Protein N-Glycan analysis is traditionally performed by high pH anion exchange chromatography (HPAEC), reversed phase liquid chromatography (RPLC), or hydrophilic interaction liquid chromatography (HILIC) on fluorescence-labeled glycans enzymatically released from the glycoprotein. These methods require time-consuming sample preparations and do not provide site-specific glycosylation information. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) peptide mapping is frequently used for protein structural characterization and, as a bonus, can potentially provide glycan profile on each individual glycosylation site. In this work, a recently developed glycopeptide fragmentation model was used for automated identification, based on their MS/MS, of N-glycopeptides from proteolytic digestion of monoclonal antibodies (mAbs). Experimental conditions were optimized to achieve accurate profiling of glycoforms. Glycan profiles obtained from LC-MS/MS peptide mapping were compared with those obtained from HPAEC, RPLC, and HILIC analyses of released glycans for several mAb molecules. Accuracy, reproducibility, and linearity of the LC-MS/MS peptide mapping method for glycan profiling were evaluated. The LC-MS/MS peptide mapping method with fully automated data analysis requires less sample preparation, provides site-specific information, and may serve as an alternative method for routine profiling of N-glycans on immunoglobulins as well as other glycoproteins with simple N-glycans.
Dehydrins are a group of proteins that are accumulated during environmental stress such as drought and low temperature or during late embryogenesis. In the present study, we isolated dehydrin DHN1, also known as Rab17 protein, from maize kernel by an acid extraction method, removed the phosphoric acid groups from phosphorylated residues by beta-elimination via treating the protein with barium hydroxide, and identified the sites of phosphorylation by tandem mass spectrometry. Our results showed that each of the seven contiguous serine residues (Ser78-Ser84) in the serine tract could be phosphorylated. The beta-elimination procedure was shown to be essential for the detection and subsequent site mapping of the heavily phosphorylated peptide by mass spectrometry. We also found that protein kinase CK2 could catalyze the phosphorylation of the DHN1 protein in vitro and the level of phosphorylation was comparable to that of the DHN1 isolated from maize seeds. Moreover, the in vitro phosphorylation also occurred on the serine residues in the serine tract region, suggesting that CK2 might be involved in the phosphorylation of the serine track region in maize kernel in vivo.
In this paper, we examined the posttranslational modifications (PTMs) of high-mobility group A1 (HMGA1) proteins in PC-3 human prostate cancer cells that are either treated or not treated with a histone deacetylase inhibitor, sodium butyrate. We found that, from a reversed-phase C4 column, the HMGA1a protein eluted in two different fractions with distinct forms of PTMs: Ser98, Ser101, and Ser102 were phosphorylated and Arg25 was methylated for both fractions; only the minor fraction, however, is hyperphosphorylated where Ser35, Thr52, and Thr77 were also phosphorylated. In addition, Lys14 was acetylated in the major but not the minor HMGA1a fraction isolated from the PC-3 cells that were not treated with butyrate. Likewise, HMGA1b, which is a splicing variant of HMGA1a, was acetylated on Lys14 and phosphorylated on the corresponding residues, i.e., Thr41, Thr66, Ser87, Ser90, and Ser91. The acetylation and phosphorylation of the HMGA1a and HMGA1b proteins may affect their interactions with other protein factors, which in turn may modulate the binding of HMGA1 proteins to DNA and regulate gene expression. In addition, the specifically posttranslationally modified HMGA1 proteins may serve as molecular biomarkers for cancer diagnosis and prognosis.
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