The effects of added α-ionone, β-ionone and abscisic acid (ABA) on the growth and lycopene biosynthesis of Blakeslea trispora have been investigated.
考察了三孢酸结构类似物α-紫罗酮、β-紫罗酮和脱落酸对番茄红素生产菌Blakeslea trispora的生长和番茄红素合成的影响。
The effects of added α-ionone, β-ionone and abscisic acid (ABA) on the growth and lycopene biosynthesis of Blakeslea trispora have been investigated.
考察了三孢酸结构类似物α-紫罗酮、β-紫罗酮和脱落酸对番茄红素生产菌Blakeslea trispora的生长和番茄红素合成的影响。
The influence of β-ionone and ergosterol on the growth and the yield of CoQ_ 10 in yeast was investigated.
研究了β-紫罗酮和麦角固醇对酵母生长及产辅酶Q10的影响。
Catalytic Performance of Sulfated Silica MCM-41 for Cyclization of Pseudoionone to Ionones;
硫酸根促进的纯硅MCM-41催化假性紫罗兰酮环化合成紫罗兰酮的性能
Synthesis of Ionone from Pseudoionone Catalysed by NaHSO 4;
以NaHSO_4催化假性紫罗兰酮合成紫罗兰酮
Preparation of Ionone Using Environmentally Friendly Catalyst H β Zeolite;
用环境友好催化剂 H-β沸石制备紫罗兰酮(英文)
A new coupling electrochromic solution was investigated by introducing titanium ion into viologen solution.
通过在紫罗精溶液中加入钛离子,得到了一种新型互补塑的电致变色溶液。
This paper introduced a coupling electrochromic solution containing viologen and titanium ion which is from TiCl_4.
用TiCl4作为钛离子源,发现Ti~(4+)离子和紫罗精之间具有互补效应。
Although it has the special electrochromic property, littlemolecular weight viologen is not thermally stabile, easily dissolving from the surfaceof electrode, and poor film forming.
紫罗精,即N,N’-二取代-4,4’-联吡啶盐,可发生两步可逆性极好的氧化-还原反应,并伴随有明显的颜色变化,具有较好的电致变色性。
An investigation on the synthesis of pseudoionone;
假紫罗酮合成方法的研究
Solid NaOH was used as condensating agent of condensation reaction, and the yield of the pseudoionone was 92.
改进了山苍子油合成a-紫罗酮的方法,在缩合反应中直接用固体氢氧化钠作缩合剂,反应3h,假紫罗酮产率达92。
The promote and the solvent B was used in the cyclization of pseudoionone to produce ionone.
改进了由山苍子油合成紫罗酮的方法。
Study on Hypocotyl Protoplast Isolation of Matthiola incana;
紫罗兰下胚轴原生质体分离条件的研究
Phytogenetic Studies on Intergeneric Hybridization Between Brassica napus and Matthiola incana;
甘蓝型油菜与紫罗兰属间杂交的植物遗传学研究(英文)
Callus induction and shoot regeneration of Matthiola incana;
紫罗兰愈伤组织诱导及植株再生的研究