about
LATS1/WARTS phosphorylates MYPT1 to counteract PLK1 and regulate mammalian mitotic progressionIntegrative features of the yeast phosphoproteome and protein-protein interaction mapAutomated phosphoproteome analysis for cultured cancer cells by two-dimensional nanoLC-MS using a calcined titania/C18 biphasic column.Phosphoproteome analysis of formalin-fixed and paraffin-embedded tissue sections mounted on microscope slides.LATS1 and LATS2 phosphorylate CDC26 to modulate assembly of the tetratricopeptide repeat subcomplex of APC/C.jPOSTrepo: an international standard data repository for proteomesMetabolomic profiling of lung and prostate tumor tissues by capillary electrophoresis time-of-flight mass spectrometry.Type 2C protein phosphatases directly regulate abscisic acid-activated protein kinases in Arabidopsis.Shotguns in the front line: phosphoproteomics in plants.Uncovering Phosphorylation-Based Specificities through Functional Interaction Networks.Large-scale profiling of protein kinases for cellular signaling studies by mass spectrometry and other techniques.Systematic profiling of the bacterial phosphoproteome reveals bacterium-specific features of phosphorylation.Large-scale phosphorylation mapping reveals the extent of tyrosine phosphorylation in Arabidopsis.p38-Mediated phosphorylation of Eps15 endocytic adaptor protein.Temporal profiling of lapatinib-suppressed phosphorylation signals in EGFR/HER2 pathways.Microscale phosphoproteome analysis of 10,000 cells from human cancer cell lines.Characterization of kinase inhibitors using different phosphorylation states of colony stimulating factor-1 receptor tyrosine kinase.Quantitative proteome and phosphoproteome analyses of cultured cells based on SILAC labeling without requirement of serum dialysis.Human mesenchymal stem cell-engineered hepatic cell sheets accelerate liver regeneration in mice.Inhibition of endocytic vesicle fusion by Plk1-mediated phosphorylation of vimentin during mitosis.PCTK1 regulates integrin-dependent spindle orientation via protein kinase A regulatory subunit KAP0 and myosin X.The Rice Proteogenomics Database OryzaPG-DB: Development, Expansion, and New FeaturesPhosphorylation of BLUS1 kinase by phototropins is a primary step in stomatal opening.Chemical dephosphorylation for identification of multiply phosphorylated peptides and phosphorylation site determination.Large-scale comparative phosphoproteomics identifies conserved phosphorylation sites in plants.Correction: LATS1 and LATS2 phosphorylate CDC26 to modulate assembly of the tetratricopeptide repeat subcomplex of APC/C.Mass spectrum sequential subtraction speeds up searching large peptide MS/MS spectra datasets against large nucleotide databases for proteogenomics.Phosphoproteomic analysis of Rhodopseudomonas palustris reveals the role of pyruvate phosphate dikinase phosphorylation in lipid production.Blue light and CO2 signals converge to regulate light-induced stomatal opening.Identifications of Putative PKA Substrates with Quantitative Phosphoproteomics and Primary-Sequence-Based Scoring.Extended Coverage of Singly and Multiply Phosphorylated Peptides from a Single Titanium Dioxide Microcolumn.Large-scale identification of phosphorylation sites for profiling protein kinase selectivity.Prediction of liquid chromatographic retention times of peptides generated by protease digestion of the Escherichia coli proteome using artificial neural networks.Phosphoproteomic profiling reveals ABA-responsive phosphosignaling pathways in Physcomitrella patens.Human proteome analysis by using reversed phase monolithic silica capillary columns with enhanced sensitivity.The jPOST environment: an integrated proteomics data repository and databasePhosphopeptide enrichment by aliphatic hydroxy acid-modified metal oxide chromatography for nano-LC-MS/MS in proteomics applicationsEnergy-loss near-edge structure (ELNES) and first-principles calculation of electronic structure of nickel silicide systemsIsolation and characterization of okadaic acid binding proteins from the marine sponge Halichondria okadaiDetection of Rap1A as a yessotoxin binding protein from blood cell membranes
P50
Q30522305-20C1D1F1-F63B-4E9B-A873-CF778AB466AAQ33813499-0E740A24-8E00-48A7-82E9-D164C3D9F1B1Q34734854-B6AB4E3D-1EFB-4ABC-9FB7-824714F1E062Q35064811-6A54F02E-5A7D-4C78-B6FF-30D79625CD27Q35130113-3CFB582E-71CB-4B98-B7B7-04EBDD92CC86Q36207294-030F91BE-2737-4DC7-879F-952F46579EF0Q36718418-4843065C-EA64-4B0F-8755-F6E07AC3EC1AQ37368434-5CFAF84E-4B3E-402C-93B3-9E4F857C67AFQ37950986-491B6DA3-2831-43C7-AAD2-F8CF4A200DB9Q38587557-89839B08-9A2C-4F36-A494-C8C402E9F749Q38865103-213466F1-82CF-4749-A61D-A3A65A20FAE7Q38963563-14F8E1AE-9107-41A1-A3AD-CF44AB4AF394Q39045929-ABADD126-5B9D-48B5-8F18-535098BACDAEQ39056773-D97387CE-6725-413B-9F5A-D436ED3D6EB5Q39282042-80489E82-F56F-4132-86EB-BE93C5186A0EQ39480276-92A7552B-A486-41CE-91A2-2B5666A8A74DQ39481638-4C3E164F-63E7-489B-A212-E4A9DD2E7F96Q39736818-8F010E01-B76D-46C0-93D5-13C61DE2FCA8Q41136479-6A6F5899-6781-4022-B619-92599BD30C87Q41958198-5EE3A0CD-AC41-411C-9033-6CD8EE583B13Q41991085-2607477D-24BE-404E-B609-F0C3E45943DBQ42174652-C5DF19BC-22B7-48B9-9A45-BACFE979CF59Q42606441-9ED065F3-0390-4F1A-956A-E4A2D4388811Q42972835-88744FD6-279B-4EC6-B6ED-90B26540EEDAQ43064151-97368AE2-575D-4D78-B32C-09E624021AD7Q43227197-D6ECAE87-94DA-4A32-B5FF-24790CE49C25Q43513828-51193BC6-40F4-4C9F-8622-9E6B95A0DD59Q44419120-81BEE900-74F4-47C2-BD2E-8AC6C65CEF11Q47095510-15364603-8965-4B85-9B78-97469D3EB7D7Q48135651-74CB8858-F9F6-48BC-A8D3-638D3B005F18Q50931996-375F96AB-83C6-407A-8E0B-C88DB9A92797Q51732071-480537E2-E359-4B0D-AB93-37A8CF2F9384Q51927830-774A91DA-3340-4BB7-9943-EB3AAA4A22DBQ54119495-676B1A58-A03E-40A9-9E8C-73A81AB8D078Q54349045-F14A4D7F-0E73-4E16-9177-146BF6D91178Q57181820-C21A2640-BE37-49C4-9C2F-DE97734064B9Q79830472-12A24CCC-AFF6-40FC-85D0-1D6DEB1102EBQ80794159-3BB477F4-7DF1-423A-9487-34285452E50EQ81293628-5F39BEC4-80C3-4659-A790-94FE4BEF3B58Q85188891-677522A1-ECC6-4996-88D6-E6FD1CDA9AAD
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
ricercatore
@it
wetenschapper
@nl
研究者
@zh
name
Naoyuki Sugiyama
@ast
Naoyuki Sugiyama
@en
Naoyuki Sugiyama
@es
Naoyuki Sugiyama
@nl
type
label
Naoyuki Sugiyama
@ast
Naoyuki Sugiyama
@en
Naoyuki Sugiyama
@es
Naoyuki Sugiyama
@nl
prefLabel
Naoyuki Sugiyama
@ast
Naoyuki Sugiyama
@en
Naoyuki Sugiyama
@es
Naoyuki Sugiyama
@nl
P31
P496
0000-0001-7633-8495