節生鈉 的英文怎麼說

中文拼音 [jiéshēng]
節生鈉 英文
mendok
  • : 節構詞成分。
  • : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
  • : 名詞[化學] (金屬元素) sodium (na)
  1. We have put large amounts of money on scientific research and acquired enviable achievements. our company is the first state - run enterprise that invents metal shell heat eliminating technology, heat insulating mattress and multi - stabilizer driving technology to solve the heat eliminating problem of high - power energy saving lamps. we produce various types of energy saving lamps from 3w - 240w, which are widely used to instead of industrial lighting lamps like metallic halogen lamp, sodium lamp and auto - stabilized high - pressure hydrargyrum lamp. our company has passed the iso9001 : 2000 quality certification

    聖路電器是一家專業產大功率能燈的高素質公司,在科研開發上進行了大量的投入並取得了卓越的成績,率先發明金屬外殼散熱隔熱空氣墊及多鎮流器推動技術,很好的解決了大功率能燈的散熱問題,可產3w240w的各型能燈,廣泛用於替代金屬鹵化燈燈自鎮流高壓汞燈等工業照明用燈。
  2. Enter calcium, which, by inhibiting the actiity of the sodium pump, regulates signal firing, and may consere energy and keep the high - frequency cells from burning out

    加入鈣離子,可以抑制泵的活動,調信號的產,可以保存能量,保護高頻細胞。
  3. Minami s, okazaki t, tanaki t, et al. a study of the effect of intra - articular injection of slm10 ( sodium hyaturinat ) on osteoarthritis of the knee [ j ]. jpn pharmacol ther, 1993 ; 21 ( suppl ) : 569 - 79

    凌沛學,蘇淮,賀艷麗,等.玻璃酸對關腔內注入木瓜蛋白酶所致膝關退行性改變的改善作用[ j ] .中國化藥物雜志, 1996 ; 17 ( 6 ) : 242 - 6
  4. Sodium plays a number of vital roles in the human body, contributing to the metabolizing of protein and carbohydrates, the transmission of nerve impulses, muscle contraction, hormone regulation, consumption of oxygen by cells, control of urine production, thirst, and the production of liquids ( blood, saliva, tears, perspiration, gastric juices, and bile )

    擔任人體維持命所必需的角色,貢獻為蛋白質和碳水化合物的代謝、神經沖動傳輸、肌肉收縮,調內分泌,細胞氧的消耗,控制尿的成、乾渴,和液體(血液、唾液、眼淚、汗水、胃汁液和膽汁)的產
  5. This review will discuss the role of epithelial sodium channel ( enac ) and the cystic fibrosis transmembrane conductance regulator ( cftr ) in regulating the fluid volume and composition of the reproductive tract and their importance in various reproductive events such as sperm capacitation and implantation

    本綜述著重探討了上皮細胞離子通道和囊性纖維化跨膜電導調體對雌性殖道內液體容量和成分的調以及它們在不同殖事件,比如精子獲能及著床中的重要作用。
  6. Water quality - physical, chemical and biochemical methods - determination of sodium and potassium : determination of sodium by atomic absorption spectrometry

    水質.第2部分:物理化學和物化學方法.第42:和鉀含量測定:原子吸收光譜法測定
  7. Water quality - physical, chemical and biochemical methods - determination of sodium and potassium : determination of sodium and potassium by flame emission spectrometry

    水質.第2部分:物理化學和物化學方法.第44:和鉀的測定:火焰發射光譜法和鉀測定
  8. The frequency of applying penicillin, acillin and cefamezin was quite high, representing more than 60 % of all antibiotics. obviously, they are the main medicines for infectious diseases

    注射用青霉素、注射用氨青霉素、注射用頭抱哇晰的使用頻率較高,三項之和占抗素使用頻率的60以上,為抗感染治療的主要藥物。
  9. The npr - c is a membrane - bound receptor that lacks the intracellular guanylate cyclase domains of the biologically active receptors and is therefore uncoupled with cgmp. npr - c functions as a clearance receptor by binding with and internalizing natriuretic peptides. nprs are widely and differently distributed in most tissues and can be up - or down - regulated in many pathological processes, which indicates that they have different effects on different tissue and participate in the regulation of their physiological and pathological process

    正常情況下,三種受體在體內均廣泛分佈,但在不同組織中的分佈有很大差異,而且在不同病理條件下尿肽受體數目還可發上調和下調,提示尿肽家族及其受體對不同組織器官的作用不同,並參與它們的理和病理過程的調
  10. Inhibition of ros activity by catalase, n - acetylcysteine or diphenylene iodonium abrogated low k + - induced increases in the - subunit promoter activity, 1 - and 1 - subunit polypeptide abundance, and binding sites of na, k - atpase, indicating the role of ros in the effect of low k +

    抗氧化劑nac與catalase 、 dpi能抑制低鉀的作用。提示ros產與細胞膜nadph氧化酶有關。進一步研究表明, h2o2 ,而非超氧根離子參與了低鉀對鉀atp酶的調
  11. Secondly, this paper studied the effect of different concentration nacl on wheatgrass and pointed out that the wheatgrass could maintain well - balanced physiology at light salt stress, but at high salt stress, the membrane penetrability increased, fresh weight reduced, the development was restrained distinctly, and the osmoregulatory substance increased notably, at last the plants perished. from these results, this paper concluded that the wheatgrass had strong salt resistance

    二、用不同濃度的nacl (氯化)溶液對冰草植株進行根際滲透脅迫發現,冰草在低鹽濃度脅迫下能夠保持正常的理代謝,而高濃度鹽脅迫下植株質膜透性增大,鮮重減少,長明顯受到抑制,有機滲透調物質顯著增加,長時間脅迫植株死亡。
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