有种依赖一氧化碳生存的生物,我们利用其还原能力使水分子破裂,制造出氢和氧。
We have one organism that lives off of carbon monoxide, and we use as a reducing power to split water to produce hydrogen and oxygen.
光合作用的生物在还原空气里的二氧化碳的同时也消耗氧气。
While photosynthetic life reduced the carbon dioxide content of the atmosphere, it also started to produce oxygen.
首先,提供了生物系统中电子转移的机制、理论和结构,然后分析了氧化还原蛋白器件设计的策略及结构。
First, the mechanisms, theory, and structures for electron transfer in biological systems are provided, followed by analysis of the strategies and structures engineered in redox-protein devices.
本文从土壤结构、水分、温度、氧化还原电位以及微生物活性等方面分析了水稻半旱栽培技术增产的原因。
The high yield technique on the rice ridge cultivation were discussed from soil structure, water-thermal regime, oxidation-reduction potential and microorganism activity in paddy soils.
为考查异化还原微生物在浸出金属氧化物中的行为,提高微生物浸出深海多金属结核的效率。
Behavior of microbial dissimilatory reduction in the process of bioleaching metal oxide was researched to increase the leaching efficiency of Marine manganese nodules.
目前研究表明氧化铁厌氧还原主要是微生物介导的异化还原过程。
Now some research said the process of iron oxide anaerobic reduction is mainly a microbial dissimilatory iron reduction.
氧化还原蛋白-电极系统可以应用在包括能源、生物医学以及环境等多种领域。
Redox protein–electrode systems are evolving for several applications, including energy, biomedical and environmental purposes.
普鲁士蓝(PB)可以作为许多生物化学物质的人工酶来修饰惰性电极,用来催化它们的氧化还原。
Prussian Blue (PB) can be modified on inert electrodes acting as artificial enzyme of many biological or chemical substances to catalyse their REDOX reactions.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
本文研究了落叶松碱性亚硫酸盐蒸煮中,蒽醌及其几种衍生物作为氧化还原性催化剂对蒸煮反应的影响。
The effect of anthraquinone and some derivatives as oxido reductive additives on the cooking result of alkaline sulfite anthraquinone pulping is studied.
温度对丙酮酸生物合成动力学、能荷和氧化-还原度的影响。
Effects of Temperature on the Kinetics and Level of Energy Charge and Oxidation-Reduction State in Pyruvate Biosynthesis.
可通过微生物的氧化还原作用、生物吸附富集和溶解作用,达到修复重金属污染土壤的目的。
The soil pollution by heavy metals are remedied by oxidation, reduction, bioadsorption and dissolution of soil microorganisms.
这为研究河口区氧化还原敏感元素的生物地球化学过程提供了天然的实验场所。
As a natural laboratory, studies of the Yangtze Estuary maybe provide insight into for examining biogeochemical processes of redox sensitive elements in hypoxia environments.
依据常规生物脱氮原理,脱氮过程包括将氨氮氧化为硝酸盐氮或亚硝酸盐氮的硝化反应和将硝酸盐氮或亚硝酸盐氮还原为氮气的反硝化反应。
Based on traditional biological nitrogen removal theory, nitrogen removal involves nitrification of ammonia to nitrate or nitrite followed by denitrification of nitrate or nitrite to nitrogen gas.
结论:壳聚糖通过降低地钱细胞还原能力而增强其氧化能力,从而有利于酚类次生代谢的生物合成。
Conclusion: The ability to de-oxidation decreases and an oxidation increase of Marchantia polymorpha cells induced by chitosan may favor the phenolic compounds biosynthesis.
所以我们选择测定细胞内的活性氧、还原型谷胱甘肽、超氧化物歧化酶和丙二醛作为评价氧化损伤程度的生物标志物。
So we choose to measure intracellular reactive oxygen species, glutathione, superoxide dismutase and malondialdehyde(MDA) as the biomarker evaluation of oxidative damage.
这些活性中心在生物体中扮演着许多重要角色,如氧化还原、电子传递、路易斯酸催化等。
These active centers play many important roles in biological system, such as oxidation-reduction, electron transfer, catalyse of lewis acid.
设置曝气装置,增加水体的含氧量,促进有益细菌及其他微生物的活动,增强其对污染物的吸附、氧化、分解和还原的作用。
Set device for exposure to increase the oxygen content in water and the activity of beneficial microorganisms, as well as their action of absorbing, oxidizing, decomposing and reducing pollutants.
它能催化o_2、H_2O_2和过氧化物还原,在生物燃料电池和过氧化氢传感器等方面有潜在的应用前景。
It can catalyze the reduction of O2, H2O2 and peroxides. Thus, it possesses the potential application prospect in biofuel cell and H2O2 sensor etc.
以水稻土为供试样品,在厌氧培养条件下测定了不同土壤中氧化铁的还原状况,比较了不同氧化铁矿物的微生物还原能力。
Different paddy soils as tested samples, reduction status of difference soils was be determined under anaerobic incubation, and the ability of microbial iron reduction was be compared.
二氢硫辛酰胺脱氢酶是一种广泛存在于各种生物并在能量代谢中起重要作用的黄素氧化还原酶。
Dihydrolipoamide dehydrogenase (DLDH), a flavin-dependent oxidoreductase, is an ubiquitous enzyme which presents in variety of organisms and plays an important role in energy metabolism.
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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