植物和树木拥有与现存的哺乳动物或鸟类十分不同的遗传结构。
Plants and trees have a very different kind of genetic structure to living mammals or birds.
这就是我使用甘斯和不同颜色改变植物的结构得到的结论。
This is the result that I have for using gans and different colors to change the structure of these plants.
伸长的细胞随后开始分化,形成根毛、导管等不同结构,于是植物的根便发育成熟了。
The elongation cell afterwardsstarts to split up, forms the root hair , the drive pipe and so on thedifferent structure, thereupon plant ' s root then grew maturely.
的茎,叶,叶柄进行了结构植物学研究,实验结果发现,生长在白城地区的两种植物,都演化出了不同形态的抗盐碱结构。
The results show that the plants living in Baicheng city evolve various saline-alkali resistant structure, and different plant can use different way for adapt same or similar ecosystem.
结论这种生物碱为首次从植物中分离得到,它在骨架结构上与已知的贝母生物碱截然不同。
Conclusion This alkaloid was found for the first time from the natural plant. Its skeleton and structure is very different from all known Fritillaria alkaloids.
结果存在分泌细胞团和分泌囊(道)二类形态结构特点不同的分泌结构,草本植物中两者都有,而木本植物中只有分泌囊(道)。
Results There are secretory nodule and secretory cavity(canal), two secretory structures different in the character of morphology, in herbs, but there is only secretory cavity(canal)in xylophyta.
植物茎分枝结构决定了不同植物的不同形态结构。
The diversified architecture of plants is determined primarily by the pattern of shoot branching.
轻组有机质主要是由不同分解程度的植物残体和一些微生物结构体组成,它的改变可以用来指示土壤肥力的变化。
Light fraction organic matter is largely composed of plant residues at various stages of decomposition and a lot of microbial debris. Soil fertility varies with its changes as indicators.
导致这种差别的主要原因在于,普通奶粉所含植物油的脂肪结构与母乳脂肪结构不同。
The main reason is the structure of the lipids that are coming from vegetable oils in infant formulas and are not identical to human breast milk lipids.
根据其胞外受体结构域的组成不同,植物受体蛋白激酶可划分为不同的类型。
Based on structural similarities in their extracellular domains the RPKs fall into five categories.
在一定的水动力条件下,不同水生植物对水流结构改变的程度及对底泥再悬浮的影响由于其形态结构的差异有所不同。
Under certain hydrodynamic conditions, different species of aquatic plants will have different impacts on the flow structure and sediment re-suspension due to the differences in plant morphology.
序列分析表明,其结构与所有已知的抗真菌蛋白不同,而与富含半胱氨酸的植物类受体激酶的胞外结构域相似。
The protein showed no similarity to other pathogenesis-related proteins but did show homology to the extracellular domain of plant cysteine-rich receptor-like kinases.
序列分析表明,其结构与所有已知的抗真菌蛋白不同,而与富含半胱氨酸的植物类受体激酶的胞外结构域相似。
The protein showed no similarity to other pathogenesis-related proteins but did show homology to the extracellular domain of plant cysteine-rich receptor-like kinases.
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