蔗糖制劑 的英文怎麼說
中文拼音 [zhètángzhìjì]
蔗糖制劑
英文
sucrose preparation- 蔗 : 名詞(甘蔗) sugarcane
- 糖 : Ⅰ名詞1 [化學] (碳水化合物) sugar 2 (食糖的統稱) sugar 3 (糖果) sweets; candy; sweety Ⅱ形容...
- 制 : Ⅰ動詞1 (製造) make; manufacture 2 (擬訂; 規定) draw up; establish 3 (用強力約束; 限定; 管束...
- 劑 : Ⅰ名詞1 (藥劑; 制劑) a pharmaceutical or other chemical preparation 2 (某些有化學作用的物品) a...
- 蔗糖 : 1 (有機化合物) saccharose; sucrose; saccharobiose2 (用甘蔗榨汁熬成的糖) cane sugar; sugar; sa...
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Many researchers have conducted experimellts about it, but not succeeded. culture media were compared to find the best medium of gingkgo culture for controlling callus browning by different sugars, antioxidants and sorbents. the result showed that the medium with ms + zt 1. 0mg / l + naa 1. 0mg / l + sucrose 50g / l + agar 8g / l + ac 2g / l was the best medium, at l5 days subculturing intervals
銀杏組織培養過程中,尤其是在愈傷組織的繼代培養中,褐變現象特別嚴重,曾有不少的人做過這方面的研究,但都沒有成功,而本研究通過對不同糖類物質、抗氧化劑、吸附劑以及不同的培養基對褐變的影響和控制效果,探索出有效控制褐化現象發生的最佳培養條件,試驗結果表明: ms + zt1 . 0mg / l + naa1 . 0mg / l +蔗糖50g / l +瓊脂8g / l + ac2g / l培養基上的繼代效果最好,繼代時間最好在15d左右。Some recent developments and some main products produced from bagasse, such as ethanol, xylitol, feed of animal, enzymes, edible fungi were reviewed, and the researches and utilizations of bagasse resources in the near future were discussed
摘要對國內外利用蔗渣生產乙醇、木糖醇、動物飼料、酶制劑、食用菌等生物產品的研究進展進行了綜述,並對今後蔗渣資源的研究和利用提出一些看法。Methods of utilization for molasses have been introduced in this paper, including simple utilization, such as feedstuff additive and concrete additive, and extraction of available component, for example sucrose, betaine and caramel pigment etc
主要介紹了糖蜜的初級利用,即直接作為飼料添加劑和混凝土外加劑,以及從糖蜜中提取有效成份,如:蔗糖、焦糖色素、甜菜堿以及制備液體糖和紅糖粉的方法。Were used to investigate the dehydration protection in the physiological and chemical levels represented by the changes of photosynthesis, sucrose, antioxidants and electrolyte leakage during desiccation and subsequent rehydration, and molecular mechanisms of dehydration tolerance by means of mrna differential display based on the studies of deng ' s
Br成熟植株的離體葉片為實驗材料,以光合作用、蔗糖、抗氧化劑系統和離子滲漏等在脫水復水過程中的變化為切入點,從生理生化水平上探討其耐脫水復甦的機制;同時應用mrna差異顯示技術,從分子水平上探討其耐脫水復甦的機制。分享友人