“这给了真核生物基因原料,使它们能够积累新的基因。从规模上来讲,重大基因家族和调节系统对于细菌来讲是完全无法负担的”莱恩博士说。
"This gives eukaryotes the genetic raw material that enables them to accumulate new genes, big gene families and regulatory systems on a scale that is totally unaffordable to bacteria," said Dr Lane.
我们有的一切都属于我们原核生物的祖先,所以我们继续在真核生物中发现原核生物系统并不新鲜;实际上,如果我们没发现那才奇怪呢。
We owe everything to our prokaryotic ancestors and so it is not surprising that we continue to find prokaryotic systems in eukaryotes; in fact, it would be surprising if we did not.
我们仍然需要解释的是更特化的真核生物的磷酸化途径是怎么进化而来并取代了细菌的系统。
What still needs to be explained is how the more typical eukaryotic phosphorylation cascades evolved and came to replace the bacterial systems.
纤毛虫是单细胞的原生动物,在进化上属于低等的真核生物,但其各细胞器之间囊泡运输系统极为完善。
Ciliate, a unicellular protozoa and low eukaryotes in evolution, has perfect vesicular trafficking system among organelles.
该病毒作为载体,应用在杆状病毒-昆虫真核生物表达系统。
It is applied as a carrier in expression system of granulosis virus insect eucaryotic biology.
实验结果表明:该系统使用合适的真核表达载体提供脊灰病毒结构蛋白的技术路线是可行的。
The result indicated: in this system, the technique of eukaryotic expression vector providing poliovirus capsid protein was possible.
精确预测剪接位点是真核基因系统研究的第一步。
Accurate prediction for splice sites is the primary step in the system research for eukaryotic genes.
结论建立了两个高效表达突变CD59的真核表达系统,获得阳性克隆细胞株。
Conclusion a eukaryotic system that expressing mutant CD59 cDNA was successfully set up.
酵母表达系统是在酿酒酵母质粒的发现和酵母转化技术的成熟基础上建立起来的真核生物表达系统。
Yeast expression systems are based on the discover of plasmid in Saccharomyces cere- visiae and success of yeast transformation.
该系统在真核模式微生物酿酒酵母中是必需存在的,在维持胞内氧化还原平衡和抵抗氧胁迫中发挥主要作用。
In eukaryotic model microbe Saccharomyces cerevisiae, this system is obligatory in maintaining the REDOX balance and defending the oxidative stress.
该系统在真核模式微生物酿酒酵母中是必需存在的,在维持胞内氧化还原平衡和抵抗氧胁迫中发挥主要作用。
In eukaryotic model microbe Saccharomyces cerevisiae, this system is obligatory in maintaining the REDOX balance and defending the oxidative stress.
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