| 1.
Genome-wide CRISPR screen identifies FAM49B as a key regulator of ..
[3204]
|
| 2.
Quantitative Phosphoproteomics Reveals System-Wide Phosphorylation..
[1441]
|
| 3.
Mps1 regulates spindle morphology through MCRS1 to promote chromos..
[1247]
|
| 4.
ACBD3 modulates KDEL receptor interaction with PKA for its traffic..
[1029]
|
| 5.
THEMIS is a substrate and allosteric activator of SHP1, playing du..
[812]
|
| 6.
m(6)A facilitates hippocampus-dependent learning and memory throug..
[792]
|
| 7.
A proximity-tagging system to identify membrane protein-protein in..
[753]
|
| 8.
Biological Functions and Cross-Kingdom Host Gene Regulation of Sma..
[752]
|
| 9.
Ggct (g-glutamyl cyclotransferase) plays an important role in eryt..
[726]
|
| 10.
Impact of Expressing Cells on Glycosylation and Glycan of the SARS..
[719]
|
| 11.
Structure-Based Ligand Discovery Targeting the Transmembrane Domai..
[669]
|
| 12.
FER-mediated phosphorylation and PIK3R2 recruitment on IRS4 promot..
[648]
|
| 13.
Probing Protein-Protein Interactions with Label-Free Mass Spectrom..
[564]
|
| 14.
Protein tyrosine phosphatase receptor type R (PTPRR) antagonizes t..
[536]
|
| 15.
Competitive affinity-based proteome profiling and imaging to revea..
[515]
|
| 16.
Cell- and Tissue-Based Proteome Profiling and Bioimaging with Prob..
[502]
|
| 17.
Integrated phenotypic screening and activity-based protein profili..
[474]
|
| 18.
Multiparameter Optimization of Two Common Proteomics Quantificatio..
[466]
|
| 19.
Cell- and Tissue-Based Proteome Profiling and Dual Imaging of Apop..
[459]
|
| 20.
Tetrazole-Based Probes for Integrated Phenotypic Screening, Affini..
[437]
|
| 21.
胰腺癌细胞和血清完整蛋白质N-糖基化特征的质谱分析(中文)
[429]
|
| 22.
Minimalist linkers suitable for irreversible inhibitors in simulta..
[419]
|
| 23.
Identifying drug targets with thermal proteome profiling using IBT..
[393]
|
| 24.
Improvement of Peptide Separation for Exploring the Missing Protei..
[375]
|
| 25.
Lenalidomide bypasses CD28 co-stimulation to reinstate PD-1 immuno..
[373]
|
| 26.
Evaluation and minimization of nonspecific tryptic cleavages in pr..
[343]
|
| 27.
Dual-species proteomics and targeted intervention of animal-pathog..
[339]
|
| 28.
Affinity-based protein profiling-driven discovery of myricanol as ..
[333]
|
| 29.
Alternative Strategy To Explore Missing Proteins with Low Molecula..
[327]
|
| 30.
Evaluation and minimization of over-alkylation in proteomic sample..
[325]
|
| 31.
A simple, rapid, and practical method for single-cell proteomics b..
[321]
|
| 32.
Liquidambaric acid inhibits Wnt/beta-catenin signaling and colon c..
[308]
|
| 33.
Exploration of Missing Proteins by a Combination Approach to Enric..
[304]
|
| 34.
Proteome-wide Identification of Off-Targets of a Potent EGFR(L858R..
[296]
|
| 35.
D283 Med, a Cell Line Derived from Peritoneal Metastatic Medullobl..
[288]
|
| 36.
Time-dependent proteomics and drug response in expanding cancer ce..
[285]
|
| 37.
Proteomic Exploration of Endocytosis of Framework Nucleic Acids
[276]
|
| 38.
Mass Spectrometry-Based Analysis of Serum N-Glycosylation Changes ..
[275]
|
| 39.
Neddylation is essential for beta-catenin degradation in Wnt signa..
[248]
|
| 40.
Affinity-Based Protein Profiling Reveals Cellular Targets of Photo..
[228]
|
| 41.
Aberrant Fucosylation of Saliva Glycoprotein Defining Lung Adenoca..
[208]
|
| 42.
Eltrombopag binds SDC4 directly and enhances MAPK signaling and ma..
[192]
|
| 43.
Ultradeep Phosphoproteomics for Assessing Protein Kinase Inhibitor..
[63]
|
| 44.
TRAF2 mediates Wnt-induced β-catenin nuclear translocation by a..
[3]
|
