应用大体解剖学和组织切片技术,对父母代固始鸡的十二指肠进行了发育形态学研究。
The developmental morphology of the duodenum were observed with the technique of gross anatomy and histological section in the parental line of Gushi Chickens.
采用组织切片技术,在显微镜下观察麦冬块根、须根和水培诱导根的形态和内部结构。
The LEICA RM2128 slicer and Motic BA300 optical microscopy system has been used to observe the cell and tissue structures of root tubers, fibrous roots and the roots cultured in water of O.
接下来利用爪蟾胚胎致畸实验(FETAX)、组织切片技术和整体原位杂交技术,研究了三种酰胺类除草剂对热带爪蟾胚胎的致畸效应。
Next, using FETAX test, tissue section and whole mount in situ hybridization technique to study the teratogenic effect of three herbicides on early stages of development of X. tropicalis.
在淀粉样蛋白的组织检查中最可靠的技术是刚果红或天狼星红染色切片在偏振光检查下出现特征性双折射。
In the examination of tissue for amyloid the most reliable technique is detection of the characteristic birefringence in polarised light exhibited by sections stained with Congo red or Sirius red.
报道人体及动物组织石蜡切片方法的全面革新技术。
This article reports the all around innovation technology of paraffin slice method for human and animal tissues.
目的探讨脑组织切片免疫组化技术中漂片法与贴片法的效果。
Objective To explore effect of methods both bleach section and stick section of brain tissue in immunohistochemistry.
目的综合运用目前较成熟的技术,建立一个易施行的、可对大组织标本连续切片整体图像进行三维重建及形态学测量的方法。
Objective to explore an easy to perform three-dimensional reconstruction method based on serial section images of large tissue by combination of several new techniques.
本文对脑组织切片培养技术进行了详细的介绍,包括仪器设备、培养液的配制、脑组织切片制备及培养过程等。
In this paper the detailed procedures for slice culture technique of brain tissue were introduced, including the equipments required, reagents, preparation of brain tissue slice and incubation.
利用RNA原位杂交技术,对水稻受精前后雌蕊组织切片进行磷酸化酶基因表达的定位。
Phosphorylase gene expression was localized in tissue sections of rice pistils before and after fertilization by in situ RNA hybridization.
结论:快速引物原位标记技术可用于鼻咽癌冰冻组织切片中染色体的检测,染色体数目的改变可作为鼻咽癌诊断的重要参考指标。
CONCLUSION: The technique of rapid PRINS could be used to detect chromosomes in frozen section tissues, and the chromosomal abnormalitie s would be helpful in diagnosis of NPC.
结论从冷冻切片图像序列中重建骨组织曲线曲面模型的技术路线可行、有效。
Conhclusion The technical solution to reconstruct curve and surface models from cryo-sectional images is feasible and effective.
介绍了基于计算机工作站的连续组织学切片图像三维重建与显示技术。
In this paper, a computerized three dimensional reconstruction and display technique based on a computer work station for serial histological section is described.
实验中,利用石蜡切片法和扫描电镜技术对愈伤组织的发生及细胞整体形貌进行了观察。
At the same time, the callus occurrence and cell configuration of the callus were observed via paraffin slice method and scanning electron microscope technology.
本文应用切片和显微技术,对短盖巨脂鲤鳃、伪鳃和鳔的胚后发育的组织形态学进行了研究。
This paper describes the histological development of the gill, pseudobranch and swim bladder of the white achama by use of the technology of histological section and microscopy.
本文用石蜡切片和PAP免疫组织化学技术,对大鼠心内神经节细胞进行了观察。
The intrinsic cardiac ganglion neurons were studied with immunohistochemical pap technique for localization of calcitonin gene-related peptide (CGRP) in this paper.
而在微观尺度水平上,如果没有组织切片或相似的创伤技术,我们是很难检测0.2mm或更深处胶原的改变。
At the microscopic level, it is very difficult to measure collagen modifications at a depth of 0.2 mm or deeper without a biopsy or a similarly invasive technique.
共聚焦激光扫描显微镜光学切片技术结合FITC 鬼笔环肽和碘化丙啶双重标记技术是观察和分析羊膜组织细胞立体结构的良好方法。
Using CLSM combined FITC-phalloidin and PI double label technique to image thin optical sections is a good way to study spatial structure of amnion. ;
方法应用牙连同颌组织连续切片技术,对40例不同胎龄胎儿的上下颌骨作水平方向切片,观测并统计。结果胎儿28周后牙胚拥挤,上牙弓拥挤更显著;
Methods The maxillary and mandible of 40 fetuses (different ages) were cut horizontally with toothwithjaw continual tissue slices technique, observation and statistics.
目的:探讨利用Leitz-1600型锯割切片机及骨磨片技术进行种植体骨结合状况的组织学研究方法。
Objective: To explore the methods on metal-bone interface integration with Leitz-1600 saw microtome and bone grinding slice technique.
计算机三维重建技术作为一门新兴的技术不但能通过连续组织切片进行重建,还可以对重建的三维结构进行测量获得器官组织长度、表面积、体积等精确参数。
Three-dimensional computer reconstruction as an emerging technology can not only reconstruct the organs by serial slices, but also calculate the length, volume, surface area of the organs.
计算机三维重建技术作为一门新兴的技术不但能通过连续组织切片进行重建,还可以对重建的三维结构进行测量获得器官组织长度、表面积、体积等精确参数。
Three-dimensional computer reconstruction as an emerging technology can not only reconstruct the organs by serial slices, but also calculate the length, volume, surface area of the organs.
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