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Cancer systems biology is an example of the systems biology approach, which can be distinguished by the specific object of study (tumorigenesis and treatment of cancer). It works with the specific data  (patient samples, high-throughput data with particular attention to characterizing cancer genome in patient tumour samples) and tools (immortalized cancer cell lines, mouse models of tumorigenesis, xenograft models, high-throughput sequencing methods, siRNA-based gene knocking down high-throughput screenings, computational modeling of the consequences of somatic mutations and genome instability). The long-term objective of the systems biology of cancer is ability to better diagnose cancer, classify it and better predict the outcome of a suggested treatment, which is a basis for personalized cancer medicine and virtual cancer patient in more distant prospective. Significant efforts in computational systems biology of cancer have been made in creating realistic multi-scale in silico models of various tumours.
 
Cancer systems biology is an example of the systems biology approach, which can be distinguished by the specific object of study (tumorigenesis and treatment of cancer). It works with the specific data  (patient samples, high-throughput data with particular attention to characterizing cancer genome in patient tumour samples) and tools (immortalized cancer cell lines, mouse models of tumorigenesis, xenograft models, high-throughput sequencing methods, siRNA-based gene knocking down high-throughput screenings, computational modeling of the consequences of somatic mutations and genome instability). The long-term objective of the systems biology of cancer is ability to better diagnose cancer, classify it and better predict the outcome of a suggested treatment, which is a basis for personalized cancer medicine and virtual cancer patient in more distant prospective. Significant efforts in computational systems biology of cancer have been made in creating realistic multi-scale in silico models of various tumours.
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<font color="#FF8000">癌症系统生物学 Cancer systems biology</font>是系统生物学研究的一个例子,它可以通过特定的研究对象(肿瘤发生和癌症治疗)来区分。它使用特定的数据(患者样本、高通量数据,特别注意在患者肿瘤样本中描述癌症基因组)和工具(永生化癌细胞系、肿瘤发生的小鼠模型、异种移植模型、高通量测序方法、基于siRNA的基因敲除高通量筛选、体细胞突变后果的计算模型和基因不稳定性)。癌症系统生物学的长期目标是能够更好地诊断癌症,对癌症进行分类,并更好地预测建议的治疗结果,这是个性化癌症医学和虚拟癌症患者在更远的前景的基础。在癌症的计算系统生物学方面已经做出了重大的努力,在各种肿瘤的计算机模型中创造了真实的多尺度。
 
<font color="#FF8000">癌症系统生物学 Cancer systems biology</font>是系统生物学研究的一个例子,它可以通过特定的研究对象(肿瘤发生和癌症治疗)来区分。它使用特定的数据(患者样本、高通量数据,特别注意在患者肿瘤样本中描述癌症基因组)和工具(永生化癌细胞系、肿瘤发生的小鼠模型、异种移植模型、高通量测序方法、基于siRNA的基因敲除高通量筛选、体细胞突变后果的计算模型和基因不稳定性)。癌症系统生物学的长期目标是能够更好地诊断癌症,对癌症进行分类,并更好地预测建议的治疗结果,这是个性化癌症医学和虚拟癌症患者在更远的前景的基础。在癌症的计算系统生物学方面已经做出了重大的努力,在各种肿瘤的计算机模型中创造了真实的多尺度。
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  --[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]])  【审校】此处编辑视图中有去标注与翻译,但阅读视图中处理后仍然无法显示。
    
{{cite journal|last1=Byrne|first1=Helen M. |authorlink1=Helen Byrne
 
{{cite journal|last1=Byrne|first1=Helen M. |authorlink1=Helen Byrne
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