A kidney, for instance, has only eight cell types.
比如,打印一个肾脏只需要用到八种不同类型的细胞。
An entire mammalian body, though, has 220 cell types.
不过,一个完整的哺乳动物机体中有220种不同类型的细胞。
Laying these down in the correct order is a much more complex problem.
按照正确的顺序将这些细胞组合起则要复杂得多。
To solve it, GeneDupe s researchers used nanotomography, a precise form of CT scanningthat has a resolution of 500 nanometres,
为了解决这个问题,GeneDupe的研究人员运用纳米断层摄影技术对不同动物中每一个细胞的位置与特性进行分析。
to analyse the position and nature of every single cell in a variety of animals, particularlybreeds of dog.
纳米断层摄影技术是一种更为精密的计算机断层扫描技术,其分辨率可达500纳米。
This knowledge not only permits existing breeds to be re-created,
获得动物机体中细胞的位置与特性信息以后,不仅可以将现有品种再制造出来,
but allows entirely new combinations of form, colour and behaviour to be invented, at thecustomer s command.
还可以根据顾客的需求,将动物的形状、颜色及习性进行组合制造出一些全新的品种。
【2015考研英语阅读定制宠物】相关文章:
最新
2016-10-18
2016-10-11
2016-10-11
2016-10-08
2016-09-30
2016-09-30