled the adoption of the δ13C and δ18O values in crude fiber for the geographical origin verification of kabocha even after cooking and processing. The usage of δ13C and the δ18O in crude fiber would extend the application possibilities of stable isotope analysis in the geographical origin determination of various cooked and processed vegetables and fruits as well as raw materials.
MISC
52-
日本食生活学会誌, 26(2) 55-58 2015年9月 招待有りAcrylamide, a probable human carcinogen, is found in a wide range of high-temperature processed and/or cooked foods. Acrylamide is formed mainly from asparagine in Maillard reaction in the presence of reducing sugar such as fructose and glucose. While this compound can be metabolized to glutathione conjugates, it is also oxidized to glycidamide, a genotoxic compound. Glycidamide forms DNA adducts. Acrylamide is also known to have genotoxicity, neurotoxicity, and reproductive and developmental toxicity. The Joint FAO/WHO Expert Committee on Food Additives (JECFA) evaluated health risk of acrylamide in food. The major contributing foods to total intake of acrylamide were found to be French fries, potato chips, coffee, pastry and sweet biscuits, and bread and rolls/toasts. The committee concluded based on national estimates that an intake of 1μg/kg bw per day of acrylamide could be taken to represent the average for the general population. The Committee selected 0.18mg/kg body weight per day as the most sensitive carcinogenicity estimate from animal study data. The margin of exposure (MOE) for the general population was thus calculated to be ca. 200, which is low for carcinogen and indicates human health concern. The Code of Practice for the Reduction of Acrylamide in Foods was published by Codex Alimentarius Commission in 2009 based on scientific analytical data obtained worldwide. Although acrylamide level in foods is decreasing owing to mitigation measures taken by food industry, the MOE is considered to be still staying less than 1000.
書籍等出版物
3講演・口頭発表等
43-
日本土壌肥料学会講演要旨集 2010年9月7日
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日本植物病理學會報 2008年8月25日
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天然有機化合物討論会講演要旨集 2007年8月24日Iron acquisition is a vital process for bacteria to survive, since indispensable proteins such as chytochromes require iron to function properly. In aqueous solution, iron exists as two charged ionic form Fe(II) or three charged one Fe(III). These ferric ions are constantly insufficient in natural environments because the solubility of ferric ion is as low as 10-18M in water of biological pH, while optimum growth of one bacterial cell needs 1um of iron. In order to utilize such a low concentration of ferric ion in natural habitats, bacteria excrete low molecular compounds called siderophores, which have the ability to chelate ferric ion. Streptomycetes are gram-positive bacteria which are important as a source of bioactive compounds. In the soil where Streptomycetes dwell, it is competitive to acquire enough amount of iron to grow. Recently new kind of the peptide siderophore, coelichelin, was found in Streptomyces coelicolor by the combination of genome-mining and chemical analysis. This finding prompted us to explore the diversity of the siderophore among streptomycetes and accomplish the screening in search for new siderophore. On the course of the screening, we found new peptide siderophore named antichelin. By several separation steps, the compound was isolated with high purity. The structure of antichelin was determined by analyses of NMR and TOF-MS spectral data. As a result, antichelin was turned out to be the related compound to known siderophores such as foroxymithine and antichelin. Previously, we found that the inoculation of foroxymithine caused rapid aerial formation to S. coelicolor. There is the possibility that this kind of siderophore may function as a signal for deficiency of iron. We are interested in the biological role of this class of siderophores for the cell of streptomycetes besides iron uptake, and the further investigation to pursue this possibility will be continued.
共同研究・競争的資金等の研究課題
2-
内閣府食品安全委員会 食品健康影響評価技術研究 2015年7月 - 2016年3月
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日本学術振興会 科学研究費助成事業 2006年 - 2009年