1·The ultrastructural changes in leaf cells of submerged maize Zea mays l.
叶片细胞超微结构的变化进行连续观察。
2·Effect of different stress on roots activity and nitrate reductase activity in Zea mays L.
不同逆境对玉米幼苗根系活力及硝酸还原酶活性的影响。
3·Under P-stress, mobilization and utilization of structural K in gneiss and feldspar by maize Zea mays l.
玉米、油菜和黑麦草等植物根系可直接活化和利用片麻岩和钾长石中的矿物结构钾。
4·With the completion and initiation of Oryza sativa and Zea mays genome sequencing respectively, such functions will be more obvious.
随着水稻、玉米基因组序列的完成与启动,这方面的作用将更加显著。
5·Cross incompatibility in Zea mays is controlled gametophytically by a single locus. The gametophyte gene is located on chromosome 4 in maize.
玉米的杂交不亲和性是受单基因控制的,为配子体控制型,该基因位于玉米的第四染色体上。
6·Comparison of regional permeability and translocation across the node and the internode in the etiolated mesocotyl excised from corn Zea mays l.
幼苗中胚轴切段节和节间的通透性和物质运转进行了比较。
7·The bumper light and thermal resources in the most regions of Guangdong Province provided a certain guarantee for the maize ( Zea mays L. ) planting in winter.
广东大部分地区丰富的光、热资源为冬种玉米生产提供了一定的气候保证,但低温冷害仍是影响各种玉米生产的主要气象灾害。
8·Sweet Honeysuckle Honey Dust: Corn Starch Modified, Glucose, Zea Mays (Corn) Starch, Honey (Mel), Silica, Honey (Mel) Extract, Sodium Saccharin, Fragrance (Parfum).
甜蜜蜜金银花粉尘:改性玉米淀粉,葡萄糖,玉米(玉米)淀粉,蜂蜜(梅尔) ,二氧化硅,蜂蜜(梅尔)提取物,糖精钠,香料(香水)。
9·Two pathways, the "free space" and the "symplast", of absorption and translocation of lead into young roots of Zea mays were demonstrated by using histochemical method.
经组织化学的方法研究证明,玉米幼根对铅的吸收经过了两条通道,即自由空间通道和共质体通道。
10·Second-degree polynomials equation of maize(Zea Mays L. ) grain yield with both planting density and nitrogen fertilization was established by means of regression analysis.
本文从不同种植密度和施氮量对玉米籽粒产量的影响,建立了二次多项式回归方程。
1·With the completion and initiation of Oryza sativa and Zea mays genome sequencing respectively, such functions will be more obvious.
随着水稻、玉米基因组序列的完成与启动,这方面的作用将更加显著。
2·Promoter is an important element for the expression and regulation of a gene and so far the PEAMT promoter was only cloned from Zea mays and without any further expression reports.
启动子是基因表达调控的重要元件,目前PEAMT启动子仅从玉米中克隆获得,且没有进一步的表达分析报道。