1)  K~+
K+
1.
Objective:A method for determination of dissociative K~++,Na~+,Ca~(2+)and Mg~(2+) in soil by Solid Phase Extraction-Ion Chromatography was established.
目的:建立用固相萃取-离子色谱法测定土壤中游离态的K+、Na+、Ca2+、Mg2+含量。
2.
To study the biochemisry change in blood and the significance for forensic medicine to measure the consisteney of K~++ and Cl~-in venous blood and analysis of the gases in blood by hung.
研究缢死的血液生化学变化,探讨血气分析和K+、Cl-的检验对鉴定缢死的法医学意义。
3.
Objective To determine whether the effect of nicotinamide adenine dinucleotide(NADH) on activation of the RyR1 are Na~+ and K~++ concentration dependent.
目的探讨Na+、K+浓度对骨骼肌肌质网囊泡氧化还原系统的调控作用及对Ca2+释放通道的影响。
2)  K~+
K~+
1.
Interference and Elimination of Ca~(2+) in Determining K~++ in Recirculating Water by Flame Photometric Method;
火焰光度法测定循环水中K~++时Ca~(2+)的干扰及消除
2.
The study on change of content of Na~+,K~++,Ca~(2+) and protective function of Nimotop in brain in septic rat;
脓毒血症大鼠脑组织Na~+、K~++、Ca~(2+)含量变化与尼莫通脑保护作用及机制探讨
3.
Determination of Cations(Li~+,Na~+,K~++) in Water and Geological Samples by Low Pressure Ion Chromatography;
低压离子色谱法测定水样和地质样品中的Li~+、Na~+、K~++离子
3)  K+
K+
1.
To study the change of K+ and Cl-in the blood of the rabbits which died by the strangulation and the significance on forensic medicine.
通过实验研究,探讨勒颈窒息死亡血中K++、Cl-的变化及其法医学意义。
2.
In order to investigate the interaction of NH+4 with K+ in cotton seedlings,an hydroponics experiment containing three K+ concentrations(0.
在溶液培养条件下研究了NH4+对棉花不同基因型幼苗干物质积累以及K++吸收和利用的影响。
3.
1) included artificial seawater (ASW), 2-fold calcium ion artificial seawater (2×Ca2+-ASW), magnesium-free artificial seawater (Mg2+-FASW), potassium-free artificial seawater (K+-FASW) and calcium-free artificial seawater (Ca2+-FASW).
5种保存液分别为人工海水(ASW)、2倍钙离子人工海水(2×Ca2+-ASW)、无镁离子人工海水(Mg2+-FASW)、无钾离子人工海水(K++-FASW)、无钙离子人工海水(Ca2+-FASW),经4天保存后,各保存液中精子样品的存活率和精子密度均出现明显差异,K++-FASW、ASW及2×Ca2+-ASW三种保存液中的精子因发生顶体反应而大量死亡,而Mg2+-FASW、Ca2+-FASW的保存效果较好。
4)  K
1.
Determination of K and Na in Melamine By Flame Atomic Absorption Spectrometry with Bi-Capillary Nebulizer;
双毛细管火焰原子吸收光谱法测定三聚氰胺中钾和钠
2.
Simultaneous Determination of N, Cl, P and K in Tobacco by FT-NIR Spectrometry;
FT-NIR光谱法同时测定烟草根、茎、叶中的氮、磷、氯和钾
3.
Determination of K,Na,Cu,Pb and Cd in Chinese Traditional Medicines by Microwave Digestion-Flame Atomic Absorption Spectrometry;
微波消解-FAAS法测定中成药中的钾、钠、铜、铅、镉
5)  K~(+)
K+
1.
The result showed that K~+(+) and Ca~(2+)might functionally modify and regulate the protein in the yeast cell membrane and the enzyme involved with metabolic flux in the metabolic network.
K~(+)
2.
The result of pH shock experiment showed that R1 could maintain a neutral cytoplasmic pH by pumping H~(+ )and absorbing K~+(+), which proved the function of H~(+)-ATPa.
K~(+)
3.
The purpose of this experiment was to determine the effect of endotoxin(LPS) on Na~(+)-K~+(+)-ATPase and explore the action mechanisns of LPS in the goats with endoxemia.
K~(+)
6)  K +
K+
1.
A method was developed for the determination of dynamic concentration variations of Na + 、K + 、Mg 2+ 、Ca 2+ during the period of beer fermentation by air-acetylene flame atomic absorption specˉtrometry(FAAS).
采用空气 -乙炔火焰原子吸收光谱法分别测定了啤酒酵母发酵液中的Na+、K+、Mg2 +、Ca2 +离子动态变化中的含量 ,用La3 +盐消除P对Ca2 +的干扰 ,以Sr2 +盐作为Na +、K ++的消电离剂。
2.
The osmoregulation mechanism of this strain was studied, it was found that the intracellular accumulation of K +; free amino acid; QAC increased with the increasing of salinity.
在不同的NaCl浓度下 ,菌株A1细胞内的QAC(Quaternaryammoniumcompounds)、游离谷氨酸和K+含量与盐浓度的升高成正相关。
3.
AIM:To observe the effects of K + and pH 4.
目的 :观察K+ 、乙酸 (HAc)、胰蛋白酶对根面牙本质胶原蛋白降解的影响。
参考词条
补充资料:(+-)-ketamine hydrochloride
CAS:1867-66-9
分子式:C13H16ClNO·HCl
分子质量:274.19
中文名称:盐酸氯胺酮;开他敏;氯胺酮;2-邻氯苯基-2-四氨基-环已酮盐酸盐;K他命
英文名称:2-(2-chlorophenyl)-2-(methylamino)-, hydrochloride, (+-)-cyclohexano;(+-)-2-(o-chlorophenyl)-2-(methylamino)cyclohexanone hydrochloride;(+-)-ketamine hydrochloride;2-(o-chlorophenyl)-2-(methylamino)cyclohexanone hydrochloride;calipso;2-(o-chlorophenyl)-2-(methylamino)-cyclohexanon hydrochloride;kalipsol;ketaject
性状描述:白色结晶性粉末。熔点262-263℃。在水中溶解度为20克/100毫升。溶于热乙醇,不溶于乙醚或苯,无臭。
生产方法:将新制备的1-溴环戊基-邻氯苯甲酮溶解在甲胺溶液中,得到1-羟基环戊基-邻氯苯基-N-甲亚胺,将其溶解于十氢萘中,回流2.5小时,减压蒸发十氢萘后,用稀盐酸萃取剩余物,用活性炭脱色,用碱调成碱性,和氯胺酮碱([6740-88-1],溶点92-93℃),由戊烷-乙醚重结晶后再制成盐酸氯胺酮。中间体1-溴环戊基-邻氯苯甲酮是邻氯苯甲酸经氯化后,与环戊烯加成,再经溴化得到的。
用途:本品是新型非巴比妥静脉麻醉药,有优良的镇痛效能。静脉或肌肉射后很快出现意识模糊,如入梦境,呈浅睡眠状态。临床表现为浅全麻。本品静脉注射约一分钟开始作用,维持约10分钟,进行较大物述时,可连续加药量。主要用于外科短小手述,小儿检查或诊断操作,麻醉诱导及辅助麻醉。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。