1.Sequence analysis showed the amplified fragment was the TIV1 fragment of the vacuolar invertase gene.
测序结果表明,所获得的片段为番茄液泡转化酶基因TIV1的片段;
2.Meanwhile, it was subclassed into plant vacuolar invertase by phylogenetic relation analysis.
系统进化关系聚类分析结果表明,该基因属液泡转化酶基因类型。
3.Under electron microscope, vacuolate degeneration of neuronal processes with mitochondria degeneration and accumulation of microtubule near vacuolar nucleus were observed in iron treated rats.
电镜下可见铁处理大鼠神经突起空泡变性,空泡化的细胞核周线粒体变性及微管堆积。
4.Results the adhesion, disturbance, lodge, and squamous metaplasia of cilia in tracheal epithelium; and vacuolar degeneration in epithelium cells were observed.
结果气管上皮纤毛粘连、乱、伏及鳞状化生,上皮细胞空泡变性,并可见新生的纤毛上皮细胞。
5.Under electron microscopy, microfilament bodies, microrhoptryand vacuolar parasitic organisms at developmental stage were observed in monocytes.
电镜观察到单核细胞内有微丝体、微棒状小体和空泡状发育期寄生物;
6.Vacuolar compartmentalization appears to be the source of tolerance of metal_accumulating plants.
金属离子在液泡中的区域化分布是植物耐重金属的主要原因。