High-throughput and high-sensitivity phosphoproteomics with the EasyPhos platform
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High-throughput and high-sensitivity phosphoproteomics with the EasyPhos platform. / Humphrey, Sean J.; Karayel, Ozge; James, David E.; Mann, Matthias.
In: Nature Protocols (Print), Vol. 13, 2018, p. 1897-1916.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - High-throughput and high-sensitivity phosphoproteomics with the EasyPhos platform
AU - Humphrey, Sean J.
AU - Karayel, Ozge
AU - James, David E.
AU - Mann, Matthias
PY - 2018
Y1 - 2018
N2 - Mass spectrometry has transformed the field of cell signaling by enabling global studies of dynamic protein phosphorylation ('phosphoproteomics'). Recent developments are enabling increasingly sophisticated phosphoproteomics studies, but practical challenges remain. The EasyPhos workflow addresses these and is sufficiently streamlined to enable the analysis of hundreds of phosphoproteomes at a depth of >10,000 quantified phosphorylation sites. Here we present a detailed and updated workflow that further ensures high performance in sample-limited conditions while also reducing sample preparation time. By eliminating protein precipitation steps and performing the entire protocol, including digestion, in a single 96-well plate, we now greatly minimize opportunities for sample loss and variability. This results in very high reproducibility and a small sample size requirement (≤200 μg of protein starting material). After cell culture or tissue collection, the protocol takes 1 d, whereas mass spectrometry measurements require ~1 h per sample. Applied to glioblastoma cells acutely treated with epidermal growth factor (EGF), EasyPhos quantified 20,132 distinct phosphopeptides from 200 μg of protein in less than 1 d of measurement time, revealing thousands of EGF-regulated phosphorylation events.
AB - Mass spectrometry has transformed the field of cell signaling by enabling global studies of dynamic protein phosphorylation ('phosphoproteomics'). Recent developments are enabling increasingly sophisticated phosphoproteomics studies, but practical challenges remain. The EasyPhos workflow addresses these and is sufficiently streamlined to enable the analysis of hundreds of phosphoproteomes at a depth of >10,000 quantified phosphorylation sites. Here we present a detailed and updated workflow that further ensures high performance in sample-limited conditions while also reducing sample preparation time. By eliminating protein precipitation steps and performing the entire protocol, including digestion, in a single 96-well plate, we now greatly minimize opportunities for sample loss and variability. This results in very high reproducibility and a small sample size requirement (≤200 μg of protein starting material). After cell culture or tissue collection, the protocol takes 1 d, whereas mass spectrometry measurements require ~1 h per sample. Applied to glioblastoma cells acutely treated with epidermal growth factor (EGF), EasyPhos quantified 20,132 distinct phosphopeptides from 200 μg of protein in less than 1 d of measurement time, revealing thousands of EGF-regulated phosphorylation events.
U2 - 10.1038/s41596-018-0014-9
DO - 10.1038/s41596-018-0014-9
M3 - Journal article
C2 - 30190555
VL - 13
SP - 1897
EP - 1916
JO - Nature Protocols
JF - Nature Protocols
SN - 1754-2189
ER -
ID: 202242705