about
Angiogenin-induced protein kinase B/Akt activation is necessary for angiogenesis but is independent of nuclear translocation of angiogenin in HUVE cellsBasic fibroblast growth factor stimulates activation of Rac1 through a p85 betaPIX phosphorylation-dependent pathwayA novel integrin alpha5beta1 antagonistic peptide, A5-1, screened by Protein Chip system as a potent angiogenesis inhibitor.High-throughput screening of novel peptide inhibitors of an integrin receptor from the hexapeptide library by using a protein microarray chip.Measurement of interaction force between nanoarrayed integrin alphavbeta3 and immobilized vitronectin on the cantilever tip.Pharmacoproteomic analysis of a novel cell-permeable peptide inhibitor of tumor-induced angiogenesis.Fluorescence detection methods for microfluidic droplet platforms.Ribonuclease inhibitor regulates neovascularization by human angiogenin.An angiogenin-binding protein from endothelial cells.An electrochemical functional assay for the sensing of nitric oxide release induced by angiogenic factors.Recent advances in microfluidic technologies for biochemistry and molecular biologys.Droplet-based microfluidics: enabling impact on drug discovery.Anti-angiogenic activity of the recombinant kringle domain of urokinase and its specific entry into endothelial cells.Polymer-coated tips for patterning of viruses by dip-pen nanolithography.Formononetin prevents ovariectomy-induced bone loss in rats.Protein kinase B inhibits apoptosis induced by actinomycin D in ECV304 cells through phosphorylation of caspase 8.Phosphoinositide 3-OH kinase/protein kinase B inhibits apoptotic cell death induced by reactive oxygen species in Saccharomyces cerevisiae.SERS-based immunoassay of tumor marker VEGF using DNA aptamers and silica-encapsulated hollow gold nanospheres.Human apolipoprotein(a) kringle V inhibits angiogenesis in vitro and in vivo by interfering with the activation of focal adhesion kinases.Differential inhibition of endothelial cell proliferation and migration by urokinase subdomains: amino-terminal fragment and kringle domain.Droplet-based microfluidic platform for high-throughput, multi-parameter screening of photosensitizer activity.Inhibition of human malignant glioma growth in vivo by human recombinant plasminogen kringles 1-3.Angiogenin is involved in morphological changes and angiogenesis in the ovary.Soluble overexpression in Escherichia coli, and purification and characterization of wild-type recombinant tobacco acetolactate synthase.Highly sensitive trace analysis of paraquat using a surface-enhanced Raman scattering microdroplet sensor.Protein nanoarray on Prolinker surface constructed by atomic force microscopy dip-pen nanolithography for analysis of protein interaction.Trace analysis of mercury(II) ions using aptamer-modified Au/Ag core-shell nanoparticles and SERS spectroscopy in a microdroplet channel.Simultaneous detection of duplex DNA oligonucleotides using a SERS-based micro-network gradient chip.Lab-chip HPLC with integrated droplet-based microfluidics for separation and high frequency compartmentalisation.Thermoset polyester droplet-based microfluidic devices for high frequency generation.Highly reproducible immunoassay of cancer markers on a gold-patterned microarray chip using surface-enhanced Raman scattering imaging.On-chip immunoassay using surface-enhanced Raman scattering of hollow gold nanospheres.High level production of bovine angiogenin in E. coli by an efficient refolding procedure.Disruption of interkringle disulfide bond of plasminogen kringle 1-3 changes the lysine binding capability of kringle 2, but not its antiangiogenic activity.Inhibitory effect of salmosin, a Korean snake venom-derived disintegrin, on the integrin alphav-mediated proliferation of SK-Mel-2 human melanoma cells.High-throughput analysis of protein-protein interactions in picoliter-volume droplets using fluorescence polarization.Analysis of protein-protein interactions by using droplet-based microfluidics.SERS-based competitive immunoassay of troponin I and CK-MB markers for early diagnosis of acute myocardial infarction.Recombinant kringle 1-3 of plasminogen inhibits rabbit corneal angiogenesis induced by angiogenin.Role of tryptophanyl residues in tobacco acetolactate synthase.
P50
Q24319153-7DE99B3C-6E48-4351-B11A-97B3770102B3Q28209505-4E86AC9C-D69E-44F4-AE64-9A14863EE779Q30852755-B8BAF535-E998-487C-BC9F-AAF443471AB7Q31139160-3256ED39-60DB-40FB-9BFA-78F82B75DC2AQ33296404-C8100B81-77BA-4BB8-9733-2455E9BAAD98Q33894448-839E58A0-4827-4949-BEB3-51E9514822DBQ35939659-B4AAE7A0-1DC1-4D9D-A943-63CADC41EEECQ37180822-25F2F378-521E-4C8D-8A05-F79BFC581A96Q37431108-184BB2AC-D78B-4810-96DB-D38542EBAA95Q37961195-8D284869-85F2-417B-B976-C71E3DAEBC2EQ37961197-E8553A15-1A39-44D1-9EE5-8A5CCDDED1F6Q38163391-8637656D-3569-4F09-8053-0C9AF31E8869Q38358693-289A8DDB-4702-4A21-BB92-DB45E19591F3Q38479985-C19AF9E6-B667-4368-ADC4-998C1A4BD04FQ39710360-1BA08119-80FC-417F-A067-03EEC71C1614Q40562325-07678104-1807-443F-8D0A-60F5D58F59F2Q43975685-9B9967A1-90A6-4C43-9F88-C0B0D687DD89Q44469087-759712B7-B45A-4C8A-B805-DA055A4ADC4BQ44707234-20E529AF-B38C-4A87-8D79-5A5F151D2F69Q44746666-E067CA24-D9CF-4671-9181-EC640F73FA8CQ45804855-A4D85D60-8368-4916-ABBD-C3D4B1679BDAQ48154100-B345F75D-D537-4436-8903-8E0F760C6B34Q48921903-A9D30391-085D-4A41-A712-226969342475Q50528361-EA9A9528-CF97-4624-B46C-9441BD3BBB06Q51032279-9B48F4A3-25A1-42AA-8CCC-3881923DCF9FQ51283973-A405C579-BBE2-4E96-A6B6-A6BA6EBA7515Q51535177-A9185320-E047-4C93-81E4-AE07453F019DQ51536187-D457DD93-C073-4A25-A64D-EBC661A67381Q51538097-368711DE-EAD9-47AF-AF27-EB2AA99B2FA5Q51545490-8F473C80-CA3C-4FC5-B877-C585E0028D85Q51554338-3AE5021E-BCB7-4F78-AFA7-9034E95F7755Q51557863-C7DD44A0-3998-48F2-A607-FE68E204A0F8Q51565698-075C867F-D7EF-47A2-B1F5-7AE87A1B63C9Q52538223-0ABDE167-BA00-472F-B98E-E955A1B32A3BQ52552879-37E792D9-FBDF-4556-B773-7F6DBB20BEB8Q53382529-793DC4D5-AAF8-4C2B-B403-4D1680125D31Q53506621-FA54ABD4-A8D9-4FE5-AC95-661599E4E89DQ53659347-3932B596-4265-4C52-A5EF-25F77AA979B5Q53744766-1CCACA23-266F-43FB-BC36-4EB77B7EE0CDQ54095540-2F6C4AC9-341E-4524-84EC-378476ABD7EB
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Soo-Ik Chang
@ast
Soo-Ik Chang
@en
Soo-Ik Chang
@es
Soo-Ik Chang
@nl
Soo-Ik Chang
@sl
type
label
Soo-Ik Chang
@ast
Soo-Ik Chang
@en
Soo-Ik Chang
@es
Soo-Ik Chang
@nl
Soo-Ik Chang
@sl
prefLabel
Soo-Ik Chang
@ast
Soo-Ik Chang
@en
Soo-Ik Chang
@es
Soo-Ik Chang
@nl
Soo-Ik Chang
@sl
P1053
K-4079-2013
P106
P1153
7405585341
P31
P3829
P496
0000-0002-5620-0867