Pages that link to "Q37294395"

The following pages link to SysPTM: a systematic resource for proteomic research on post-translational modifications (Q37294395):

Displaying 50 items.

• Prediction of ubiquitination sites by using the composition of k-spaced amino acid pairs (Q21135270) (← links)
• CPLA 1.0: an integrated database of protein lysine acetylation (Q24608175) (← links)
• PhosphoSitePlus: a comprehensive resource for investigating the structure and function of experimentally determined post-translational modifications in man and mouse (Q24619841) (← links)
• HIstome--a relational knowledgebase of human histone proteins and histone modifying enzymes (Q24620825) (← links)
• Regulation of translesion DNA synthesis: Posttranslational modification of lysine residues in key proteins (Q28087183) (← links)
• Influence of the sequence environment and properties of neighboring amino acids on amino-acetylation: relevance for structure-function analysis (Q30422783) (← links)
• Mapping Biological Networks from Quantitative Data-Independent Acquisition Mass Spectrometry: Data to Knowledge Pipelines. (Q31158906) (← links)
• PhosSNP for systematic analysis of genetic polymorphisms that influence protein phosphorylation (Q33517577) (← links)
• Cooperativity within proximal phosphorylation sites is revealed from large-scale proteomics data (Q33526509) (← links)
• HHMD: the human histone modification database (Q33600951) (← links)
• GPS-SNO: computational prediction of protein S-nitrosylation sites with a modified GPS algorithm (Q33619142) (← links)
• GPS-YNO2: computational prediction of tyrosine nitration sites in proteins. (Q33801074) (← links)
• Physicochemical mechanisms of protein regulation by phosphorylation (Q34014387) (← links)
• Toward a complete in silico, multi-layered embryonic stem cell regulatory network (Q34181781) (← links)
• Human germline and pan-cancer variomes and their distinct functional profiles (Q34312953) (← links)
• Extracellular phosphorylation and phosphorylated proteins: not just curiosities but physiologically important (Q34318400) (← links)
• PTMScout, a Web resource for analysis of high throughput post-translational proteomics studies (Q34320730) (← links)
• Hyperphosphorylation of polycystin-2 at a critical residue in disease reveals an essential role for polycystin-1-regulated dephosphorylation (Q34326684) (← links)
• Systematic analysis of protein phosphorylation networks from phosphoproteomic data (Q34338216) (← links)
• Integrating phosphoproteomics in systems biology (Q34377093) (← links)
• Position-specific analysis and prediction for protein lysine acetylation based on multiple features (Q34485179) (← links)
• Phosphoproteome analysis reveals regulatory sites in major pathways of cardiac mitochondria (Q34551789) (← links)
• Mass Spectrometry Mapping of Epidermal Growth Factor Receptor Phosphorylation Related to Oncogenic Mutations and Tyrosine Kinase Inhibitor Sensitivity (Q34631999) (← links)
• Systematic analysis of the in situ crosstalk of tyrosine modifications reveals no additional natural selection on multiply modified residues. (Q34635652) (← links)
• Large Scale Phosphoproteome Profiles Comprehensive Features of Mouse Embryonic Stem Cells (Q34751569) (← links)
• Incorporating substrate sequence motifs and spatial amino acid composition to identify kinase-specific phosphorylation sites on protein three-dimensional structures (Q35101544) (← links)
• Large-scale determination of absolute phosphorylation stoichiometries in human cells by motif-targeting quantitative proteomics (Q35311600) (← links)
• Cross-talk between phosphorylation and lysine acetylation in a genome-reduced bacterium. (Q35802188) (← links)
• A machine learning strategy for predicting localization of post-translational modification sites in protein-protein interacting regions (Q36106194) (← links)
• Cell Pluripotency Levels Associated with Imprinted Genes in Human (Q36173051) (← links)
• dbPTM 2016: 10-year anniversary of a resource for post-translational modification of proteins (Q36434875) (← links)
• DbPTM 3.0: an informative resource for investigating substrate site specificity and functional association of protein post-translational modifications (Q36491558) (← links)
• dbPAF: an integrative database of protein phosphorylation in animals and fungi (Q36724856) (← links)
• The current state of the art of quantitative phosphoproteomics and its applications to diabetes research (Q37080936) (← links)
• GlycoMine(struct): a new bioinformatics tool for highly accurate mapping of the human N-linked and O-linked glycoproteomes by incorporating structural features (Q37314730) (← links)
• CPLM: a database of protein lysine modifications. (Q37661827) (← links)
• SysPTM 2.0: an updated systematic resource for post-translational modification (Q37683561) (← links)
• RegPhos 2.0: an updated resource to explore protein kinase-substrate phosphorylation networks in mammals (Q37723706) (← links)
• Proteomics in China: ready for prime time (Q37769478) (← links)
• Targeting histone deacetylases for the treatment of Huntington's disease. (Q37774037) (← links)
• Human Protein Reference Database and Human Proteinpedia as resources for phosphoproteome analysis. (Q37967156) (← links)
• Targeting Huntington's disease through histone deacetylases (Q38019159) (← links)
• Mass spectrometry-driven phosphoproteomics: patterning the systems biology mosaic (Q38217990) (← links)
• The role of Plk3 in oncogenesis (Q38444150) (← links)
• ProteoConnections: a bioinformatics platform to facilitate proteome and phosphoproteome analyses (Q39532495) (← links)
• Prediction of lysine ubiquitination with mRMR feature selection and analysis (Q39789707) (← links)
• PEIMAN 1.0: Post-translational modification Enrichment, Integration and Matching ANalysis. (Q39921326) (← links)
• A novel method for predicting post-translational modifications on serine and threonine sites by using site-modification network profiles (Q40568045) (← links)
• Prediction of post-translational modification sites using multiple kernel support vector machine (Q42040786) (← links)
• MusiteDeep: a deep-learning framework for general and kinase-specific phosphorylation site prediction (Q42696127) (← links)