将离子束应用于纤维分解细菌是诱变育种的新尝试。
Applying the ion beam to the Bacteria of Cellulose hydrolysis is a new attempt.
细菌的发酵作用有助于分解消化道内的植物纤维,但由于大象平均每天要吃150公斤左右的植物,其中约有60%都是直接排出体外。
Bacterial fermentation helps to break cellulose down in the digestive tract, but of pachyderms' average daily intake of 150kg or so of plant matter, about 60% passes right through.
细菌被安置在石墨纤维制成的阳极上,分解污水中的脂肪、蛋白质和糖类,此过程中产生的稳定的电子流将被直接输入电极。
Bacteria housed on a graphite fiber anode break down the fats, proteins and sugars in sewage, freeing up a steady stream of electrons, which the bacteria transfer directly into the electrode.
酶是由基因改性的细菌或者真菌生产的,与白蚁的唾沫,而白蚁因为能分解纤维素而臭名昭著。
The enzymes are usually made by gene-modified bacteria or fungi and resemble the saliva of termites, which is notoriously good at dissolving cellulose.
首先,要把纤维素分解为糖,然后细菌再由转变为乙醇。
First you need to break cellulose down to sugars and then bacteria can convert them to ethanol.
在这里,您肠道中的健康细菌分解了纤维,产生氢气,二氧化碳,甚至甲烷。
Here, healthy bacteria in your gut break down the fiber, which produces hydrogen, carbon dioxide, and even methane.
这些微小的细菌和原生动物可分解纤维素.成可吸收的营养。
These microscopic bacteria and protozoa break down cellulose and fiber into digestible nutrients.
用CMC糖化力法和纤维素减重法探讨了对一组高效稳定的纤维素分解细菌复合系MC1的产酶条件。
The conditions of cellulase production of microbial consortia MC1 capable of degrading cellulose with high efficiency were investigated with CMC saccharogenic powder and gravimetry.
添加苜蓿皂甙对细菌总数的影响不大但对纤维分解菌和产甲烷菌的生长和繁殖有抑制作用,对产甲烷菌的影响大于对纤维分解菌的影响。
Cellulose-decomposed bacteria and methanogen counting decreased, but the effect of alfalfa saponin on methanogen counting was more than on cellulose-decomposed bacteria counting.
因为超过一半的工业酵素反应需要在高温环境下进行,因此来自于细菌的热稳定性纤维素分解在工业应用上具有潜在的利用价值。
Because of more than half of the industrial enzymatic reactions were operated under high temperature, thermostable cellulases from bacteria are potentially valuable for industrial applications.
因为超过一半的工业酵素反应需要在高温环境下进行,因此来自于细菌的热稳定性纤维素分解在工业应用上具有潜在的利用价值。
Because of more than half of the industrial enzymatic reactions were operated under high temperature, thermostable cellulases from bacteria are potentially valuable for industrial applications.
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