METABOLIC ACTIVITIES OF VITAMIN D IN ANIMALS:II. ACTION OF VITAMIN D3 IN ACTIVE SULFATE METABOLISM OF CHICKS
スポンサーリンク
概要
- 論文の詳細を見る
1. The chicks were given S35-sulfate orally and intramuscularly and the radioactivities of the left tibia, keel and skin were tested. The deposition of S35-sulfate in the tissues of the birds receiving vitamin D3 was found to be higher than those receiving vitamin D2 or vitamin D-deficient group.2. Carrier-free P32-phosphate solution was supplied orally or intramuscularly, and the radioactivities of the left tibia, keel and skin were estimated. Increased levels of P32-phosphate were always seen in the groups receiving vitamin D3.3. The activity of citrate oxidase increased significantly in the group receiving vitamin D3, while no influence was observed on the ability of oxidative phosphorylation of citrate in the liver.4. No influence was observed on the pyruvate oxidative phosphorylating ability and pyruvate oxidase activity in the liver homogenate by the administration of vitamin D3.5. The glutathione level in the blood was estimated, and the increase was statistically significant in the group receiving vitamin D3. But no influence of glutathione in the liver was observed. As for the oxidized glutathione levels, no effects were seen in both blood and liver.6. From these findings, there seems to be some intimate relationship in chicks between vitamin D3 metabolism and active sulfate metabolism postulated by Lipmann.
- 日本ビタミン学会の論文
著者
-
田中 庸雄
Laboratory of Nippon Formula Feed Manufacturing Co. Ltd
-
西川 哲三郎
Laboratory of Nippon Formula Feed Manufacturing Co. Ltd
-
高橋 正侑
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
稲葉 繁
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
宮沢 栄子
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
檜垣 宮都
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
鈴木 隆雄
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
佐橋 佳一
Laboratory of Biochemistry and Nutrition, Tokyo Agricultural University
-
西川 哲三郎
Laboratory of Nippon Formula Feed Manufacturing Co. Ltd.
-
佐橋 佳一
Laboratory Biochemistry and Nutrition, Tokyo University of Agriculture
-
宮沢 栄子
Laboratory of Biochemistry and Nutrition, Department of Agricultural Chemistry, Tokyo University of Agriculture
-
鈴木 隆雄
Laboratory of Biochemistry and Nutrition, Department of Agricultural Chemistry, Tokyo University of Agriculture
-
田中 庸雄
Laboratory of Nippon Formula Feed Manufacturing Co. Ltd.
-
鈴木 隆雄
Laboratory Biochemistry and Nutrition, Tokyo University of Agriculture
-
檜垣 宮都
Laboratory Biochemistry and Nutrition, Tokyo University of Agriculture
-
高橋 正侑
Laboratory Biochemistry and Nutrition, Tokyo University of Agriculture
関連論文
- マングロ-ブ樹木の化学成分特性-2-樹皮タンニンの化学的性質とその定量法
- シロアリにおける有機リン系化合物の作用機構-1-薬剤の侵入経路について
- ヤナギマツタケプロトプラストからの菌糸再生と子実体形成〔英文〕
- 《座談会》東南アジアとの学術交流--タイの場合 (特集:東南アジア諸国との学術交流)
- 日本工業規格(JIS K 1570木材保存剤, 1571木材保存剤の性能試験方法及び性能基準)の改正に寄せて
- 会長に就任して
- 品確法関連に思う
- ビタミンD代謝の生化学的研究 : (XI)母乳の抗クル病効果
- 7.ビタミンD代謝の生化学的研究(XXX) : 母乳の抗クル病効果(第107回会議研究発表要旨)
- 7.ビタミンD代謝の生化学的研究(XXIX) : 組織中のビタミンD硫酸エステルの存在(続報)(第106回会議研究発表要旨)
- 2.ビタミンD代謝の生化学的研究(XXVIII) : 組織中のビタミンD硫酸エステルの存在(第103回会議研究発表要旨)
- 1.ビタミンD代謝の生化学的研究(XXVII) : ビタミンD硫酸エステルの急性毒性試験(第103回会議研究発表要旨)
- ビタミンD代謝の生化学的研究 : (X)水溶性ビタミンD_2硫酸エステルの生物活性
- ビタミンD代謝の生化学的研究 : (IX)動物乳汁より水溶性ビタミンD硫酸エステルの分離と同定
- 9.ビタミンD代謝の生化学的研究(XXVI) : 乳汁中のビタミンD硫酸エステルの存在(第102回会議研究発表要旨)
- 8.ビタミンD代謝の生化学的研究(XXV) : 乳汁中のビタミンD硫酸エステルの存在について(予)(第101回会議研究発表要旨)
- 7.ビタミンD代謝の生化学的研究(XXIV) : シロネズミによるビタミンD_2硫酸エステルの生合成(続)(第101回会議研究発表要旨)
- 9.ビタミンD代謝の生化学的研究(XXIII) : ビタミンD硫酸エステル過剰投与実験(第100回会議研究発表要旨)
- 8.ビタミンD代謝の生化学的研究(XXII) : ビタミンD硫酸エステルの膜透過性(第98回会議研究発表要旨)
- 産卵中の日本うずらに及ぼす飼料の蛋白質及びエネルギー含量の影響
- FORMATION OF DEOXYINOSINE FROM INOSINE BY WASHID CELL SUSPENSION OF VITAMIN B12-REQUIRING STRAIN OF LACTOBACILLUS LEICHMANNII
- ISOTOPIC STUDIES ON 2′-DEOXYINOSINE-8-C14 FORMATION FROM INOSINE-8-C14 BY WASHED CELL SUSPENTION OF VITAMIN B12-REQUIRING STRAIN OF LACTOBACILLUS
- METABOLIC ACTIVITIES OF VITAMIN D IN ANIMALS:II. ACTION OF VITAMIN D3 IN ACTIVE SULFATE METABOLISM OF CHICKS
- THE EFFECT OF VITAMIN B12 ADMINISTRATION ON JAPANESE CHILDREN
- METABOLIC PATHWAYS OF CAROTENE TO VITAMIN A IN ANIMALS:III. DEGRADATION OF β-CAROTENE AND VITAMIN A IN RAT INTESTINE
- Metabolic Fate of 3-(2-Methyl-4′-amino-pyrimidyl-(5′))-4-methyl-5-β-chloroethyl-thiazolium after Oral Administration
- Antirachitic Potency of Vitamin D Sulfate in Human Milk
- Biological Activities of Riboflavin-dibutyrates in Rats
- BIOCHEMICAL STUDIES ON VITAMIN METABOLISM IN POULTRY:IV. ON THE URINARY RECOVERY OF THIAMINE IN POULTRY AFTER ADMINISTRATION OF SOME NOVEL THIAMINE DERIVATIVES
- METABOLIC ACTIVITIES OF VITAMIN D IN ANIMALS:VI. PHYSIOLOGICAL ACTIVITIES OF VITAMIN D SULFATE
- METABOLIC ACTIVITIES OF VITAMIN D IN ANIMALS:III. BIOGENESIS OF VITAMIN D SULFATE IN ANIMAL TISSUES
- GROWTH STIMULATING ACTIVITIES OF VITAMIN-DEPENDENT ENZYMES IN FRESH LIVER FOR RAINBOW TROUT FINGERLINGS
- METABOLISM OF VITAMIN D IN ANIMALS:V. ISOLATION OF VITAMIN D SULFATE FROM MAMMALIAN MILK
- BIOCHEMICAL STUDIES ON VITAMIN METABOLISMS IN POULTRY URINE:III. METABOLIC FATE OF THIAMINE-S35 IN POULTS AFTER ADMINISTRATION OF THIAMINE-S35
- METABOLIC ACTIVITIES OF VITAMIN D IN ANIMALS:IV. DISTRIBUTION OF VITAMIN D SULFOKINASE IN ANIMAL TISSUES AND ITS ISOLATION
- STUDIES ON THE FORMATION OF BIOTIN FROM DESTHIORIOTIN AND SULFATE IN SACCHAROMYCES CEREVISIAE:II. ON SULFUR SOURCES OF BIOTIN FORMATION BY WASHED CELL SUSPENSION OF YEAST
- STUDIES ON THE FORMATION OF BIOTIN FROM DESTHIOBIOTIN AND SULFATE IN SACCHAROMYCES CEREVISIAE:I. ON BIOTIN FORMATION FROM DESTHIOBIOTIN BY WASHED CELL SUSPENSION OF YEAST
- STUDIES ON THE FORMAION OF BIOTIN FROM DESTHIOBIOTIN AND SULFATE IN SACCHAROMYCES CEREVISIAE:III. ISOTOPIC STUDIES ON BIOTIN FORMATION FROM DESTHIORIOTIN AND S35-LABELLED SULFATE BY WASHED CELL SUSPENSION OF YEAST
- タイ国マングロ-ブ林域の有機塩素系農薬の残留について
- METABOLIC ACTIVITIES OF MONONUCLEOSIDES ON THE ACTIVATION OF LIVER-PYRUVATE OXIDASE SYSTEM RELATING TO THIAMINE DIPHOSPHATE
- METABOLIC ACTIVITY OF INOSINE ON THE INCORPORATION OF D-RIBOFLAVIN INTO RAT-LIVER XANTHINE OXIDASE SYSTEM