这种嗅觉神经元和其它两种嗅觉神经元一起分布在蚊子口器上发丝状结构的下方。
This olfactory neuron is co-compartmentalized together with two other olfactory neurons underneath the capitate peg sensilla, hair-like structures, present on the mouthparts of the mosquito.
“斯隆长城”是一条巨大的丝状体,是目前宇宙中已知的最大的结构。
The Sloan Great Wall, a vast galactic filament, is the largest known structure in the Universe.
通过建立的试验装置研究发现,电极结构的改变可以使放电形成丝状模式向类似辉光的扩散模式的转化。
Through the establishment of the test device, the pattern of electrodes structure can change the discharge from filaments mode into diffuse mode similar to the glow.
轴突内可见丝状的神经原纤维及线粒体,轴突外包有髓鞘,为明暗相间的同心圆板层结构。
Filamentous neurofibrils and mitochondria were observed in axons. Axons were enveloped by myelin sheath, presented alternately dark and bright lamellae concentric configuration.
球衣菌是一种具有典型鞘结构的丝状细菌,广泛存在于活性污泥以及受污染的水体中。
Sphaerotilus is a kind of filamentous bacterium with typical sheath forming. It occurs mainly in activated sludge and polluted water.
在较低的沉降速度下产生以菌胶团为主的颗粒,提高污泥的沉降速度产生以丝状菌为主要结构的颗粒污泥。
The zoogloea granules predominated in the lower settling velocity, then filamentous microorganisms granules could be formed with the increasing of the settling velocity.
通过试验和观察,研究了活性污泥中丝状菌与絮体结构的关系。
The relationships between filamentous organisms and flocculate structure in the activated sludge were studied in this paper.
结果发现去离子水中培养的水绵丝状体及叶绿体的螺旋形结构完整,未见有明显损伤。
The results showed that morphology and cell structures of spirogyras cultured in deionized water are well, no damaged.
研究了蓝湿革脱铬工艺及丝状胶原纤维的制备,并对丝状纤维的结构与性能进行了表征。
The technical conditions of dechroming and the preparation of the threadlike collagen fiber were studied.
地图展示了细丝状暗物质的松散网状结构,逐渐地在引力残酷的牵拉下不断坍缩,并最后变成一个团块。
The map reveals a loose network of dark matter filaments, gradually collapsing under the relentless pull of gravity, and growing clumpier over time.
当研究员加速结构域的活动时,他们发现神经细胞形成了指状的丝状伪足,这些丝状伪足形成的分支可以阻止细胞的迁移。
When the researchers ramped up the activity of the domain, they saw that the neurons formed the finger-like filopodia which blocked migration by inducing too many branches.
当研究员加速结构域的活动时,他们发现神经细胞形成了指状的丝状伪足,这些丝状伪足形成的分支可以阻止细胞的迁移。
When the researchers ramped up the activity of the domain, they saw that the neurons formed the finger-like filopodia which blocked migration by inducing too many branches.
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