tetrads
英
美
网络 四联球菌; 四分体; 四元组; 四体花粉
双语例句
- The shapes and forms of tetrahedral tetrads grains may be described with a new method of polar coordinate that is more exact and more direct than with traditional measurement method of polar axis ( P) and equatorial axis ( E).
用极坐标法描述四合体花粉的新方法可以表现其饱满度,比较传统上用极轴、赤道轴的长短表现花粉平面大小的方法,更加准确而直观。 - In reproductive organs, much CaMK was found in young embryos and some anther cells such as microspore mother cells, tetrads and tapetum.
在生殖器官中,有大量钙调素激酶分布于幼胚及花药小孢子母细胞、四分体及绒毡层细胞中; - Predominant linear and a few "T"-shaped megaspore tetrads with chalazal functional one; The first one towards the chalazal end of four megaspores that are arranged in one row is functional.
少数为T字形排列,合点端大孢子有功能;直线形大孢子四分体,合点端大孢子有功能,三次核分裂的单孢子胚囊类型(蓼型)。 - Cytological observation on the transgenic plants indicated that abortion of microspore development occurred at the stages of from tetrads to uninucleate.
通过对转基因植株进行细胞学染色、切片观察等方法,显示转基因后代小孢子败育发生在四分体到单核期。 - Ultrastructure and development of the microspore in Cunninghamia lanceolata ( lamb.) hook& ⅱ. tetrads, microspore, and tapetum
杉木小孢子发育过程中细胞的超微结构&Ⅱ.四分体、小孢子、绒毡层 - Some microspore tetrads which conglutinated with each other formed complex microspore tetrads on white cucumber.
白皮黄瓜部分小孢子四分体之间相互粘连在一起,相互粘连的胼胝质壁水解形成复合小孢子四分体; - The meiosis behavior of pollen mother cell of sterile plant was normal and tetrads were formed. However degradation of tetrad callose wall was abnormal.
不育株花粉母细胞减数分裂过程基本正常,可形成四分体,但四分体胼胝质壁不能适时解体,小孢子或于胼胝质壁内彻底败育解体,或发育至单核中期败育; - The insoluble polysaccharides are at very low level in the MMC, tetrads and functional megaspore stages while RNA and protein are at higher level in all of them.
大孢子母细胞、大孢子四分体及功能大孢子中含较少不溶性多糖,但却含丰富的RNA和蛋白质。 - The results indicated that the pollen mother cells carried on their meiosis and cytokinesis simultaneously and their tetrads were tetrahedral or decussate types;
结果表明:花粉母细胞减数分裂的细胞质分裂为同时型,四分体为正四面体型或十字交叉型; - It is not clear whether the abortion of the tetrads stimulates proliferation of the tapetal cells or the proliferating tapetum actually interferes with microspore development, thereby causing degeneration.
由于绒毡层细胞异常膨大,挤压四分体,四分体不分离产生四分小孢子,从而不能形成正常的花粉粒而导致败育。