曲酸是微生物利用淀粉糖原料好氧发酵产生的一种弱酸性化合物。
Kojic acid is a kind of weak acid chemical compound that was produces by microorganism that make fine oxygen ferment with the starch candy raw materials.
在与菲共同降解的过程中,吐温80亦能作为碳源被降解微生物利用。
During the biodegradation process, Tween 80 can be utilized by microbe as a carbon source.
作者介绍了微生物利用废弃物如麦芽根、水产排水等产生絮凝剂的研究与应用。
It is mainly introduced that the research and application of flocculant produced from microorganism by using wastes such as malt roots, fishery drainage etc.
农作物秸秆含有大量难降解的木质素,难于直接被厌氧微生物利用,降低了高固体厌氧消化技术处理农作物秸秆的效率。
The straw contains a high content of lignin, which cannot be well utilized by anaerobic bacteria in high solid anaerobic digestion process.
利用微生物种群共生共培养来研究木薯淀粉的生物降解性。
The biodegradability of tapioca starch was studied by using micropopulation symbiotic cocultures.
已经知道一些光合细菌能够利用红外光,但是和植物和蓝细菌不同,这些微生物光合的时候不能产生氧气。
Some photosynthetic bacteria are known to use infrared light, but—in contrast to plants andcyanobacteria—these microorganisms do not produce oxygen.
但是这样做会导致浪费和污染。然而蚂蚁却利用微生物完成了这个过程。
But this leads to waste and pollution, "and the ants accomplish it through microbes."
当生物技术应用于食品加工时,主要利用微生物菌剂来强化食物的一些特性,诸如口感,香味,储存期,质感和营养价值。
Biotechnology as applied to food processing makes use of microbial inoculants to enhance properties such as the taste, aroma, shelf-life, texture and nutritional value of foods.
如果发明中利用了基因资源,专利申请人必须申明其所使用的所有从人、动植物或微生物中获取的遗传物质。
They require patent applicants to declare any use of hereditary material obtained from humans, animals, plants or microbes if inventions are dependent on those genetic resources.
项目目标:将微生物与电化学催化系统结合起来,利用氢气和二氧化碳生产丁醇,再利用化学方法将丁醇转化为航空燃料。
Project Goals: Develop a combined microbial and electrochemical catalytic system that converts hydrogen and carbon dioxide into butanol, and find a chemical method to convert butanol into jet fuel.
要把利用光合微生物的大胆想法变成现实,还有不少问题要解决。
Problems remain, however, in putting the bold idea to practical use.
科学家利用的微生物名叫棕色固氮菌(Azotobactervinelandii),它们存在于各种粮食作物的根系。
Scientists were working with a microbe called Azotobacter vinelandii, which is found around the roots of various food plants.
这个新发现的菌株可以利用任何来源的纤维素,不只是纸。事实上这种微生物是从动物粪便里发现的。
The newly discovered strain can be used to make fuel from any source of cellulose, not just paper. TU-103 was discovered in animal feces.
能够每天复制100多万次的微生物完全有可能利用我们留下的任何机会,适应、侵入和躲避。
Organisms that can replicate more than a million times a day are well-equipped to exploit any opportunities we give them to adapt, invade, and evade.
Joule说他们是第一家为可以直接利用太阳能连续分泌碳氢化合物染料的微生物申请专利的公司。
Joule said it was the first company to patent an organism that secretes hydrocarbon fuel made continuously, directly from sunlight.
利用土壤微生物获取航空燃料:3,948,493美元。
这个过程叫做化能合成,并且很多不同的微生物都能利用这种能源,比如世界各地生活在岩石和土壤中的微生物。
This process is called chemosynthesis, and a lot of different microbes can do it, microbes living in rocks and soils all over the world.
在动物营养和生产上所应用的生物技术通常都以微生物的利用为基础,包括那些通过DNA重组技术而生产的微生物。
Biotechnologies for animal nutrition and production are often based on the use of micro-organisms, including those produced through recombinant DNA technology.
这种在潜水大量繁殖的紫微生物中发现的涂料可以利用太阳光将二氧化碳转化为碳水化合物,然后细菌就使用这些碳水化合物作为能量。
The pigment, found in purple microorganisms that thrive in shallow water, harnesses sunlight to convert carbon dioxide to carbohydrates, which the bacteria then uses for energy.
最终,培养基中只剩下像蓝细菌这类能够利用近红外光进行光合作用的微生物存活下来。
Eventually, only microorganisms like cyanobacteria capable of photosynthesis using near-infrared light survived in the cultures.
因此,解决这个问题的最好方法之一,只有利用微生物了。微生物就是一座座完美无缺的微型工厂,如果经过合理设计,所有的化学反应过程都可以在微生物细胞内进行。
One of the best solutions to the drawbacks, therefore, seems to be microbes, which are perfect little factories because they can be engineered to perform practically any chemical reaction.
利用等离子体来杀灭微生物并不是新鲜事。
或者假设他们可以利用遗传技术改变微生物的基因,比如可以将太阳能转化为乙醇,那样的话,增长会无限持续下去吗?
Or suppose that they genetically engineer a microbe, for example, that converts solar energy into ethanol.Could growth then continue indefinitely?
或者假设他们可以利用遗传技术改变微生物的基因,比如可以将太阳能转化为乙醇,那样的话,增长会无限持续下去吗?
Or suppose that they genetically engineer a microbe, for example, that converts solar energy into ethanol.Could growth then continue indefinitely?
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