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- arginine aspartate 天冬氨酸精氨酸
- Arginine: Too much of a good thing may be bad! 精氨酸:應用太多好事會變成壞事!
- Aspartate is readily converted to asparagine. 天門冬氨酸易於轉變成天門冬醯胺。
- Arginine has been shown to interfere with lysine utilization. 精氨酸會幹擾賴氨酸的利用。
- Conclusion Azithromycin aspartate injection is stable. 結論 表明本品穩定性較好。
- The Interfering Factors of Arginine Ammonification Method. 精氨酸氨化方法的干擾因素分析。
- Century of Arginine Vasopressin Research Leading to New Therapeutic Strategies. 一個世紀的精氨酸加壓素研究造就了新的治療策略。
- Arginine accumulates extensively in some plants as a soluble amino acid. 在某些植物中,精氨酸以可溶性氨基酸大量積累。
- Methods Arginine and indirubin in this preparation were identified by TLC. 方法採用薄層色譜法鑒別該製劑中精氨酸和靛玉紅。
- The ADCs of amino acids of PBM were higher than that of DCM, except arginine. 試驗二,隨著雞肉粉添加量的增加,斑節對蝦全蝦和肌肉灰分和粗蛋白和脂肪含量均呈下降趨勢,但全蝦中水分含量增加而肌肉中水分含量降低。
- Exogenously supplied aspartate is not an active precursor of asparagine in plant tissurs. 外來供給的天門冬氨酸,在植物組織中並不是一個活躍的天門冬醯胺前體。
- Exogenously supplied aspartate is not an active precursor of asparagine in plant tissues. 外來供給的天門冬氨酸,在植物組織中並不是一個活躍的天門冬醯胺前體。
- Increase your intake of L-Lysine and decrease the amount of arginine in your diet. 在你的食譜中增加賴氨酸和減少精氨酸的攝入數量。
- Studies with labelled aspartate demonstrate its ready conversion into asparagine. 用標記的天門冬氨酸研究證明,它迅速地轉變為天門冬醯胺。
- Efron D,Barbul A.Role of arginine in immunonutrition[J]. J Gastroenterol,2000,35 (12):2023. 筱澤洋太郎.;不可缺少的氨基酸精氨酸[J]
- Effect of N methyl D,L aspartate(NMA) on fat deposition and approach of the mechanism were studied in finishing swine. 研究了不同劑量 N-甲基 -D,L-天門冬氨酸 ( NMA)對肥育豬脂肪代謝的影響。
- Serum aspartate aminotransferase(AST), albumin(ALB), total bilirubin(T BIL), hepatic glutathione(GSH) were examined. 檢測血清中 AST,T- BIL,AL B,肝組織中 GSH。
- Bicyclol had the actions of improving the liver function and depressing aspartate transaminase. 雙環醇有改善肝功能、降低血清轉氨酶的作用。
- N-acetyl aspartate (NAA),Cr/NAA and Cho/NAA le vel correlated with GOS ( P <0.05). NAA、Cr/ NAA及 Cho/ NAA與 GOS間存在直線相關關係 ;
- Objective: To assess the effect of arginine vasopressin( AVP) peptide on stressinduced hyperthermia. 目的:探討精氨酸加壓素(VP)否具有降低應激性體溫過高的作用。
