phlorizin

简明释义

英[ˈflɒrɪzɪn]美[fləˈraɪzɪn]

n. 根皮甙；果树根皮精

英英释义

单词用法

同义词

反义词

例句

1.Marked differences were observed in the electrogenic property natdependence of mucosal influx and sensitivity to phlorizin.

观察到了生电性质、黏膜注入和根皮苷敏感性方面显著的区别。

2.Marked differences were observed in the electrogenic property natdependence of mucosal influx and sensitivity to phlorizin.

观察到了生电性质、黏膜注入和根皮苷敏感性方面显著的区别。

3.Phlorizin is applied in medicine.

根皮苷被应用于医药领域。

4.Phlorizin is derived from the bark of apple trees and has been used in traditional medicine.

phlorizin来源于苹果树的树皮，曾在传统医学中使用。

5.The study highlighted the potential of phlorizin as a treatment for obesity-related conditions.

研究强调了phlorizin作为肥胖相关疾病治疗的潜力。

6.In laboratory tests, phlorizin showed significant effects on glucose absorption.

在实验室测试中，phlorizin对葡萄糖吸收表现出显著效果。

7.Researchers found that phlorizin can help regulate blood sugar levels in diabetic patients.

研究人员发现phlorizin可以帮助调节糖尿病患者的血糖水平。

8.The antioxidant properties of phlorizin make it a valuable compound in health supplements.

由于其抗氧化特性，phlorizin成为健康补充剂中的一种有价值的化合物。

作文

Phlorizin, a natural compound found in the bark of apple trees, has garnered significant attention in the field of pharmacology and biochemistry. This intriguing substance is a glucoside of phloretin and is primarily known for its role as an inhibitor of glucose reabsorption in the kidneys. The discovery of phlorizin has opened up new avenues for research into diabetes management and the understanding of renal glucose transport mechanisms. In this essay, I will explore the properties, functions, and potential therapeutic applications of phlorizin, shedding light on why it is considered a valuable compound in medical science.The chemical structure of phlorizin allows it to interact with specific transport proteins in the renal tubules. These proteins, known as sodium-glucose co-transporters (SGLTs), are responsible for reabsorbing glucose from the urine back into the bloodstream. By inhibiting these transporters, phlorizin effectively increases the excretion of glucose through urine, leading to lower blood sugar levels. This mechanism mimics the action of certain modern diabetes medications, making phlorizin a subject of interest for researchers looking to develop new treatments for diabetes mellitus.In addition to its role in glucose regulation, phlorizin has been studied for its antioxidant properties. Antioxidants are crucial in protecting cells from oxidative stress, which can lead to various chronic diseases, including cardiovascular disorders and neurodegenerative conditions. Preliminary studies suggest that phlorizin may help mitigate oxidative damage, thereby providing a dual benefit in managing diabetes and promoting overall health.Moreover, the sourcing of phlorizin from natural sources like apple trees adds an intriguing aspect to its appeal. As consumers become increasingly interested in natural remedies and plant-based treatments, phlorizin stands out as a compound that aligns with these preferences. Research into the extraction and purification of phlorizin from apple bark could pave the way for developing dietary supplements that harness its benefits without the need for synthetic alternatives.Despite the promising attributes of phlorizin, challenges remain in its application as a therapeutic agent. One significant hurdle is its bioavailability; when consumed, phlorizin may not be efficiently absorbed by the body, limiting its effectiveness. Researchers are actively exploring various formulations and delivery methods to enhance the absorption of phlorizin and maximize its therapeutic potential.In conclusion, phlorizin is a fascinating compound with multiple roles in glucose metabolism and cellular protection. Its ability to inhibit glucose reabsorption makes it a candidate for diabetes treatment, while its antioxidant properties contribute to its overall health benefits. As research continues to uncover the full range of effects and potential applications of phlorizin, it may play a pivotal role in the future of diabetes management and preventive healthcare. Understanding and harnessing the power of phlorizin could lead to innovative strategies for improving health outcomes and enhancing the quality of life for individuals living with diabetes.

phlorizin是一种天然化合物，主要存在于苹果树的树皮中，在药理学和生物化学领域引起了广泛关注。这种有趣的物质是苯乙醇糖苷的葡萄糖苷，主要以抑制肾脏中葡萄糖重吸收而闻名。phlorizin的发现为糖尿病管理和肾脏葡萄糖转运机制的研究开辟了新的途径。在本文中，我将探讨phlorizin的特性、功能及潜在的治疗应用，阐明它为何被视为医学科学中一种有价值的化合物。phlorizin的化学结构使其能够与肾小管中特定的转运蛋白相互作用。这些蛋白质称为钠-葡萄糖共转运蛋白（SGLTs），负责将尿液中的葡萄糖重新吸收到血液中。通过抑制这些转运蛋白，phlorizin有效地增加了通过尿液排泄的葡萄糖，导致血糖水平降低。这一机制模仿了某些现代糖尿病药物的作用，使得phlorizin成为研究人员寻找新型糖尿病治疗方法的重点。除了在葡萄糖调节中的作用外，phlorizin还因其抗氧化特性而受到研究。抗氧化剂在保护细胞免受氧化应激方面至关重要，氧化应激可能导致各种慢性疾病，包括心血管疾病和神经退行性疾病。初步研究表明，phlorizin可能有助于减轻氧化损伤，从而在管理糖尿病和促进整体健康方面提供双重益处。此外，从苹果树等自然来源提取phlorizin为其吸引力增添了一个有趣的方面。随着消费者对天然疗法和植物治疗的兴趣日益浓厚，phlorizin作为一种符合这些偏好的化合物脱颖而出。对phlorizin从苹果树皮中提取和纯化的研究可能为开发利用其益处的膳食补充剂铺平道路，无需合成替代品。尽管phlorizin具有良好的前景，但在其作为治疗剂的应用中仍然面临挑战。一个重大障碍是其生物利用度；当摄入时，phlorizin可能无法被身体有效吸收，限制了其效果。研究人员正在积极探索各种配方和给药方法，以增强phlorizin的吸收并最大化其治疗潜力。总之，phlorizin是一种具有多重角色的迷人化合物，在葡萄糖代谢和细胞保护中发挥作用。其抑制葡萄糖重吸收的能力使其成为糖尿病治疗的候选者，而其抗氧化特性则有助于其整体健康益处。随着研究继续揭示phlorizin的全部效果和潜在应用，它可能在未来的糖尿病管理和预防医疗中发挥关键作用。理解和利用phlorizin的力量可能会导致创新策略，从而改善健康结果，提高糖尿病患者的生活质量。