2013
DOI: 10.1074/mcp.m112.022996
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Putting the Pieces Together: High-performance LC-MS/MS Provides Network-, Pathway-, and Protein-level Perspectives in Populus

Abstract: High-performance mass spectrometry (MS)-based proteomics enabled the construction of a detailed proteome atlas for Populus, a woody perennial plant model organism. Optimization of experimental procedures and implementation of current state-of-the-art instrumentation afforded the most detailed look into the predicted proteome space of Populus, offering varying proteome perspectives: (1) network-wide, (2) pathway-specific, and (3) protein-level viewpoints. Together, enhanced protein retrieval through a detergent… Show more

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Cited by 29 publications
(27 citation statements)
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References 55 publications
(66 reference statements)
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“…Clearly, therefore, comprehensive proteomic profiling at high spatial resolution could not only pinpoint changes in levels of key proteins during wood formation, but also provide important indications of the pathways and key regulatory switches involved. However, characterization of protein expression in plant stems is complicated by the heterogeneous mixtures of cell types and the dynamic range in protein abundance across developmental zones (Abraham et al, 2013 [ 10 ]; Qiu et al, 2013 [ 11 ]). Partly for this reason previous studies on wood development have generally focused on one or a few developmental gradients, relatively large sections, or tissue samples collected from a few positions in developmental sequences (Gion et al, 2005 [ 1 ]; Mishima et al, 2014 [ 2 ]; Hertzberg et al, 2001 [ 3 ]; Tuskan et al, 2006 [ 4 ]; Kalluri et al, 2009 [ 5 ]; Nilsson et al, 2010 [ 6 ]; Zhong et al, 2007 [ 7 ]).…”
Section: Introductionmentioning
confidence: 99%
“…Clearly, therefore, comprehensive proteomic profiling at high spatial resolution could not only pinpoint changes in levels of key proteins during wood formation, but also provide important indications of the pathways and key regulatory switches involved. However, characterization of protein expression in plant stems is complicated by the heterogeneous mixtures of cell types and the dynamic range in protein abundance across developmental zones (Abraham et al, 2013 [ 10 ]; Qiu et al, 2013 [ 11 ]). Partly for this reason previous studies on wood development have generally focused on one or a few developmental gradients, relatively large sections, or tissue samples collected from a few positions in developmental sequences (Gion et al, 2005 [ 1 ]; Mishima et al, 2014 [ 2 ]; Hertzberg et al, 2001 [ 3 ]; Tuskan et al, 2006 [ 4 ]; Kalluri et al, 2009 [ 5 ]; Nilsson et al, 2010 [ 6 ]; Zhong et al, 2007 [ 7 ]).…”
Section: Introductionmentioning
confidence: 99%
“…The development of MS with high resolution, high mass accuracy, and high sequencing speed now allows routine identification and quantification of proteins in a comprehensive and unbiased manner in biological samples with high confidence (32). These technological advances in LC-MS now allow the study of protein expression on a system-wide level (33). Therefore, an in-depth characterization of the proteome changes during the honey bee embryogenesis will provide greater understanding of the molecular mechanisms that underlie the process of embryogenesis in honey bee workers, and offers new insights into the embryology of other social insects.…”
mentioning
confidence: 99%
“…The mapping analysis consisted of 300 HPLC‐MS/MS runs which generated 1 457 281 matched spectra at 2% false discovery rate (FDR) representing 89 754 unique peptides when searched against the IWGSC1.0 + popseq 28 peptide sequence database. This depth of analysis is equivalent to studies conducted in Arabidopsis (Baerenfaller et al ., ) (86 456 unique peptides) and Poplar (Abraham et al ., ) (63 056). Our use of Q‐TOF rather than TRAP mass spectrometry provides higher resolution, full range MS/MS spectra for each peptide.…”
Section: Resultsmentioning
confidence: 99%
“…Mature harvested grain was imbibed and incubated for 24 h before dissecting the embryo, endosperm and pericarp ( Figure 1d). (Abraham et al, 2013) (63 056). Our use of Q-TOF rather than TRAP mass spectrometry provides higher resolution, full range MS/MS spectra for each peptide.…”
Section: Spatial and Developmental Dissection Of The Wheat Proteomementioning
confidence: 99%