carbon metabolism 中文意思是什麼

carbon metabolism 解釋
碳代謝作用
  • carbon : n. 1. 【化學】碳。2. 【電學】碳精棒[片、粉];碳精電極。3. (一張)復寫紙。4. 復寫的副本。
  • metabolism : n. 【生物學】新陳代謝,代謝作用。
  1. Conclusion : lower folate, lower vitamin b12 and raised homocysteine levels predicted incident depression, supporting an aetiological role of one - carbon metabolism

    結論:低葉酸、維生素b12水平和高同型半胱氨酸水平與隨訪中抑鬱的發生相關,支持單碳物質代謝與抑鬱的病因相關。
  2. Mannose wire on the significance of modern nutrition is, as dietary fiber have been deemed no nutritional role of the waste, has been ignored until recent years a large number of clinical and epidemiological research on human dietary fiber found a very good balance of nutrition and regulating metabolism function, it is carbon water chemosynthetic of an important component of the human body is an essential nutrient

    甘露絲對現代營養學的意義在於,由於膳食纖維曾被當作沒有任何營養作用的廢物,一直不受重視,直到近年來大量的臨床學和流行病學研究,發現膳食纖維對人體有很好的平衡營養和調節代謝的功能,它是碳水化合物的重要組成部分,是人體必不可少的營養素。
  3. Analysis of activity of p - galactosidase showed that cryld - lacz expressed differently in the same host because of different carbon sources and differenly in different hosts utlizing same carbon sources, suggesting that metabolism pathway of carbon source in hd - 133 - 5 was special

    首次報道了cry1d - lacz在同一菌株中的表達因碳源不同而異,在碳源相同的條件下不同菌株的表達也不相同,而衍生菌株hd - 133 - 5的代謝途徑非常特殊。
  4. Objectives : to investigate cross - sectional and prospective associations between key components of one - carbon metabolism and late - life depression

    目的:研究單碳物質代謝的核心成分與老年抑鬱癥的橫向和縱向相關性。
  5. Terrestrial plants are classified into three major photosynthetic types, namely, c3, c4 and crassulacean acid metabolism ( cam ) plants, according to the mechanism of their photosynthetic carbon assimilation. c4 plants have co2 concentrating mechanism and higher photosynthetic efficiency than c3 plants, especially under high light intensity, high temperature, high oxygen partial pressure and drought conditions

    本研究利用c _ 3植物、 c _ 4植物、旱稻與稗草等的雜交後代的材料,進行光合速率的測定,進一步分析植株在光能吸收傳遞、氣孔調節、羧化反應等生理特性,研究高光效的生理機制。
  6. At the same time, the result of the functional diversity of soil microbial community indicated that soil microbial metabolism quotient ( awcd ), microbial community richness and shannon index all decreased significantly in red soils polluted by cadmium and lead compared with non - polluted soils. these results suggested the structure of microbial community have changed, decreased the functional diversity of microbial community, and reduced the microbial number utilizing different carbon resources

    Biologgn測試結果顯示,鎘、鉛污染紅壤微生物群落代謝剖面( awcd )及群落豐富度、多樣性指數均顯著低於非污染土壤,表明重金屬污染引起了土壤微生物群落功能多樣性下降,減少了能利用有關碳源底物的微生物數量、降低了微生中義摘要物對單一碳源底物的利用能力,最終導致土壤微生物群落功能多樣性發生變化。
  7. The studies on the biogeochemistry of carbon and nitrogen, carbon and nitrogen cycle in forest ecosystems, or photosynthates supply for nitrogen assimilation and metabolism of plant indicated that carbon and nitrogen could influence each other

    不論探討碳與氮之生物地質化學,或森林生態系碳與氮養分循環,甚至整株植物產生光合產物供給氮同化與代謝所需,都顯示碳與氮彼此能相互影響。
  8. As an important blood biochemical index, the concentration of in blood serum, which is carbon dioxide combinability, reflects on the metabolism enginery activity. it can be used in judging the clinic patient ' s acid - alkali balance and electrolyte foul - up

    =血清中濃度即二氧化碳結合力,是血生化中一項重要指標,反映了新陳代謝機能活動,可用於判斷臨床病人酸堿平衡和電解質紊亂。
  9. From the result of electrophoresis, it known that the different components of the enzyme system were expressed cooperatively. in order to study the essence of cellualase induction of different carbon sources, the extracellular, plasm - membrane - bound and intracellular cellulases were made to transform different soluble inducers, and the productions were analyzed by gc chromatogram. the results supported the assumption that cellobiose acted as the direct inducer or the metabolic analogue, b - gentiobiose from cellobiose acted as the true inducer through different metabolism ways in different strains

    制備細胞膜外、細胞膜、細胞內纖維素酶,用定位於這三部位的纖維素酶分別轉化底物,然後進行氣相色譜定性分析,從而探討了不同碳源之間的誘導本質,結果認為不可溶的胞外纖維素以纖維二糖為橋梁,遵循不同的代謝途徑,直接或間接地誘導了兩株不同真菌纖維素酶的合成。
  10. When we used tree physiology to explain the growth and production of plants which depended on basic metabolism and environment, we must consider that abilities to produce carbon and nitrogen metabolites

    摘要植物生理學用於解釋整株植物的生長與生產力時,是如何取決于基本代謝與所處環境,須考慮植物產生碳與氮同化產物能力的大小。
  11. In this article, we would explore the carbon - nitrogen interactions in terms of distributions carbon and nitrogen reservoirs of tissues, the effects of carbohydrates on nitrogen uptake, and the effects between assimilation and metabolism of carbon and nitrogen

    本文將就植物體內碳氮儲藏庫于各個器官間之分配情形、碳水化合物對氮吸收之影響,以及碳與氮同化與代謝之相互影響等方面,探討碳與氮之交互作用。
  12. Thus it can be seen that soil microbial biomass carbon, microbial biomass nitrogen, soil microbial biomass c : n ratio and microbial metabolism quotient are very sensitive to heavy metals pollution in red soils

    可認為,微生物生物量碳、基礎呼吸、微生物代謝商、脫氫酶活性及土壤微生物生物量c n比是敏感反映cd 、 pb污染狀況的生物學指標。
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