The ability to study the living without destroying it has been the goal of many scientists for decades. A new article in ACS Nano has paved the road towards noninvasive cellular-level examination. The only true way to study cellular dynamics is to study a single cell over time (temporally). The reason for this is the heterogeneous nature of any cell culture because no two cells are identical spatially and temporally. Each individual cell has its own set of experiences that has generated its current molecular inventory, ie. RNA molecules, metabolites, proteins, sugars, lipids, etc. Studying a community of cells gives rise to noise that makes finding significant differences incredibly difficult.
In the article entitled Compartmental Genomics in Living Cells Revealed by Single-Cell Nanobiopsy, the authors used a kind of microscopy called scanning ion conductance microscopy, or SICM, that allows for continuous sampling of a single cell over time. The authors used a nanopipette as part of the SICM and combined this with sensitive sequencing techniques resulting in a high resolution look at what genes are being expressed over time into RNA molecules. Furthermore, this technique was used to study the genomic information of individual mitochondria within a single cell without also studying the nuclear material. In other words, this new technique has resulted in the ability to not only study cellular dynamics, but go beyond that and study subcellular dynamics.
This breakthrough will have impacts across many fields from cancer biology to improving climate models.
Paolo Actis, Michelle M. Maalouf, Hyunsung John Kim, Akshar Lohith, Boaz Vilozny, R. Adam Seger, & Nader Pourmand (2013). Compartmental Genomics in Living Cells Revealed by Single-Cell Nanobiopsy ACS Nano DOI: 10.1021/nn405097u