Deglycosylation systematically improves N-glycoprotein identification in liquid chromatography–tandem mass spectrometry proteomics for analysis of cell wall stress responses in Saccharomyces cerevisiae lacking Alg3p

Bailey, Ulla-Maja; Schulz, Benjamin L.

doi:10.1016/j.jchromb.2013.01.026

Cited by 14 publications

(14 citation statements)

References 51 publications

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“…Further, in-solution digestion requires low protease-to-substrate ratio (1:50 or lower, m/m) to reduce contamination, thereby operates near-entirely in the enzyme-deficient, diffusion-limited, low-efficiency region (7); slow reaction rates of compromised trypsin in urea amplify such deviation from ideal. In-solution trypsin (2 M urea) digestion has also been extended by combining with other enzymes such as Lys-C (8 M urea) (17), pepsin (18), Asp-N (19), and PNGase F (predigestion (19)). Increasing evidence suggests multispecificity, often via using multiple proteases, is necessary for reliable PSM quantitation of lysates (13,20).…”

Section: Figmentioning

confidence: 99%

“…Extensive PTMs in human signaling TM proteins, such as high-occupancy N-glycosylation, had remained largely a target of observation, but rarely exploited as a means to aid overall peptide formation and detection, partly for fear that PTM enzymes overwhelm real samples (though PNGase F was used to release enriched glycopeptides (77)). Predigestion PNGase F solution incubation indeed identified more proteins in yeast cell wall (19). But emerging complicated N-glycosylation scenarios in mammalian TM proteins suggest, treating peptides post-digestion is more likely efficient and complete than treating proteins (7,66).…”

Section: Direct Flow/ddm-facilitated Digestions For Hdx Deep Sequencmentioning

confidence: 99%

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Less is More: Membrane Protein Digestion Beyond Urea–Trypsin Solution for Next-level Proteomics

Zhang

2015

Molecular & Cellular Proteomics

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Section: Figmentioning

confidence: 99%

Section: Direct Flow/ddm-facilitated Digestions For Hdx Deep Sequencmentioning

confidence: 99%

Less is More: Membrane Protein Digestion Beyond Urea–Trypsin Solution for Next-level Proteomics

Zhang

2015

Molecular & Cellular Proteomics

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“…Peptides were identified essentially as described using ProteinPilot (AB SCIEX), searching the LudwigNR database (downloaded from http://apcf.edu.au as at 27 January 2012; 16 818 973 sequences; 5 891 363 821 residues) with standard settings: sample type, identification; cysteine alkylation, acrylamide; instrument, TripleTof 5600; species, human, or yeast; ID focus, biological modifications; enzyme, trypsin, or AspN; Search effort, thorough ID. False discovery rate analysis using ProteinPilot was performed on all searches.…”

Section: Methodsmentioning

confidence: 99%

Automated measurement of site‐specific N‐glycosylation occupancy with SWATH‐MS

2015

Self Cite

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Asparagine-linked glycosylation is a common post-translational modification of proteins catalyzed by oligosaccharyltransferase that is important in regulating many aspects of protein function. Analysis of protein glycosylation, including glycoproteomic measurement of the site-specific extent of glycosylation, remains challenging. Here, we developed methods combining enzymatic deglycosylation and protease digestion with SWATH-MS to enable automated measurement of site-specific occupancy at many glycosylation sites. Deglycosylation with peptide-endoglycosidase H, leaving a remnant N-acetylglucosamine on asparagines previously carrying high-mannose glycans, followed by trypsin digestion allowed robust automated measurement of occupancy at many sites. Combining deglycosylation with the more general peptide-N-glycosidase F enzyme with AspN protease digest allowed robust automated differentiation of nonglycosylated and deglycosylated forms of a given glycosylation site. Ratiometric analysis of deglycosylated peptides and the total intensities of all peptides from the corresponding proteins allowed relative quantification of site-specific glycosylation occupancy between yeast strains with various isoforms of oligosaccharyltransferase. This approach also allowed robust measurement of glycosylation sites in human salivary glycoproteins. This method for automated relative quantification of site-specific glycosylation occupancy will be a useful tool for research with model systems and clinical samples.

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“…The Δalg3 deletion strain in SS328 and in the Δire1 strain background displayed a growth phenotype when grown on the SD-URA and SGal-URA plates at 37°C. This effect is most likely unrelated to ERAD or UPR effects, and has been described as being caused by a changed cell wall composition (Bailey and Schulz 2013).…”

Section: Effects Of Deletions On Growth Under Igg Production Conditionsmentioning

confidence: 99%

Analysis of antibody production in Saccharomyces cerevisiae: effects of ER protein quality control disruption

Ruijter

Frey

2015

Appl Microbiol Biotechnol

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One of the main limitations for heterologous protein production in the yeast Saccharomyces cerevisiae is the protein folding capacity in the endoplasmic reticulum (ER). Accumulation of unfolded proteins triggers the unfolded protein response (UPR), which resolves the stress by increasing the capacity for protein folding and removal of unfolded proteins by the ER associated degradation (ERAD) system. In order to analyse the influence of ERAD on production of a human IgG, we disrupted ERAD at different stages by deletion of the HTM1, YOS9, HRD1, HRD3 or UBC7 gene, with or without a disruption of the UPR by deletion of the IRE1 gene. All deletion strains were viable and did not exhibit a growth phenotype under normal growth conditions. Deletion of HTM1 resulted in a small increase in antibody production, whereas a small decrease in antibody production was observed in the Δhrd1, Δhrd3 and Δubc7 yeast strains, and a stronger decrease in the Δyos9 yeast strain. Deletion of the IRE1 gene had contrasting effects in the ERAD mutants, with a strongly decreased production in wild type cells and partially reversed effects in combination with the Δhtm1 or the Δyos9 deletions. In order to study IgG clearance from the ER, an assay was developed using the inhibitory effect of glucose on the GAL1 promoter that is driving IgG expression. The Δyos9Δire1and Δhtm1Δire1 strains showed a delayed IgG clearance from the cells, showing that removal of components for the generation and recognition of the glycan signal needed for ERAD mediated protein degradation might increase the IgG ER residence time.3

show abstract

Deglycosylation systematically improves N-glycoprotein identification in liquid chromatography–tandem mass spectrometry proteomics for analysis of cell wall stress responses in Saccharomyces cerevisiae lacking Alg3p

Cited by 14 publications

References 51 publications

Less is More: Membrane Protein Digestion Beyond Urea–Trypsin Solution for Next-level Proteomics

Less is More: Membrane Protein Digestion Beyond Urea–Trypsin Solution for Next-level Proteomics

Automated measurement of site‐specific N‐glycosylation occupancy with SWATH‐MS

Analysis of antibody production in Saccharomyces cerevisiae: effects of ER protein quality control disruption

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