lipogenesis

简明释义

英[ˌlɪpəʊˈdʒenɪsɪs]美[lɪpoʊˈdʒenɪsɪs]

n. [生化] 脂肪生成

英英释义

单词用法

同义词

反义词

例句

1.CONCLUSION: it is indicated that Araceae colocasia extracts could inhibit adrenaline-induced lipolysis and could stimulate insulin-induced lipogenesis from glucose in fat cells.

结论：里芋含有拮抗肾上腺素诱发的脂肪分解和胰岛素类样作用的物质。

2.CONCLUSION: it is indicated that Araceae colocasia extracts could inhibit adrenaline-induced lipolysis and could stimulate insulin-induced lipogenesis from glucose in fat cells.

结论：里芋含有拮抗肾上腺素诱发的脂肪分解和胰岛素类样作用的物质。

3.A recent identification of cross-talk between FASN and well-established cancer-controlling networks begins to delineate the oncogenic nature of FASN-driven lipogenesis.

目前一项鉴定研究FASN与构建良好的肿瘤控制网络的工作已开始描述揭示FASN驱使的脂肪生成的致癌本质。

4.Conclusion RAS in the mesenteric adipose tissues is active in rats with metabolic syndrome, and antagonization of RAS can recover the lipogenesis of adipocyte.

结论代谢综合征大鼠肠系膜脂肪组织中ras系统处于激活状态，拮抗ras能恢复脂肪细胞的基本功能。

5.A robust increase in denovo lipogenesis rendered the adipose tissue of these mice resistant to the deleterious effects of dietary lipid exposure.

这些小鼠脂肪组织内脂质从头合成的明显增加使得它们对于饮食脂质暴露的不利影响具有抵抗能力。

6.Increased denovo lipogenesis is a distinct characteristic of individuals with nonalcoholic Fatty liver disease.

【译】增加从头脂肪生成与非酒精性脂肪肝的人的一个显著特点。

7.Excessive carbohydrate intake can lead to increased lipogenesis (脂肪生成), resulting in weight gain.

过量的碳水化合物摄入会导致增加lipogenesis（脂肪生成），从而导致体重增加。

8.The study focused on the role of insulin in stimulating lipogenesis (脂肪生成) in liver cells.

这项研究集中于胰岛素在刺激肝细胞中lipogenesis（脂肪生成）中的作用。

9.During periods of fasting, lipogenesis (脂肪生成) is reduced as the body shifts to utilizing fat for energy.

在禁食期间，lipogenesis（脂肪生成）减少，因为身体转向利用脂肪作为能量。

10.Certain medications can influence lipogenesis (脂肪生成) and may lead to side effects such as weight gain.

某些药物可以影响lipogenesis（脂肪生成），并可能导致体重增加等副作用。

11.A diet high in saturated fats may promote lipogenesis (脂肪生成) and increase the risk of cardiovascular diseases.

高饱和脂肪的饮食可能促进lipogenesis（脂肪生成），并增加心血管疾病的风险。

作文

Lipogenesis is a crucial metabolic process that plays a significant role in the body's energy balance and fat storage. This process involves the conversion of carbohydrates and proteins into fatty acids, which are then stored as triglycerides in adipose tissues. Understanding lipogenesis (脂肪生成) is essential for comprehending how our bodies manage energy and store fat, especially in the context of modern lifestyles that often lead to excess caloric intake. The significance of lipogenesis (脂肪生成) extends beyond mere fat storage; it is intricately linked to various health conditions. When the body is in a state of positive energy balance, meaning that it consumes more calories than it expends, lipogenesis (脂肪生成) is activated to convert the surplus energy into fat. This mechanism is vital for survival, providing a reserve of energy that the body can utilize during periods of fasting or increased energy demand. However, excessive lipogenesis (脂肪生成) can lead to obesity and related metabolic disorders. When individuals consistently consume high amounts of carbohydrates, particularly refined sugars, the body may overproduce fatty acids. This not only contributes to increased fat storage but can also result in insulin resistance, type 2 diabetes, and cardiovascular diseases. Therefore, understanding how lipogenesis (脂肪生成) works can help individuals make informed dietary choices that promote better health. The regulation of lipogenesis (脂肪生成) is influenced by several factors, including hormones, diet, and physical activity. Insulin, for instance, is a key hormone that stimulates lipogenesis (脂肪生成) after meals. When we eat, insulin levels rise, promoting the uptake of glucose by cells and encouraging the conversion of excess glucose into fatty acids. Conversely, during fasting or low-carbohydrate diets, the body experiences decreased insulin levels, leading to reduced lipogenesis (脂肪生成) and increased fat oxidation. Dietary choices significantly impact lipogenesis (脂肪生成) as well. A diet rich in simple carbohydrates can enhance lipogenesis (脂肪生成), while a balanced diet that includes healthy fats, proteins, and complex carbohydrates can help regulate this process. Foods high in omega-3 fatty acids, for example, have been shown to decrease lipogenesis (脂肪生成) and promote fat oxidation, making them beneficial for weight management. Physical activity is another critical factor in regulating lipogenesis (脂肪生成). Regular exercise increases energy expenditure, which can counterbalance the effects of excess caloric intake. Furthermore, exercise has been found to enhance insulin sensitivity, thereby reducing the stimulation of lipogenesis (脂肪生成) and promoting fat utilization for energy. In conclusion, lipogenesis (脂肪生成) is an essential metabolic pathway that affects our overall health and well-being. By understanding the mechanisms behind lipogenesis (脂肪生成) and its regulation, individuals can make better lifestyle choices that promote a healthy balance between energy intake and expenditure. This knowledge is particularly important in today's society, where obesity and metabolic disorders are increasingly prevalent. Through mindful eating and regular physical activity, we can effectively manage lipogenesis (脂肪生成) and support our body's health.

脂肪生成是一个关键的代谢过程，在身体的能量平衡和脂肪储存中发挥着重要作用。这个过程涉及将碳水化合物和蛋白质转化为脂肪酸，然后以甘油三酯的形式储存在脂肪组织中。理解lipogenesis（脂肪生成）对理解我们身体如何管理能量和储存脂肪至关重要，尤其是在现代生活方式常常导致过量热量摄入的背景下。 lipogenesis（脂肪生成）的重要性不仅仅在于脂肪储存；它与各种健康状况密切相关。当身体处于正能量平衡状态时，即摄入的卡路里超过消耗的卡路里，lipogenesis（脂肪生成）被激活，将多余的能量转化为脂肪。这一机制对生存至关重要，为身体在禁食或能量需求增加期间提供了能量储备。 然而，过度的lipogenesis（脂肪生成）可能导致肥胖和相关的代谢疾病。当个体持续摄入大量碳水化合物，特别是精制糖时，身体可能会过度产生脂肪酸。这不仅会导致脂肪储存增加，还可能导致胰岛素抵抗、2型糖尿病和心血管疾病。因此，理解lipogenesis（脂肪生成）如何运作可以帮助个体做出明智的饮食选择，以促进更好的健康。 lipogenesis（脂肪生成）的调节受多种因素影响，包括激素、饮食和身体活动。例如，胰岛素是激励餐后lipogenesis（脂肪生成）的关键激素。当我们进食时，胰岛素水平上升，促进细胞对葡萄糖的摄取，并鼓励将多余的葡萄糖转化为脂肪酸。相反，在禁食或低碳水化合物饮食期间，身体经历胰岛素水平下降，从而减少lipogenesis（脂肪生成）并增加脂肪氧化。 饮食选择也显著影响lipogenesis（脂肪生成）。富含简单碳水化合物的饮食可以增强lipogenesis（脂肪生成），而包含健康脂肪、蛋白质和复杂碳水化合物的均衡饮食可以帮助调节这一过程。例如，富含Omega-3脂肪酸的食物已被发现可以减少lipogenesis（脂肪生成）并促进脂肪氧化，使其对体重管理有益。 身体活动是调节lipogenesis（脂肪生成）的另一个关键因素。定期锻炼增加能量消耗，可以抵消过量热量摄入的影响。此外，锻炼还被发现可以增强胰岛素敏感性，从而减少对lipogenesis（脂肪生成）的刺激，促进脂肪作为能量的利用。 总之，lipogenesis（脂肪生成）是一个影响我们整体健康和福祉的重要代谢途径。通过理解lipogenesis（脂肪生成）背后的机制及其调节，个体可以做出更好的生活方式选择，以促进能量摄入和支出的健康平衡。这一知识在当今社会尤为重要，因为肥胖和代谢疾病日益普遍。通过注意饮食和定期锻炼，我们可以有效管理lipogenesis（脂肪生成）并支持我们身体的健康。