BIOSYNTHESIS AND DEGRADATION OF CARNOSINE AND TURNOVER RATE OF ITS CONSTITUENT AMINO ACIDS IN RATS
スポンサーリンク
概要
- 論文の詳細を見る
The biosynthesis and destruction of anserine and carnosine in the rat were investigated in vivo using radioactive β-alanine, histidine and methylhistidine. In the normal rat, the incorporation of 14C-histidine and 14C-β-alanine into carnosine was found to proceed at significant rates, but their incorporation into anserine was hardly detectable. Radioactive anserine arising from 3H-Nπ-methylhistidine was detected in gastrocnemius muscle of the rat pretreated with β-alanine. Neither anserine nor carnosine biosynthesis was found in liver, but was found in gastrocnemius muscle. At 8 hr after the administration of a single dose of 14C-histidine or 14C-β-alanine, the incorporation of radioactivity into carnosine attained a plateau, and then maintained the level for the investigated period. Incorporation of 14C-histidine into carnosine was increased about 2-fold when rats were injected in advance with f-alanine. The half-lives of histidine and β-alanine were 0.67 and 0.41 hr in liver, and 3.6 and 2.3 hr in gastrocnemius muscle, respectively. β-Alanine and histidine in rat gastrocnemius muscle disappeared at the rates of 39 and 29 nmol/wet tissue (g)/hr, respectively. The half-life of carnosine, as was determined from the decrease in carnosine contents in the gastrocnemius muscle of a rat fed a histidine-free diet, was 29 days. The rate constant of carnosine biosynthesis in rat gastrocnemius muscle was 0.321 μmol/DNA (mg)/day, that is, 0.286 μmol/wet tissue (g)/day.
- 財団法人 学会誌刊行センターの論文
著者
-
玉木 七八
Laboratory of Nutritional Chemistry, Faculty of Nutrition, Kobe-Gakuin University
-
浜 堯夫
Laboratory of Nutritional Chemistry, Faculty of Nutrition, Kobe-Gakuin University
-
原田 光子
Laboratory of Nutritional Chemistry, Faculty of Nutrition
-
池田 建比古
Laboratory of Nutritional Chemistry, Faculty of Nutrition, Kobe-Gakuin University
-
森岡 幸子
Laboratory of Nutritional Chemistry, Faculty of Nutrition, Kobe-Gakuin University
-
池田 建比古
Laboratory of Nutritional Chemistry, Faculty of Nutrition
-
玉木 七八
Laboratory of Nutritional Chemistry, Faculty of Nutrition
-
森岡 幸子
Laboratory of Nutritional Chemistry, Faculty of Nutrition
-
浜 堯夫
Laboratory of Nutritional Chemistry, Faculty of Nutrition
関連論文
- EFFECT OF HISTIDINE-FREE AND -EXCESS DIETS ON ANSERINE AND CARNOSINE CONTENTS IN RAT GASTROCNEMIUS MUSCLE
- EFFECT OF DIETARY METHIONINE LEVEL ON ANSER INE AND CARNOSINE CONTENTS IN THE GASTROCNEMIUS MUSCLE OF RAT
- The In Vivo Decrease of β-Alanine-2-Oxoglutarate Aminotransferase Activity Caused by-6-Azauracil and 5-Fluorouracil
- Inhibitory Effect of Zn2+ on Rabbit Muscle Pyruvate Kinase and Reactivation by Histidine
- INHIBITORY EFFECTS OF Zn2+ ON MUSCLE GLYCOLYSIS AND THEIR REVERSAL BY HISTIDINE
- BIOSYNTHESIS AND DEGRADATION OF CARNOSINE AND TURNOVER RATE OF ITS CONSTITUENT AMINO ACIDS IN RATS
- METABOLISM OF Nπ -METHYLHISTIDINE IN RATS
- ANSERINE AND CARNOSINE CONTENTS IN MUSCULAR TISSUE OF RAT AND RABBIT
- The utilization of carnosine in rats fed on a histidine-free diet and its effect on the levels of tissue histidine and carnosine.
- Effect of pyridoxine deficiency and prednisolone on .BETA.-alanine-oxoglutarate aminotransferase and D-3-aminoisobutyrate aminotransferase in rat liver and kidney.
- Inhibitory effect of 6-azauracil on .BETA.-alanine metabolism in rat.
- Submitochondrial localization of rat liver .BETA.-alanine-oxoglutarate aminotransferase.
- Carnosine as a histidine source: Transport and hydrolysis of exogeneous carnosine by rat intestine.