正确细胞命运的决定被组织中 翻译结果3复制译文编辑译文朗读译文返回顶部 内组织适当的细胞命运的决定 翻译结果4复制译文编辑译文朗读译文返回顶部 适当的细胞命运决定被组织内 翻译结果5复制译文编辑译文朗读译文返回顶部 适当的细胞命运决定被组织内 相关内容
从后往前mapped backward in time in order to infer fate decisions that occurred either early or late。其优势在于:without the need for experimental labelling by analysing endogenous, naturally occurring genetic polymorphisms,可以被应用到 human patient samples and in other cases in which experimental ...
Stem cells initiate fate decisions by activating developmental genes in G1 phase. In pluripotent stem cells, developmental genes are cell cycle regulated and respond to extracellular differentiation cues in G1. Developmental signaling pathways connect to target genes in G1 phase, allowing for ...
Cells are continuously exposed to various stress factors that endanger their functionality and thus, their ability to cope with stress. The ability of cells to adapt and survive by restoring homeostasis is an integral component of cellular physiology. However, if the stress is persistent and homeosta...
Doctor of Cell-Fate Decisions in the Immune System 工业工程与运筹部 2020-12-23T03:42:05.897026 硕士2020 任意✩收藏项目(0) 学校 University of Munich 慕尼黑大学 University of Munich54380 相关专业 生命科学(Biological / Biomedical Science)
Engraikd Controls Gliauneuronal Cell Fate Decisions at the Midline of the Central Nervous System The molecular mechanisms involved in glial/neuronal fate decisions during embryonic development are largely unknown. Here we show that the segmentpolarity ... B Condron,N Pate,K Zinn 被引量: 0发表: ...
Strikingly, a 1-min pulse of TNF can be more effective at killing than a 1-hour pulse, indicating that in addition to TNF concentration, duration of exposure also coordinates cell fate decisions. 展开 DOI: 10.1038/srep39519 被引量: 10 ...
Cancer has always been a worldwide problem, and the application of radiotherapy has greatly improved the survival rate of cancer patients. Radiotherapy can modulate multiple cell fate decisions to kill tumor cells and achieve its therapeutic effect. With
The system of the bacterium Escherichia coli and its virus, bacteriophage lambda, is paradigmatic for gene regulation in cell-fate development, yet insight about its mechanisms and complexities are limited due to insufficient resolution of study. Here we