方法5 0 9例男性不育患者行外周血淋巴细胞G显带染色体核型分析。
Methods: Chromosomal karyotypes were examined in 509 male infertile patients by periphery blood lymphocyte culture and G banding.
方法:采用G、C显带染色体核型分析等方法,比较染色体异态核型人群和正常核型人群的早期生殖障碍的发生率。
Methods: The incidence rates of early reproduction inability of chromosome heteromorphism group and normal karyotype group were compared by using G, C-banded chromosome karyotype analysis.
本研究将染色体多态核型人群和正常核型人群分组,进行G显带染色体核型分析,以比较两组人群的生殖异常的发生率。
The incidence rates of reproduction abnormality of chromosome polymorphism group and normal karyotype group have been compared by G-banded chromosome karyotype analysis.
现阶段,染色体显带技术的发明为染色体组型分析铺就了一条更精确,更准确的研究道路。
In this stage, the invention of banding technique set karyotype analysis in the way to more micro and precise research.
通过染色体核型和显带分析,为研究松辽黑猪起源进化、品种形成和基因定位提供细胞遗传学方面的基础数据;
It was to provide basic data of cytogenetics for origin, evolution and gene location of Songliao black pig by caryotype and banding.
方法应用骨髓细胞短期培养法制备染色体标本,并应用R和G显带技术进行核型分析;
Methods Chromosome specimens were prepared by short term culture of bone marrow cells and karyotype analyses were carried out using R and G banding techniques.
方法对不同时期医用诊断X射线工作者分别采用g显带和FI SH法进行染色体畸变分析。
Methods The chromosome aberrations were analyzed by G-banding or FISH in medical diagnostic X-ray workers with different calendar years of entry.
方法对37例原发闭经患者进行外周血淋巴细胞染色体G显带分析。
Methods The chromosomal G banded karyotypes of 37 cases with primary amenorrhea were analyzed.
方法染色体G显带后按人类细胞遗传学国际命名体制(ISCN)进行核型分析。
METHODS G banding of chromosomes and then karyotype were analysized with an international system for human cytogenetic nomenclature (ISCN).
方法采用外周血淋巴细胞培养和染色体G显带分析,对612对有异常孕产史的夫妇进行染色体检查。
Methods Chromosomal analysis was made in 612 married couples with a history of abnormal pregnancy outcome by peripheral lymphocytes culture and G-banding.
目的探索日本血吸虫染色体的制作及其G带显带方法,进一步分析其染色体核型和G带带型特征。
Objective To explore the methods of karyotyping and G-banding of Schistosoma japonicum chromosomes and analyse the characteristics of the karyotype and G-banding pattern.
结论与传统的染色体显带技术相比,荧光原位杂交技术具有高效、灵敏、可靠的特点,可为临床提供良好的辅助诊断。
Conclusions Compared with the conventional chromosome banding technique, FISH has characteristics of high sensitivity and accuracy, and provides a good assist method for diagnosis.
材料与方法:常规染色体畸变与G _显带核型分析。
MATERIAL and METHODS: Conventional chromosomal aberrations and G-banded karyotype analysis were used.
方法:原位传代培养羊水细胞并制备染色体,G显带分析核型,产后随访。
Methods:Amniotic fluid cells were cultured in situ and their karyotypes were analyzed by G band, followed them after delivery.
方法:采用短期培养法及G显带技术对16例MM患者进行细胞染色体核型分析,且对MM分型、分期及预后进行相关性分析。
Method: Chromosomal abnormalities were analyzed in 16 patients with MM by short-term bone marrow cell cultures and G-banding and analyzed the relationship with the type and stage and prognosis in MM.
方法绒毛细胞培养法及G显带制作染色体分析。
Methods Use villus cell culture and the chromosome with G-bands by trypsin using Giemsa.
方法:对96对反复自然流产夫妇取外周血,常规培养、制片、G显带,行染色体核型分析。
Methods Blood samples from 96 couples with early repeated spontaneous abortion in our hospital were regularly cultivated and given processing, G-staining and analysed.
方法采用外周血淋巴细胞培养方法制备染色体,G、C等显带技术进行细胞遗传学分析。
Methods: Routine culture for the peripheral blood lymphocytes were made and G, C band were analysed.
方法外周血淋巴细胞培养,常规G显带制片后进行染色体核型分析。
Methods The peripheral blood lymphocytes were cultured, and chromosome karyotype was analyzed after conventional G-banding.
方法:采用直接法、短期培养法和R显带技术制备染色体,根据复杂分类法进行染色体核型分析。
Methods: the chromosome were prepared with direct method, brief culture of cells and R-banding techniques, and the karyotypic analysis was performed on the base of complex classification.
方法:采用直接法、短期培养法和R显带技术制备染色体,根据复杂分类法进行染色体核型分析。
Methods: the chromosome were prepared with direct method, brief culture of cells and R-banding techniques, and the karyotypic analysis was performed on the base of complex classification.
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