Clock genes is prevalent in biological world, and they can bring and control biological circadian rhythm.
生物钟基因普遍存在于生物界,其作用在于产生和控制昼夜生物节律的运转。
The clock genes were strongly expressed specifically in outer layers of the adrenal gland that are responsible for corticoid production.
时钟基因特别在肾上腺皮质激素的主要产地肾上腺的外层高度表达。
One study may help explain why: the amount of daylight to which newborn mice are exposed sets the behavior of key biological clock genes for life.
一项研究或许可以给出解释:这些新的小生命接触日光的多少决定了身体中控制生理时钟的基因的特性。
The circadian clock genes, which generate circadian rhythms and maintain its the running, exist in organisms ranging from prokaryotes to mammals.
生物钟基因普遍存在于生物界,其作用在于产生和控制昼夜节律的运转。
The clock genes and the coded protein comprise the self-sustaining feedback loop that can regulate both on the transcriptional and on the translational level.
生物钟相关基因相继被分离鉴定,它们及其编码的蛋白质产物构成的自主调节的转录和翻译反馈环是生物钟运转的分子机制。
The circadian expression of clock genes and components of adiponectin metabolic pathway in the liver was tested at the RNA, protein, or enzyme activity level.
表达的昼夜节律时钟的基因和部分脂联素代谢途径的肝脏是测试的RNA,蛋白质,或酶活性水平。
To find out how the adrenal clock ticks, the researchers first treated slices of adrenal tissue from normal mice and mice lacking critical clock genes at different time points.
为了发现肾上腺钟是如何控制的,研究者在不同的时间处理了小鼠和时钟基因缺失的小鼠的肾上腺切片。
One of the genes involved in regulating this clock is known as PER3 and comes in two forms.
我们认为PER3是有关调节生物钟的基因之一,且它有两种形态。
The genes that control the body clock are most active in parts of the brain called the suprachiasmatic nuclei.
控制节律钟的基因在视交叉上核(大脑的某个部位)上表现得最为活跃,但是与其他基因一样,它们在几乎所有细胞中都存在。
We're not looking for genes that simply specify a clock. The story, when it emerges, will intrinsically be quite complicated.
我们不是寻找简单的指向一个记录的基因,当一个情况发生时它的内部将是十分复杂的。
We're not looking for genes that simply specify a clock. The story, when it emerges, will intrinsically be quite complicated.
我们不是寻找简单的指向一个记录的基因,当一个情况发生时它的内部将是十分复杂的。
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