氨作用 的英文怎麼說
中文拼音 [ānzuòyòng]
氨作用
英文
deamination-
Strain hn could ammonize organic nitrogen compounds and nitrify ammonia itself when it grew on acetamide companying the formation of ammonia and nitrite
該菌株能以乙酞胺為唯一碳源和氮源進行氨化作用和硝化作用並產生亞硝酸。Phenacetin and aminopyrine were used previously as pain killers but were banned in hong kong in 1983 and 1984 respectively due to their severe side effects. phenacetin may cause haemolytic anaemia, methaemoglobinaemia and sulfhaemoglobinaemia while aminopyrine may lead to agranulocytosis
非那西丁和氨基比林曾用來作止痛之用,但因其可引致嚴重副作用,已分別於1983及1984年在香港禁售。Alanine appears to be the preferred amino acid in the transamination.
丙氨酸在轉氨作用中似乎是更好的氨基酸。Ammonifiers in suzhou creek can not use inorganic nitrogen and carbamide as nitrogen source ; additional carbon source and garbage lixivium have little influence on ammonifiers growth ; high content of salt and low temperature restrain ammonifiers growth ; alkalescent condition has little influence on ammonifiers, but acidic condition restrain ammonifiers growth ; the biomass of ammonifiers are not necessary correlated with the function of ammonifiers, adding glucose with 1g / l content into the water sample obviously promote the growth and function of ammonifiers. physiological groups of bacteria play significant role in the translation and
蘇州河的氨化菌無法利用無機氮和尿素作為氮源;在營養條件充足時添加額外c源和富含有機物的垃圾浸出液對氨化菌的生長基本無影響;高鹽度和低溫抑制氨化菌生長;堿性條件對氨化菌的生長影響不大,酸性條件對氨化菌生長具有抑制作用;氨化菌生物量的消長與轉氨活性之間不存在必然聯系, 1g / l的葡萄糖對蘇州河水樣中氨化菌的數量和轉氨功能具有明顯的促進作用。The amide nitrogen of glutamine or asparagine functions more effectively than ammonia.
谷酰胺或天門冬酰胺的酰胺氮作用較氨更有效。It has necessary aminophenol which can accelerate the exudation of insulin
必需氨基酸,具有促進胰島素分泌的作用。It has necesary aminophenol which can accelerate the exudation of insulin
必需氨基酸,具有促進促進胰島素分泌的作用。It is used for pressure and vacuum of ammoniac liquid and gas as well as of zhe madia which can ' t corrode carbon steel, stainless steel and solders like tin and lead
儀表適用於測量氨的液體和氣體的壓力真空,也可測量對碳鋼、奧氏體不銹鋼和錫鉛類焊料無腐蝕作用的介質的壓力和真空。In the modern breeding, there are large amount of the excrement to be accumulated, these organic excrement will produce the large amount of ammonia and other harmful nitrogenous substance via ammonification
現代集約化養殖長期累積了大量養殖排泄物,這些有機排泄物經氨化作用產生大量氨等含氮有害物。The order of four soil biochemical intensity being sensitive to heavy metal pollution indicated as : nitrification > nitrogen fixation > decomposition of cellulose > ammonification. however, soil microbial biomass c : n ratio increased with the increasing of heavy metals level
幾種生化作用強度的下降順序為硝化作用固氮作用纖維素分解強度氨化作用;但土壤微生物生物量碳氮比則隨著重金屬污染水平的升高而增加。The contents of organic matters, tn and tp in sediment layer from 0 - 20cm also decreased after 2 months of harvested, but nh / - n and no3 - - n increased due to the amelioration of transperancy and aeration, which accelerated ammonification and nitrification
2個月以後,收割區底泥0 - 20cm深度范圍內有摘要機質、 tn 、 tp含量明顯下降,收割改善了濕地的通風、透氣條件,促進了氨化和硝化作用的發生,使底泥中nh擴一n和n島一n含量上升。Ammonium chloride under thermal dissociation forms ammonia and hydrogen chloride gases.
氯化銨在熱力分解作用下形成氨和氯化氫氣體。The population distribution of physiological groups of bacteria , including ammonifying bacteria, denitrifying bacteria, nitrobacteria and nitroso bacteria, organic phosphate dissolving bacteria and inorganic phosphate dissolving bacteria in water body and sediment of suzhou creek are studied with mpn and flat account method from jan. 2002 to mar. 2003. the role of these physiological groups of bacteria in suzhou creek aquatic ecosystem is discussed
用最大可能數( mpn )法和平板計數法,於2002年1月2003年3月對蘇州河水體和底泥中的主要微生物功能菌群? ?包括有機磷分解菌、無機磷分解菌、氨化菌、亞硝化菌、硝化菌和反硝化菌等進行了生態調查,並分析探討了它們在蘇州河水生態系統中的作用。It may be synthesized directly from ammonia, carbon dioxide, and a donated methyl group ; derived from serine ; or derived from glycerate 3 - phosphate by transamination of glyoxylate
甘氨酸來源於絲氨酸,或由乙醛酸經轉氨作用生成的甘油3 -磷酸轉化而成。It is broken down by a reversal of the first two pathways, or by deamination to glyoxylate, followed by conversion to malic acid and further breakdown in the krebs cycle
它可在前兩種方法中被分解,或者通過脫氨作用生成乙醛酸,然後轉化為蘋果酸,進一步在三羧酸循環中被分解。The transformations involve a deamination or transamination of a particular amino acid.
轉成作用包含一個特定的氨基酸的脫氨作用或轉氨作用Transamination is a key step in the biosynthesis and breakdown of most amino acids
轉氨作用是大多數氨基酸生物合成或降解中的關鍵反應步驟。In deamination, the nitrogen-containing amino portion of the molecules is removed.
在脫氨作用中,分子含氨基的部分被移去。Transmination the transfer of an amino group from an amino acid to an - keto acid, producing a new a - keto acid and a new amino acid
轉氨作用:氨基酸上的氨基轉移到-酮酸上,產生一個新的-酮酸和一個新的氨基酸。The "head" amino acids arise to a great extent by a process of transamination. "
「為首的」氨基酸很大程度上在轉氨作用過程中出現。分享友人