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 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生物节律的运转。
Clock genes is prevalent in biological world, and they can bring and control biological circadian rhythm.
有些妇女的生物钟比别人的走得快,而现在,研究人员们已经发现可以解释妇女们生育生活长短差异的首要基因依据。
Some women's biological clocks tick faster than others, and now, researchers have uncovered the first genetic evidence to explain differences in the length of women's fertile lives.
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。
One of the genes involved in regulating this clock is known as PER3 and comes in two forms.
人们携带的基因变异因为它们细胞里的“生物钟”的不同而各不相同。
People carrying the variant had differences in the "biological clock" within all their cells.
科学家们得出的结论是,处于激素稳定期的女性想要一个最适合做父亲的男人;而当那个生物钟敲响之时,女人想要的则是人猿泰山般的基因。
The scientists concluded that when it comes to settling down, women want a male who is the best parental investment. But when the biological bells are ringing, they want Tarzan's genes.
科学家认为生物钟是受基因活动影响,但是藻类和红细胞没有基因也同样按照生物钟运行。
Scientists had thought that the circadian clock was driven by gene activity, but both the algae and the red blood cells kept time without it.
验血结果表明,这两位妇女含突变基因DEC2,它能影响昼夜节律,也就是人体生物钟。
Blood tests showed the women harbored a mutation in a gene named DEC2 that's involved in regulation of circadian rhythms, the body's clock.
科学家们发现了一种能控制人睡眠时间长短的基因,这解释了为什么一些人拥有自己私人的生物钟。
A gene that controls how long we sleep has been discovered by scientists explaining why some people have their own internal alarm clock.
目前,科学家们知道,大约有15%的人类基因由生物钟控制。
Scientists now know that about 15 percent of a human's genes are governed by these biological clocks.
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 clock genes and the coded protein comprise the self-sustaining feedback loop that can regulate both on the transcriptional and on the translational level.
CO能够将光信号与生物钟信号整合,调节开花基因flowering LOCUST (FT)的表达,并最终控制植物的开花时间。
CO can integrate the light signal into circadian clock and regulates the expression of FLOWERING LOCUS t (FT) which induced floral.
CO能够将光信号与生物钟信号整合,调节开花基因flowering LOCUST (FT)的表达,并最终控制植物的开花时间。
CO can integrate the light signal into circadian clock and regulates the expression of FLOWERING LOCUS t (FT) which induced floral.
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