2017
DOI: 10.1021/acs.analchem.6b04395
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Enhanced Spatially Resolved Proteomics Using On-Tissue Hydrogel-Mediated Protein Digestion

Abstract: The identification of proteins from tissue specimens is a challenging area of biological research. Many current techniques for identification forfeit some level of spatial information during the sample preparation process. Recently, hydrogel technologies have been developed that perform spatially localized protein extraction and digestion prior to downstream proteomic analysis. Regiospecific protein identifications acquired using this approach have thus far been limited to 1-2 mm diameter areas. The need to ta… Show more

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Cited by 28 publications
(31 citation statements)
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“…Notably, recent technological advances are merging omics with histological analysis; these approaches are known as ‘spatial genomics’ [39] or ‘spatial proteomics’ [40, 41]. Single-cell RNA sequencing or mass spectrometry in situ (preserving the spatial location of the studied cells) promises to expose new layers of beta cell biology and heterogeneity.…”
Section: Multihormonal Islet Cellsmentioning
confidence: 99%
“…Notably, recent technological advances are merging omics with histological analysis; these approaches are known as ‘spatial genomics’ [39] or ‘spatial proteomics’ [40, 41]. Single-cell RNA sequencing or mass spectrometry in situ (preserving the spatial location of the studied cells) promises to expose new layers of beta cell biology and heterogeneity.…”
Section: Multihormonal Islet Cellsmentioning
confidence: 99%
“…The number of identifications is comparable with those obtained from other spatially targeted approaches such as hydrogels. A hydrogel fabricated with a diameter of 1.66 mm has been shown to be capable of identifying 1052 proteins, while the LESA experiment at 1.0 μL (~1.71 mm diameter measured previously) identified 1119 proteins . The top‐down experiments can be completed in as little as 1–2 h, where the majority of the time is devoted to LC/MS/MS analysis, as the tissue washes and extractions only take ~10 min to complete.…”
Section: Resultsmentioning
confidence: 98%
“…Utilization of a glass capillary for extractions allows for improved droplet resolutions (<600 μm on water‐sensitive paper) and reproducibility (relative standard deviations of <5%) for most experiments. Comparisons of spatially targeted proteomic techniques such as hydrogel experiments, laser capture laser microdissection (LCM), and tissue homogenization have been discussed elsewhere . In these studies, 1.5 mm LCM, 1.5 mm tissue punch/digestion, and 1.67 mm hydrogel experiments yielded ~800–1000 protein identifications whereas the 1.0 μL LESA experiment (1.71 mm on tissue) described herein yielded ~1120 protein identifications.…”
Section: Discussionmentioning
confidence: 93%
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“…As introduced briefly above with the example of imaging mass cytometry, medium and high throughput methodologies are begging to be applied with spatial resolution. Exciting recent advances include “spatial genomics” and “spatial proteomics” . In addition to in situ mass spectrometry, the multiplexing of single molecule RNA fluorescence in situ hybridization promises to allow for the simultaneous detection and quantification of dozens or even hundreds of mRNA species in tissue sections .…”
Section: Multihormonal Islet Cellsmentioning
confidence: 99%