速调醇

Tachysterol is a photoisomer of vitamin D3, formed when this vitamin is exposed to ultraviolet light."
Tachysterol是维生素D3的一种光异构体，当维生素D3暴露于紫外线时就会形成。
The study found that tachysterol played a significant role in the process of skin darkening upon UV exposure.
研究发现，tachysterol在皮肤经紫外线照射后变黑的过程中起到重要作用。
Tachysterol's molecular structure differs from that of vitamin D3 primarily due to the rearrangement of double bonds under UV radiation."
Tachysterol的分子结构与维生素D3的主要区别在于其在紫外线辐射下双键重新排列。
Although less biologically active than vitamin D3, tachysterol still has some effects on calcium metabolism.
尽管tachysterol的生物活性不如维生素D3，但它仍对钙代谢有一定的影响。
Scientists are exploring the potential use of tachysterol as a photoprotective agent against excessive sun exposure.
科学家正在探索将tachysterol作为防止过度日晒的光保护剂的潜在用途。
Tachysterol synthesis can be an indicator of the body's response to sunlight, helping researchers understand sun-related health effects."
tachysterol的合成可以作为身体对阳光反应的指标，帮助研究人员理解与阳光相关的健康效应。
Excessive accumulation of tachysterol in the body might lead to adverse effects, highlighting the need for balanced sun exposure.
体内过量积累tachysterol可能导致不良影响，这突显了适度日晒的重要性。
In-vitro studies have shown that tachysterol can inhibit the proliferation of certain cancer cells.
体外研究表明，tachysterol能够抑制某些癌细胞的增殖。
Unlike vitamin D3, tachysterol does not require further hydroxylation in the liver and kidneys to become biologically active.
与维生素D3不同，tachysterol不需要在肝脏和肾脏进一步羟基化以变得具有生物活性。
Tachysterol's unique properties make it a subject of interest in dermatology and photobiology research."
Tachysterol的独特性质使其成为皮肤病学和光生物学研究中的一个有趣课题。