| 1. | Novel method of preparing high - quality salidroside
制备红景天甙标准品的新方法 |
| 2. | Extraction and determination of salidroside in health food
保健食品中红景天甙的提取和测定方法研究 |
| 3. | The relationship between the age and salidroside content in the root of rhodiola sachalinensis
高山红景天年龄与根部红景天甙含量的关系 |
| 4. | Salidroside extraction from rhodiola sachalinensis callus after microwave cell disruption
高山红景天愈伤组织中红景天甙的微波破细胞提取 |
| 5. | Effects of different culture conditions on callus salidroside contents of rhodiola sachalinensis
不同培养条件对高山红景天愈伤组织红景天甙含量的影响 |
| 6. | Effects of greenhouse light intensity and quality on biomass and salidroside content in roots of rhodiola sachalinensis
温室栽培光强和光质对高山红景天生物量和红景天甙含量的影响 |
| 7. | Effects of field light intensity and quality on biomass and salidroside content in roots of rhodiola sachalinensis in fiele
光强和光质对野外栽培高山红景天生物量和红景天甙含量的影响 |
| 8. | A comparative study on contents of salidroside in rhodiola sachalinensis root measured by high performance capillay electrophoresis
高效毛细管电泳法测定高山红景天中红景天甙含量的比较研究 |
| 9. | Seasonal variations in biomass and salidroside content in roots of rhodiola sachalinensis as affected by gauze and red film shading
遮荫和红膜处理对高山红景天根生物量及红景天甙含量季节变化的影响 |
| 10. | With 24 c or 4 c , the change trends of the content of the salidroside was basically consentaneous in the consecutive cultural eras of the callus . in the callus from the different explants , the influence was maximal to the the activity of pal enzyme and the influence was lowest to the the activity of ca4h enzyme , and the influence to the the activity of tal enzyme was ascertained according to the explant of the callus . so in the same explant with the different temperature or in the different explant with the same temperature , there was no incident between the content of the salidroside and the activity of enzymes pal , ca4h and tal , and we presumed that there may be emphasized particularly on different metabolic pathway of salidroside
( 2 ) 、愈伤组织的外植体来源、培养温度条件和不同的继代培养数都影响着其中红景天甙的含量和苯丙氨酸解氨酶( pal ) 、肉桂酸解氨酶( ca4h )和酪氨酸解氨酶( tal )这3种酶的活性;不管是叶来源还是茎来源,不管是24培养还是4培养的愈伤组织,在连续继代培养中红景天甙含量的变化趋势基本上是一致的;无论是叶来源的愈伤组织还是茎来源的愈伤组织,培养温度对pal酶的酶活性影响最大,对ca4h酶的酶活性影响最小,对tal酶的酶活性影响视不同的外植体来源而定;在相同外植体来源的愈伤组织中及不同的培养温度的条件下,或是在不同外植体来源的愈伤组织中及相同温度的培养条件下,其红景天甙含量与pal酶、 ca4h酶和tal酶的酶活性之间没有完全一致的对应伴随关系。 |
