| 1. | Study on the methodology of analyzing puparial cuticular hydrocarbon in chrysomya megacephala
大头金蝇蛹壳表皮碳氢化合物分析影响因子研究 |
| 2. | On average , only about 5 % of the water lost from a plant is via the cuticle ( cuticular transpiration
平均仅有5的水分从角质层中流失(表皮蒸腾) 。 |
| 3. | The chemical and physical properties of cuticular waxes indicate that they have vital functions for plant life
表皮蜡质的物理化学性质决定它在植物的生活史中起着重要的作用。 |
| 4. | The cuticular wax layer of plants is the outmost structure and provides a protective barrier , which consists predominantly of long - chain hydrocarbon compounds
摘要蜡质是植物与外部环境的界面,对植物具有重要的生物学意义。 |
| 5. | In addition , the application of cuticular hydrocarbon analysis to the taxonomic differentiation of the pupae and empty exuviae of six necrophagous flies , were investigated
此外,也探讨了表皮碳氢化合物在蝇蛹和空蛹壳种类鉴别中的应用。 |
| 6. | 3 cuticular hydrocarbon composition in the pupae and its application in taxonomic differentiation for six necrophagous flies gc - patterns and their time - associated chang
丝光绿蝇、绊颜裸金蝇、棕尾别麻蝇和肥须亚麻蝇蛹表皮碳氢化合物组成及其含量的时间变化。 |
| 7. | Contain ginkgo leaf extract and pure olive seed oil , can remove cuticular dirt and the cosmetics that is left in the deep pore , your skin will be then clean and free of greasiness
蕴涵银杏叶提取液和纯净橄榄籽油,能有效去除表皮污垢和毛孔深处残留彩妆,洁净不油腻。 |
| 8. | The primary role of cuticular waxes is to restrict non - stomatal waterloss . waxes also have many other functions , such as protection against uv radiation and resisting bacterial and fungal pathogenes
作为物理屏障蜡质可以限制非气孔性失水、抵御过量紫外线照射引起的损伤、抵抗细菌和真菌等病原菌的入侵。 |
| 9. | It is not know how cuticular waxes reach the epidermal surface from intracellular . the pathway most likely involves endoplastric reticulum , transport vesicles , substrate ligands , vesicle receptors and many other secretory factors
内质网、转运小泡、配体物质、膜泡受体和其它分泌因子可能参与了蜡质组成成分从细胞内到达表皮的运输过程。 |
| 10. | Wax precursors are synthesized in the plastids and enlongated to very long acyl - coa chains as direct processors in er . once the very long acyl - coa chains are synthesized , they are converted to cuticular waxes by four different pathways
一般认为蜡质前体是在质体中合成并在内质网中延伸成特长链脂酰辅酶a ,合成的特长链脂酰辅酶a通过四种不同的途径转化成蜡质组成成分。 |
