This could lead to bacterial 'factories' that would manufacture artificial organisms designed for specific tasks.
这可能导致细菌“工厂”的出现,以及为特定人物而制造的人工生物的诞生。
Critics said the experiment raises concerns about the unknown risks of artificial organisms and the emerging science is too loosely regulated.
而批判者认为这项试验使人们增加了人工生物体可能带来未知风险的担忧,并且这项新试验管理松散。
The experiment could open the door to production of artificial organisms whose original genetic material is replaced entirely by man-made DNA, the researchers said.
研究人员称,这项试验打开了一扇门,可以用人造dna完全替换细菌原有的遗传物质制造出人工生物体。
In contrast, whole genome transplantation might allow scientists to make more significant genetic changes to bacterial DNA or design artificial organisms from scratch.
与之相比,科学家们通过全基因组移植可以使细菌dna发生更有意义的遗传学改变,或可以从头开始设计人工生物体。
Biological risk: refers to the food should not occur in any unexpected organism or add artificial biological organisms, can not harm human health.
生物性危险:指食品中不应该出现任何意外的生物有机体或人为添加的生物有机体,不能危害人类的健康。
Bacterial artificial chromosome (BAC) libraries are the most convenient, reliable and widely used genomic libraries in genome research of organisms with highly complex genomes.
细菌人工染色体(BAC)文库是复杂基因组生物的基因组研究中最方便、最可靠、应用最广的文库。
Based on this theory, Artificial wetland technique, gets very efficient treating effect by combining organisms and man-made facilities.
人工湿地技术基于这一原理将生物与人工设施结合起来得到十分有效治理效果。
They knew from past studies that it was common for organisms exposed to artificial selection to carry evidence of such tinkering in the form of duplicate chromosomes and genes.
他们从以往的实验中发现人人工培育通常会留下缝缝补补的痕迹——那些人工培育的微生物,常常都带有重复的染色体和基因。
Artificial life science explores the characteristics of living organisms.
人工生命科学就是研究生物机体的特征。
The process by which this vital element cycles through the air, the soil and living organisms has been turbocharged by human use of artificial fertilisers.
由于受到人类使用人工肥料的影响,这一重要元素在空气、土壤和有机生物中循环的过程中急速增长。
The artificial reduction of sunlight reception may force the many living organisms on Earth to change their photosynthesis methods in adapting to the new living criterion.
人为性减少太阳光照,或许会迫使地球上的许多生物改变光合作用的方式,以适应新的自然条件。
The artificial reduction of sunlight reception may force the many living organisms on Earth to change their photosynthesis methods in adapting to the new living criterion.
人为性减少太阳光照,或许会迫使地球上的许多生物改变光合作用的方式,以适应新的自然条件。
应用推荐