There is currently a split within the cancer research community between traditional molecular biological hypothesis-driven and the more recent "omic" forms or research. While the molecular biological approac...There is currently a split within the cancer research community between traditional molecular biological hypothesis-driven and the more recent "omic" forms or research. While the molecular biological approach employs the tried and true single alteration-single response formulations of experimentation,the omic employs broad-based assay or sample collection approaches that generate large volumes of data. How to integrate the benefits of these two approaches in an efficient and productive fashion remains an outstanding issue. Ideally,one would merge the understandability,exactness,simplicity,and testability of the molecular biological approach,with the larger amounts of data,simultaneous consideration of multiple alterations,consideration of genes both of known interest along with the novel,cross-sample comparisons among cell lines and patient samples,and consideration of directed questions while simultaneously gaining exposure to the novel provided by the omic approach. While at the current time integration of the two disciplines remains problematic,attempts to do so are ongoing,and will be necessary for the understanding of the large cell line screens including the Developmental Therapeutics Program's NCI-60,the Broad Institute's Cancer Cell Line Encyclopedia,and the Wellcome Trust Sanger Institute's Cancer Genome Project,as well as the the Cancer Genome Atlas clinical samples project. Going forward there is significant benefit to be had from the integration of the molecular biological and the omic forms or research,with the desired goal being improved translational understanding and application.展开更多
文摘There is currently a split within the cancer research community between traditional molecular biological hypothesis-driven and the more recent "omic" forms or research. While the molecular biological approach employs the tried and true single alteration-single response formulations of experimentation,the omic employs broad-based assay or sample collection approaches that generate large volumes of data. How to integrate the benefits of these two approaches in an efficient and productive fashion remains an outstanding issue. Ideally,one would merge the understandability,exactness,simplicity,and testability of the molecular biological approach,with the larger amounts of data,simultaneous consideration of multiple alterations,consideration of genes both of known interest along with the novel,cross-sample comparisons among cell lines and patient samples,and consideration of directed questions while simultaneously gaining exposure to the novel provided by the omic approach. While at the current time integration of the two disciplines remains problematic,attempts to do so are ongoing,and will be necessary for the understanding of the large cell line screens including the Developmental Therapeutics Program's NCI-60,the Broad Institute's Cancer Cell Line Encyclopedia,and the Wellcome Trust Sanger Institute's Cancer Genome Project,as well as the the Cancer Genome Atlas clinical samples project. Going forward there is significant benefit to be had from the integration of the molecular biological and the omic forms or research,with the desired goal being improved translational understanding and application.
