这个信息必须是生物学相关的并且和感兴趣的疾病表型相关。
This information must be of biological relevance and thus correlate to disease phenotypes of interest.
目的通过了解具有认知表型病例的遗传学基础,揭示认知的生物学基础。
Objective To learn the biological basis of cognitive processes by recognizing the genetic basis of cases with cognitive phenotypes.
目的探讨人脑胶质母细胞瘤细胞系SHG44长期传代后的某些生物学特性和免疫表型特征。
Objective to investigate the biological features and immunophenotypes of human glioblastoma cell line SHG44 after long term passage.
MGD也是一个整合的生物学数据的计算评估平台,目的是识别与复杂表型相关的候选基因。
MGD is also a platform for computational assessment of integrated biological data with the goal of identifying candidate genes associated with complex phenotypes.
体外培养的黄韧带细胞呈成纤维细胞样表型,细胞在传5代以内生物学特性稳定。
HLF cells in primary culture shows fibroblast-like phenotype. Biological characteristics of cells within 5 generations are stable.
目的研究第三恒磨牙来源的人牙髓干细胞的表型和生物学性状。
Objective To isolate and identify human dental pulp stem cells from third molars.
目的分析急性巨核细胞白血病(amkl)患者的临床特征、免疫表型、分子生物学特征以及预后。
Objective to assess the clinical features, immunophenotypic, and cytogenetic characteristics of acute megakaryocytic leukemia (AMKL).
培养的细胞具有良好的生物学活性,细胞表型稳定可保持3代;
The chondrocytes cultured in vitro maintained the specific chondrocytes phenotype in the first 3 passages.
树突状细胞由多种表型特征及生物学功能特性不同的亚群组成,单核细胞源性树突状细胞是其中的重要组成群体。
Dendritic cells (DCs) have different subtypes with distinct phenotypes and biological functions. Meloyiod dendritic cell subtype is one of the most important DCs subtypes.
生物学中的大量数据,从序列字符串到复杂表型数据和疾病相关的数据,为现代生物学提出了一个巨大的挑战。
The myriad data in biology ranging from sequence strings to complex phenotypic and disease-relevant data pose a huge challenge to modern biology.
目的用PCR方法扩增红色毛癣菌和须癣毛癣菌临床分离株的DNA ,观察PCR指纹的差异以及基因型与传统表型的关系,建立一种红色毛癣菌分子生物学鉴定方法。
Objective To observe the unique DNA profile and the relationship between DNA profile and phenotype of Trichophyton rubrum , and establish an effective molecular method to identify T. rubrum .
目的用PCR方法扩增红色毛癣菌和须癣毛癣菌临床分离株的DNA ,观察PCR指纹的差异以及基因型与传统表型的关系,建立一种红色毛癣菌分子生物学鉴定方法。
Objective To observe the unique DNA profile and the relationship between DNA profile and phenotype of Trichophyton rubrum , and establish an effective molecular method to identify T. rubrum .
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