1) shoot apex meristem
苗端分生组织
1.
Light-and electro-microscopical observations were made on the seasonal activities ofthe shoot apex meristem and vascular cambium of mature Hevea brasiliensis grown inDanzhou, Hainan, China.
)苗端分生组织和维管形成层的季节活动进行光学和电于显微镜研究,结果表明,橡胶树在冬季叶黄时原来不活动的顶芽顶端分生组织即开始细胞分裂,这可以看作芽萌发的开始,如果不遇阻碍生长的低温(旬平均温度<18℃),9d左右即发生肉眼可见的萌发,如遇阻碍生长的低温则肉眼可见的萌发延迟出现。
2) apical meristem
顶端分生组织
1.
Studies on the cell division of primary thickening meristem and apical meristem of the shoot apex in sugarcane;
甘蔗茎尖初生增粗分生组织与顶端分生组织细胞分裂研究
2.
tomentosa decreased notably,while the density of the apical meristem cells increased significantly and the cell wall contracted inward.
结果表明,随着气候由秋季向冬季过渡,毛泡桐顶芽体积明显缩小,顶端分生组织细胞密度显著增大,细胞壁向内皱缩。
3.
【 Result】 In low temperature treated plants,sucrose contents increased gradually in leaves,petioles,stems and apical meristem.
【结果】与正常培养的对照材料相比,低温处理后蔗糖含量在叶、叶柄、茎和顶端分生组织中呈梯度增大;叶中的蔗糖磷酸合成酶(SPS)活性升高,转化酶(Ivr)活性没有显著变化;淀粉酶活性被明显抑制,淀粉含量增加;叶片中SPSC基因、侧脉中SUT1基因表达水平上调,同时叶中H2O2含量升高,侧脉、叶柄、茎和顶端分生组织中抗坏血酸库趋于氧化态。
4) shoot apical meristem
顶端分生组织
1.
Studies on morphogenesis and shoot apical meristem (SAM) of rudimentary panicle in rice;
水稻幼穗形态发生与顶端分生组织的研究
2.
The shoot apical meristems (SAM) produce new cells for new organs and tissues continuously, and their activity depends on regulatory genes that balance between proliferation of meristems and organogenesis.
顶端分生组织(shoot apical meristems,SAM)为产生新的器官和组织而不断提供新的细胞,它的活性依赖于平衡分生组织细胞的增殖和器官发生之间关系的调控基因。
5) shoot apical meristem
技条顶端分生组织
6) meristem
[英]['meristem] [美]['mɛrɪ,stɛm]
分生组织
1.
The feedback loop between the CLV and WUS genes maintains the stem cell self-re- newal and apical dominance in shoot apical meristem.
在茎尖分生组织内WUS和CLV(CLAVATA)之间形成一个反馈调节环,使得干细胞保持自我更新,维持茎尖的顶端优势。
2.
Initiation of somatic cells stimulated by cytokinin, division of the initiated somatic cells and succeeding shoot meristem development are three key steps in the process.
细胞分裂素诱导体细胞启动、启动的体细胞进行分裂和由此引发的茎分生组织发育是这一过程中的3个重要步骤。
3.
This paper presents a brief introduction to the research progress of gene expression and regulation during embryo development from plant embryo polarity,morphogenesis,meristemgenesis and embryo body development.
本文从胚胎的极性建立、形态建成、分生组织形成、胚体发育等方面 ,对基因表达调控的研究进展作了一些简要介
补充资料:生端
1.引起事端。
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