Team:Alberta/References/Publications/Microfluidic chip: Next generation platform for systems biology
From 2009.igem.org
(New page: Authors:Feng X, Du W, Luo Q, Liu BF Anal Chim Acta. 2009 Sep 14;650(1):83-97 <b>Abstract:</b> Systems biology advocates the understanding of biology at the systems-level, which requires ...) |
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Authors:Feng X, Du W, Luo Q, Liu BF | Authors:Feng X, Du W, Luo Q, Liu BF | ||
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<b>Abstract:</b> Systems biology advocates the understanding of biology at the systems-level, which requires massive information of correlations among individual components in complex biological systems. Such comprehensive investigation entails the use of high-throughput analytical tools. Microfluidic technology holds high promise to facilitate the progress of biology by enabling miniaturization and upgrading of current biological research tools due to its advantages such as low sample consumption, reduced analysis time, high-throughput and compatible sizes with most biological samples. In this article, we documented the recent applications of microfluidic chips in biological researches at the molecular level, cellular level and organism level, serving the purpose for systems-level understanding of biology. | <b>Abstract:</b> Systems biology advocates the understanding of biology at the systems-level, which requires massive information of correlations among individual components in complex biological systems. Such comprehensive investigation entails the use of high-throughput analytical tools. Microfluidic technology holds high promise to facilitate the progress of biology by enabling miniaturization and upgrading of current biological research tools due to its advantages such as low sample consumption, reduced analysis time, high-throughput and compatible sizes with most biological samples. In this article, we documented the recent applications of microfluidic chips in biological researches at the molecular level, cellular level and organism level, serving the purpose for systems-level understanding of biology. | ||
'''Link:'''[http://www.ncbi.nlm.nih.gov/pubmed/19720178 PubMed] | '''Link:'''[http://www.ncbi.nlm.nih.gov/pubmed/19720178 PubMed] |
Revision as of 22:00, 21 October 2009
Authors:Feng X, Du W, Luo Q, Liu BF
Analytica Chimica Acta. 2009 Sep 14;650(1):83-97
Abstract: Systems biology advocates the understanding of biology at the systems-level, which requires massive information of correlations among individual components in complex biological systems. Such comprehensive investigation entails the use of high-throughput analytical tools. Microfluidic technology holds high promise to facilitate the progress of biology by enabling miniaturization and upgrading of current biological research tools due to its advantages such as low sample consumption, reduced analysis time, high-throughput and compatible sizes with most biological samples. In this article, we documented the recent applications of microfluidic chips in biological researches at the molecular level, cellular level and organism level, serving the purpose for systems-level understanding of biology.
Link:[http://www.ncbi.nlm.nih.gov/pubmed/19720178 PubMed]