Your search keyword '"Sujun Li"' showing total 3 results

1. Identification of N‐terminal protein processing sites by chemical labeling mass spectrometry

Author

Sujun Li, Predrag Radivojac, Haixu Tang, James P. Reilly, and Santosh A. Misal

Subjects

Signal peptide, Staphylococcus aureus, medicine.medical_treatment, Amino Acid Motifs, Protein Sorting Signals, Orbitrap, 01 natural sciences, Mass Spectrometry, Article, Analytical Chemistry, law.invention, chemistry.chemical_compound, Bacterial Proteins, law, Sortase, medicine, Trypsin, Amino Acid Sequence, Sulfhydryl Compounds, Trichloroacetic Acid, Trichloroacetic acid, Spectroscopy, Methionine, Protease, 010401 analytical chemistry, Organic Chemistry, 0104 chemical sciences, Butyrates, Secretory protein, Biochemistry, chemistry, Proteolysis, Biocatalysis, Protein Processing, Post-Translational, medicine.drug

Abstract

RATIONALE Proteins undergo post-translational modifications and proteolytic processing that can affect their biological function. Processing often involves the loss of single residues. Cleavage of signal peptides from the N-terminus is commonly associated with translocation. Recent reports have suggested that other processing sites also exist. METHODS The secreted proteins from S. aureus N315 were precipitated with trichloroacetic acid (TCA) and amidinated with S-methyl thioacetimidate (SMTA). Amidinated proteins were digested with trypsin and analyzed with a high-resolution orbitrap mass spectrometer. RESULTS Sixteen examples of Staphylococcus aureus secretory proteins that lose an N-terminal signal peptide during their export were identified using this amidination approach. The N-termini of proteins with and without methionine were identified. Unanticipated protein cleavages due to sortase and an unknown protease were also uncovered. CONCLUSIONS A simple N-terminal amidination based mass spectrometry approach is described that facilitates identification of the N-terminus of a mature protein and the discovery of unexpected processing sites.

Published

2019

2. Speeding up tandem mass spectrometry based database searching by peptide and spectrum indexing

Author

Sujun Li, Yansheng Liu, Le-Heng Wang, You Li, Rui-Xiang Sun, Haipeng Wang, Zuo-Fei Yuan, Rong Zeng, Hao Chi, Si-Min He, and Yan Fu

Subjects

Speedup, Database, Chemistry, Organic Chemistry, Search engine indexing, computer.software_genre, Analytical Chemistry, Identification (information), Search engine, Mascot, Key (cryptography), Database search engine, Shotgun proteomics, computer, Spectroscopy

Abstract

Database searching is the technique of choice for shotgun proteomics, and to date much research effort has been spent on improving its effectiveness. However, database searching faces a serious challenge of efficiency, considering the large numbers of mass spectra and the ever fast increase in peptide databases resulting from genome translations, enzymatic digestions, and post-translational modifications. In this study, we conducted systematic research on speeding up database search engines for protein identification and illustrate the key points with the specific design of the pFind 2.1 search engine as a running example. Firstly, by constructing peptide indexes, pFind achieves a speedup of two to three compared with that without peptide indexes. Secondly, by constructing indexes for observed precursor and fragment ions, pFind achieves another speedup of two. As a result, pFind compares very favorably with predominant search engines such as Mascot, SEQUEST and X!Tandem.

Published

2010

3. Large-scale identification of human biliary proteins from a cholesterol stone patient using a proteomic approach

Author

Qi-Chang Xia, Quanhu Sheng, Rongxia Li, Rong Zeng, Hongyang Wang, Lei Zhang, Bin Chen, Sujun Li, Long Li, and Hu Zhou

Subjects

Proteomics, Gel electrophoresis, Spectrometry, Mass, Electrospray Ionization, Two-dimensional gel electrophoresis, Chromatography, Resolution (mass spectrometry), Chemistry, Organic Chemistry, Cholecystolithiasis, Proteins, Gallstones, Tandem mass spectrometry, Mass spectrometry, Analytical Chemistry, Biochemistry, Bile, Humans, Electrophoresis, Gel, Two-Dimensional, Female, Bottom-up proteomics, Shotgun proteomics, Chromatography, High Pressure Liquid, Spectroscopy, Aged

Abstract

Gallbladder bile, one of the most important body fluids, is composed of water, inorganic ions, conjugated bile salts, phospholipids, cholesterol, bilirubin, mucin and proteins. The separation and identification of bile proteins remain difficult due to the complexity of this matrix. In the present study, human gallbladder bile was obtained from a cholesterol stone patient, and the proteins were isolated and purified by dialysis, precipitation and delipidation procedures. The resulting proteins were divided into several aliquots. One aliquot was subjected to two-dimensional gel electrophoresis (2DE). The protein spots were then in-gel digested and analyzed by liquid chromatography coupled with tandem mass spectrometry (LC/MS/MS). Another aliquot was directly digested and analyzed by a combination of strong cation-exchange (SCX) and reversed-phase (RP) chromatography prior to tandem mass spectrometry (2D-LC/MS/MS). Eventually, 48 and 218 unique proteins were identified from 2DE/MS and 2D-LC/MS/MS, respectively, resulting in a total of 222 unique identified proteins. Of the 218 proteins identified by 2D-LC/MS/MS, 92 were identified based on more than one unique tryptic peptide, and, of the total 222 proteins, 98 were identified based on more than one unique tryptic peptide.

Published

2005