肉碱

HPLC法测定血清肉碱的研究

Study on Determination of carnitine in serum by HPLC

西红柿（是的，也属于水果）富含维生素C和番茄红素，刺激肉碱（一种氨基酸）产生，加速身体脂肪燃烧过程。

Tomatoes - yes they are a fruit - come packed with Vitamin C and lycopene , which stimulates the production of carnitine , an amino acid that speeds up the bodys fat burning process .

方法：选择慢性肾衰保守治疗患者以及尿毒症血透患者为实验对象，并以正常人作对照，检测血浆游离肉碱（FC）浓度。

Methods : The plasma free carnitine ( FC ) concentrations were monitored in the undialyzed and dialyzed patients with CRF and normal subjects .

丙酮酸或丙酮酸-肉碱补充对定量负荷运动时脂肪动用和RPE的影响

The Effects of Supplements of Pyruvate or Pyruvate with Carnitine on the Fatty Mobilization and Utilization and RPE during the Quantitative Exercise

但32.65%的蛋白质含量与300mg／kg的肉碱添加量获得了最高的生长速度，与对照组差异不显著。

But the interaction between 32.65 % protein content and 300mg / kg carnitine content can get the beat SGR which is insignificant to the control .

对中等强度运动的高脂饮食小鼠强化高剂量肉碱能改善小鼠体重、左侧附睾脂肪垫重量、血清HDL-C、瘦素水平。

90-minutes swimming and its combination with the highest dose of Levo-carnitine can improve the rats ' bodyweight , epididymal fat pad weight and serum leptin , HDL-c.

32.65%的蛋白质含量与300mg／kg的肉碱添加量可使成本下降0.79元／千克鳖（7.92%）。

The interaction between 32 . 65 % protein content and 300mg / kg carnitine content can save 0.79 yuan / kg CSST ( 7 . 92 % ) .

TUNEL法检测附睾上皮细胞凋亡，DTNB法检测扭转侧附睾肉碱的含量。

The ipsilateral epididymides were collected for detecting the content of carnitine by DTNB technique and the apoptosis of epididymal epithelium by TUNEL technique .

不相容双质粒共表达大肠杆菌肉碱脱水酶基因caiB及其辅因子合成酶基因caiE

Coexpression of caiB and caiE with Incompatible Plasmids in E.coli

通过对高脂饮食小鼠施以90min的游泳运动以及强化肉碱的方式观察小鼠血脂指标HDL-C、TC、T的变化情况。

Through making 90 minute swimming and intensive carnitine on rats with high-fat diet , the author observed the change of blood index such as HDL-C , TC and T.

扭转5h复位后24h，扭转侧附睾上皮细胞凋亡指数与对照组相比，上升极显著（P<0.01），肉碱含量明显下降（P<0.05）。

However , there was statistically significant difference in the apoptosis of epididymal epithelium and the content of epididymal carnitine between the 5-hr group and the control ( P < ( 0.05 )) .

90min游泳及强化肉碱对高脂饮食小鼠血脂指标的影响

Effects of 90 Minute Swimming and Intensive Carnitine on Blood Lipid 's Index of Rats with High-fat Diet

目的：观察胰岛素治疗对糖尿病（DM）大鼠骨骼肌内甘油三酯（TGm）含量和肉碱-软酯酰转移酶I-β（CPTIβ-）基因表达的影响。

AIM : To study the effect of insulin administration on the content of triglyceride and the expression of carnitine palmitoyl transferase I - β ( CPTI - β) gene in skeletal muscle of diabetic mellitus ( DM ) rats .

结果表明服用左旋肉碱后，男女受试者无氧阈下的作功能力分别由99.0±10.5W和79.2±9.8W上升至111.0±7.7W和87.3±8.3W。

The results showed that anaerobic threshold was increased respectively from 99.0 ± 10.5W and 79.2 ± 9.8W to 111.0 ± 7.7W and 87.3 ± 8.3W in male and female after taking the L_carnitine .

大肠杆菌肉碱脱水酶基因的克隆、测序及高效表达

Cloning , Sequencing and High Expression of E. coli Carnitine Dehydratase

肉碱在男科临床治疗中的研究进展

Progress of Researches on Carnitines in the Clinical Therapy of Andrology

血液透析病人血浆游离肉碱测定及临床意义

The determination of free carnitine and its clinical significance in hemodialysis patients

微生物转换法&DL-肉碱解旋的新思路

Microorganism transformation new method for the resolution of DL carnitine

体内肉碱来源及其对脂类代谢的影响

The Origin of carnitine and its effect on lipid metabolism

肉碱对中华鳖脂肪代谢的影响

Effects of carnitine on adipose metabolism in Chinese soft - shelled turtles

男性性行为损伤肉碱与男性生殖

Males ' sexually related trauma Carnitines and Male Reproduction

左旋肉碱在医疗、保健食品领域的研究应用新进展

Application of Levo-carnitine in Medical Treatment and Health Food

肉碱棕榈酰转移酶-2基因突变患者的能量利用

Fuel utilization in subjects with-carnitine palmitoyltransferase 2 gene mutations

高肉碱、低脂肪饮食、以及糖皮质激素治疗有效。

High carnitine and low fat diet and treatment with glucocorticoid were effective .

脂肪累积性肌肉病患者血浆左旋肉碱含量测定的意义

Lipid storage myopathy and determination of serum free carnitine

肝病患者血清肉碱水平的临床研究

Significance of serum carnitine in patients with liver diseases

慢性肾衰患者的肉碱代谢

Carnitine metabolism in patients with chronic renal failure

目的：建立精浆游离肉碱的测定方法。

OBJECTIVE To develop a method for the determination of free carnitine in sperm .

肉碱在水产动物营养上的研究进展

The Research Advances of Carnitine in Aquatic Nutrition

肉碱脱水酶突变株的获得及其休止细胞反应条件的优化

Obtaining a mutant with carnitine-dehydratase and the optimizing of reactive conditions of rest cells