lipoplast
简明释义
n. 脂质体
英英释义
A lipoplast is a type of cell that specializes in storing fat, typically found in adipose tissue. | 脂肪细胞是一种专门储存脂肪的细胞,通常存在于脂肪组织中。 |
单词用法
脂肪塑形疗法 | |
脂肪塑形手术 | |
进行脂肪塑形 | |
脂肪塑形手术结果 |
同义词
脂肪细胞 | 脂肪细胞以脂肪的形式储存能量。 | ||
脂质细胞 | 脂质细胞在新陈代谢中起着至关重要的作用。 |
反义词
脂解 | 脂解是分解脂肪的过程。 | ||
分解代谢 | Catabolism involves the breakdown of complex molecules into simpler ones. | 分解代谢涉及将复杂分子分解为更简单的分子。 |
例句
1.Methods:Based on indirect hemagglutination reaction, the author used globin lipoplast to establish latex agglutination test to determine occult blood.
方法:以间接血凝反应为依据,应用脂质体建立胶乳凝集实验测定便潜血。
2.Methods:Based on indirect hemagglutination reaction, the author used globin lipoplast to establish latex agglutination test to determine occult blood.
方法:以间接血凝反应为依据,应用脂质体建立胶乳凝集实验测定便潜血。
3.The scientist discovered that the presence of lipoplast (脂肪小体) in the cells was crucial for energy storage.
科学家发现细胞中存在的lipoplast (脂肪小体) 对能量储存至关重要。
4.In obesity research, lipoplast (脂肪小体) plays a significant role in understanding fat accumulation.
在肥胖研究中,lipoplast (脂肪小体) 在理解脂肪积累方面发挥了重要作用。
5.The biologist examined how lipoplast (脂肪小体) affects cellular metabolism.
生物学家研究了lipoplast (脂肪小体) 如何影响细胞代谢。
6.Patients with metabolic disorders often have dysfunctional lipoplast (脂肪小体).
患有代谢疾病的患者通常有功能失调的lipoplast (脂肪小体)。
7.The study revealed that lipoplast (脂肪小体) can influence insulin sensitivity.
研究揭示了lipoplast (脂肪小体) 可以影响胰岛素敏感性。
作文
In the realm of cellular biology, the term lipoplast refers to a specialized type of organelle that plays a crucial role in the storage and metabolism of lipids within cells. Understanding the function and significance of lipoplast can enhance our comprehension of various biological processes, including energy storage, membrane formation, and signaling pathways. Lipids, which include fats and oils, are essential for maintaining cellular integrity and providing energy for metabolic activities. The lipoplast serves as a reservoir for these lipids, allowing cells to manage their energy resources efficiently. The structure of a lipoplast is fascinating; it typically consists of a lipid droplet surrounded by a monolayer of phospholipids and proteins. This unique architecture enables the lipoplast to store large amounts of lipids in a compact form, making it an efficient energy reserve. When the cell requires energy, the stored lipids can be mobilized and metabolized through various biochemical pathways, converting them into usable energy forms such as ATP (adenosine triphosphate). Moreover, lipoplast is not only involved in energy storage but also plays a significant role in cellular signaling. Certain lipids stored within the lipoplast can act as signaling molecules, influencing various cellular processes such as growth, differentiation, and apoptosis (programmed cell death). This dual functionality of lipoplast highlights its importance in maintaining cellular homeostasis and responding to environmental changes. Research has shown that alterations in lipoplast function can lead to various metabolic disorders, including obesity, diabetes, and cardiovascular diseases. For instance, an accumulation of lipids in the lipoplast may indicate an imbalance between lipid storage and utilization, leading to excessive fat accumulation in tissues. Understanding the mechanisms regulating lipoplast function could pave the way for developing therapeutic strategies aimed at treating these metabolic conditions. In conclusion, the study of lipoplast offers valuable insights into cellular metabolism and the intricate balance of energy storage and utilization. As research in this field progresses, we may uncover more about how lipoplast contributes to overall health and disease. This knowledge not only enhances our understanding of cellular biology but also has profound implications for public health, as managing lipid metabolism is crucial for preventing and treating various health issues. Therefore, the exploration of lipoplast should continue to be a priority in biological research, as it holds the key to unlocking new avenues for medical advancements and improving human health.
在细胞生物学领域,术语lipoplast指的是一种特殊类型的细胞器,在细胞内脂质的储存和代谢中发挥着至关重要的作用。理解lipoplast的功能和意义可以增强我们对多种生物过程的理解,包括能量储存、膜形成和信号传导途径。脂质,包括脂肪和油,是维持细胞完整性和为代谢活动提供能量所必需的。lipoplast作为这些脂质的储存库,使细胞能够有效管理其能量资源。 lipoplast的结构令人着迷;它通常由一个脂质滴组成,周围包裹着单层磷脂和蛋白质。这种独特的结构使得lipoplast能够以紧凑的形式储存大量脂质,从而成为一种高效的能量储备。当细胞需要能量时,储存的脂质可以通过各种生化途径动员和代谢,将其转化为可用的能量形式,如ATP(腺苷三磷酸)。 此外,lipoplast不仅参与能量储存,还在细胞信号传导中发挥重要作用。储存在lipoplast中的某些脂质可以作为信号分子,影响诸如生长、分化和凋亡(程序性细胞死亡)等多种细胞过程。lipoplast的这种双重功能突显了其在维持细胞稳态和响应环境变化中的重要性。 研究表明,lipoplast功能的改变可能导致各种代谢疾病,包括肥胖、糖尿病和心血管疾病。例如,lipoplast中脂质的积累可能表明脂质储存和利用之间的不平衡,导致组织中脂肪的过度积累。理解调节lipoplast功能的机制可能为开发针对这些代谢疾病的治疗策略铺平道路。 总之,研究lipoplast提供了对细胞代谢及其能量储存和利用之间微妙平衡的宝贵见解。随着该领域研究的进展,我们可能会发现更多关于lipoplast如何促进整体健康与疾病的信息。这一知识不仅增强了我们对细胞生物学的理解,还对公共健康具有深远的影响,因为管理脂质代谢对预防和治疗各种健康问题至关重要。因此,探索lipoplast应继续成为生物研究的重点,因为它掌握着开启医疗进步和改善人类健康的新途径的钥匙。
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