在代谢过程中,将脂肪细胞转换为能量要求氧气存在。
The metabolic process that converts fat cells to energy requires the presence of oxygen.
人体无法控制代谢过程中所消耗的热量,但可以控制吃入食物的品种与数量,以及在体力活动中消耗多少热量。
People cannot control the calories expended in metabolicprocesses, but they can control what they eat and drink, as well as how manycalories they use in physical activity.
在缺乏水分时,(植物)一般用蒸发作为降温的手段。一株植物无法消除它从阳光中所吸收的热量,或是无法消除它在新陈代谢过程中积累起来的热量。
When it is short of water, a plant, which normally USES evaporation as a means of cooling, cannot rid itself of the heat it absorbs from sunlight or the heat that may build up from its own metabolism.
糖类食品在人体代谢过程中具有如此重要作用的营养素,实际上竟然可被认为是毒素。
Sugar consumes so many vital nutrients as the body attempts to process it that it can actually be considered a poison.
当生长激素捏造跌幅在中年时它可导致疲劳增强脂肪存款因降低新陈代谢过程中总缺乏能源和肌肉放在眼里。
When HGH fabrication decreases in middle age it can result in exhaustion augmented fat deposits resulting from lowered metabolic process and total lack of energy and muscle impuissance.
赖氨酸在机体代谢过程中有着重要的作用,是鱼类所必需而植物蛋白中含量不足的限制性氨基酸。
Lysine as the "life amino acid" plays an important role in the metabolism in organisms and is restrictive amino acid necessary for fish but less in plant protein content.
维生素有催化剂作用:它们能促进其他营养物质的合成和降解,因此在控制一般代谢过程中起重要的作用。
Vitamins express catalytic functions: they can facilitate both synthesisand degradation of other nutrients – and therefore play a major role in thecontrol of general metabolism.
载脂蛋白e (APOE)在血浆脂蛋白代谢过程中起重要作用。
APOE (Apolipoprotein e, APOE) plays an important part in plasma lipoprotein metabolism.
在正常代谢过程中,活性氧的介入是有害的,活性氧引发细胞内外多种具有生物活性的化合物相互作用,最终导致机体产生病理变化。
The harmful intervention of ROS in normal metabolic processes leading to pathologic changes was a consequence of their interaction with various biological compounds inside and outside cells.
硫作为作物所必需的营养元素,在作物的生长代谢过程中起着许多重要的作用。
Sulfur is an essential element in crops nutrition, which plays a vital role in crop growth and metabolism.
前期试验采用芯片杂交技术从星星草中筛选出了一批在盐碱胁迫下高丰度表达的基因,其中包括代谢过程中的关键酶gapdh和OPDR。
Previously we have screened some highly expressed genes on saline-alkaline stress by microarray technology, including the key enzymes of metabolism GAPDH and OPDR.
前期试验采用芯片杂交技术从星星草中筛选出了一批在盐碱胁迫下高丰度表达的基因,其中包括代谢过程中的关键酶gapdh和OPDR。
Previously we have screened some highly expressed genes on saline-alkaline stress by microarray technology, including the key enzymes of metabolism GAPDH and OPDR.
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