Proteomics

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An improved Boosting to Amplify Signal with Isobaric Labeling (iBASIL) strategy for precise quantitative single-cell proteomics


ABSTRACT: Mass spectrometry (MS)-based proteomics has great potential for overcoming the limitations of antibody-based immunoassays for antibody-independent, comprehensive, and quantitative proteomic analysis of single cells. Indeed, recent advances in nanoscale sample preparation have enabled effective processing of single cells. In particular, the concept of using boosting/carrier channels in isobaric labeling to increase the sensitivity in MS detection has also been increasingly used for quantitative proteomic analysis of small-sized samples including single cells. However, the full potential of such boosting/carrier approaches has not been significantly explored, nor has the resulting quantitation quality been carefully evaluated. Herein, we have further evaluated and optimized our recent boosting to amplify signal with isobaric labeling (BASIL) approach, originally developed for quantifying phosphorylation in small number of cells, for highly effective analysis of proteins in single cells. This improved BASIL (iBASIL) approach enables reliable quantitative single-cell proteomics analysis with greater proteome coverage by carefully controlling the boosting-to-sample ratio (e.g., in general <100x) and optimizing MS automatic gain control (AGC) and ion injection time settings in MS/MS analysis (e.g., 5E5 and 300 ms, respectively, which is significantly higher than that used in typical bulk analysis). Using standard LC-MS platforms, iBASIL enabled identification of ~2,500 proteins and precise quantification of ~1,500 proteins in the analysis of 104 FACS-isolated single cells, with the resulting protein profiles robustly clustering the cells from three different acute myeloid leukemia cell lines. This study highlights the importance of carefully evaluating and optimizing the boosting and MS data acquisition conditions for achieving robust, comprehensive proteomic analysis of single cells.

ORGANISM(S): Homo Sapiens (human)

SUBMITTER: Tao Liu 

PROVIDER: PXD017626 | JPOST Repository | Thu Mar 05 00:00:00 GMT 2020

REPOSITORIES: jPOST

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An Improved Boosting to Amplify Signal with Isobaric Labeling (iBASIL) Strategy for Precise Quantitative Single-cell Proteomics.

Tsai Chia-Feng CF   Zhao Rui R   Williams Sarah M SM   Moore Ronald J RJ   Schultz Kendall K   Chrisler William B WB   Pasa-Tolic Ljiljana L   Rodland Karin D KD   Smith Richard D RD   Shi Tujin T   Zhu Ying Y   Liu Tao T  

Molecular & cellular proteomics : MCP 20200303 5


Mass spectrometry (MS)-based proteomics has great potential for overcoming the limitations of antibody-based immunoassays for antibody-independent, comprehensive, and quantitative proteomic analysis of single cells. Indeed, recent advances in nanoscale sample preparation have enabled effective processing of single cells. In particular, the concept of using boosting/carrier channels in isobaric labeling to increase the sensitivity in MS detection has also been increasingly used for quantitative p  ...[more]

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