about
Guidelines for the use and interpretation of assays for monitoring autophagyEndoplasmic Reticulum Stress and Associated ROSSulforaphane prevents doxorubicin-induced oxidative stress and cell death in rat H9c2 cellsThe protective role of Bax inhibitor-1 against chronic mild stress through the inhibition of monoamine oxidase AEvolutionarily conserved cytoprotection provided by Bax Inhibitor-1 homologs from animals, plants, and yeast.Bosellia serrata-induced apoptosis is related with ER stress and calcium release.Intracellular cleavage of osteopontin by caspase-8 modulates hypoxia/reoxygenation cell death through p53.Protective effects of sodium para-amino salicylate on manganese-induced neuronal death: the involvement of reactive oxygen species.Bax inhibitor-1-mediated inhibition of mitochondrial Ca2+ intake regulates mitochondrial permeability transition pore opening and cell death.Bax inhibitor 1 increases cell adhesion through actin polymerization: involvement of calcium and actin binding.Ohmyungsamycins promote antimicrobial responses through autophagy activation via AMP-activated protein kinase pathway.BI-1 enhances Fas-induced cell death through a Na+/H+-associated mechanism.Proteomic profiling of differentially expressed proteins from Bax inhibitor-1 knockout and wild type mice.Eucommia ulmoides Oliver extract, aucubin, and geniposide enhance lysosomal activity to regulate ER stress and hepatic lipid accumulationEucommia ulmoides cortex, geniposide and aucubin regulate lipotoxicity through the inhibition of lysosomal BAX.The antiosteoporotic effects of Cheonggukjang containing vitamin k2 (menaquinone-7) in ovariectomized rats.Apoptosis Induced by Manganese on Neuronal SK-N-MC Cell Line: Endoplasmic Reticulum (ER) Stress and Mitochondria Dysfunction.Porcine placenta hydrolysates regulate calcium disturbance in MC3T3-E1 osteoblastic cellsA phase II clinical trial to investigate the effect of pioglitazone on (18)F-FDG uptake in malignant lesions.Porcine placenta hydrolysates enhance osteoblast differentiation through their antioxidant activity and effects on ER stress.Turmeric extract and its active compound, curcumin, protect against chronic CCl4-induced liver damage by enhancing antioxidation.Protective effect of Curcuma longa L. extract on CCl4-induced acute hepatic stressβ-Cell protection and antidiabetic activities of Crassocephalum crepidioides (Asteraceae) Benth. S. Moore extract against alloxan-induced oxidative stress via regulation of apoptosis and reactive oxygen species (ROS).The effects of MOTILIPERM on cisplatin induced testicular toxicity in Sprague-Dawley rats.Effects of chronic mild stress in female bax inhibitor-1-gene knockout mice.ER stress: Autophagy induction, inhibition and selection.TMBIM6 (transmembrane BAX inhibitor motif containing 6) enhances autophagy and reduces renal dysfunction in a cyclosporine A-induced nephrotoxicity modelFunctional regulation of hepatic cytochrome p450 enzymes by physicochemical properties of phospholipids in biological membranes.Bax Inhibitor-1 regulates hepatic lipid accumulation via ApoB secretion.Mechanism of the Inhibitory Effects of Eucommia ulmoides Oliv. Cortex Extracts (EUCE) in the CCl 4 -Induced Acute Liver Lipid Accumulation in Rats.Effect of BI-1 on insulin resistance through regulation of CYP2E1.Is transforming growth factor-β signaling activated in human hypertrophied prostate treated by 5-alpha reductase inhibitor?Soybean greatly reduces valproic acid plasma concentrations: a food-drug interaction studyPolyphenolic Extract of Euphorbia supina Attenuates Manganese-Induced Neurotoxicity by Enhancing Antioxidant Activity through Regulation of ER Stress and ER Stress-Mediated ApoptosisMitochondria in relation to cancer metastasis.Mammalian dap3 is an essential gene required for mitochondrial homeostasis in vivo and contributing to the extrinsic pathway for apoptosis.Involvement of endoplasmic reticulum stress in myofibroblastic differentiation of lung fibroblasts.Peroxisome proliferator-activated receptor gamma agonist down-regulates IL-17 expression in a murine model of allergic airway inflammation.Isolation of two new bioactive sesquiterpene lactone glycosides from the roots of Ixeris dentata.Endoplasmic reticulum stress in the regulation of liver diseases: Involvement of Regulated IRE1α and β-dependent decay and miRNA.
P50
Q21996341-ECC9B790-9853-49FF-8A5E-F8AEC66DAC71Q26767386-A3F8A280-31B4-45F3-9A15-4EF3E0342690Q28397899-61959F9E-1A5F-459C-8738-687A65BBB87DQ30558195-59E80B26-FB7F-4A82-91AF-A122F61716B7Q31031519-DA913208-C79D-4841-88F7-C8FF7A7556EEQ33375390-ABB8491B-9DCE-4016-97B1-5B0BB9C7A9EFQ33496631-46BEE485-8726-4AFE-8CBE-9AFE4CA95AF1Q33515709-C47A951C-0D06-4C84-A024-E2BB5C988460Q33713490-165E5338-6920-471A-BF12-8DAE9BCE07E2Q33725485-7596F8B7-F04B-419D-9625-EB13C0164342Q33794131-4CA31420-1604-4098-A04B-F92172CBFD3BQ34179860-C899D1C9-E88E-44A2-AE97-5A519A30FA56Q34317895-502ACF0A-334D-4C47-B31D-EAA381929AA9Q35069547-FD6B3AAF-F196-443E-A6BD-D958B512B28FQ35106009-7B598737-63C5-48B3-8542-02D99BDC1229Q35279826-6FC95A48-4A76-4C86-868B-05DDA4E2A666Q35649216-8648B4A7-9530-4963-BE42-227AC6693FA8Q36085402-9A1ABC62-F812-4C3D-9B7D-5C7443DEA55DQ36094168-31787673-9F35-452D-8CAA-AE90748564D4Q36106270-D56BCDE8-179D-440B-8FF4-A18D17CE6837Q36113514-175BDDD4-69AA-44EC-B956-F495E532420FQ36265743-6FE8669B-44DC-44FB-9B9C-B2D8B7F1DC2CQ36327318-30C3085C-A09E-476E-B9D7-8DB3E42FF12CQ36384037-1A22DD0E-1248-4A40-8125-94D439FEDE3BQ36600857-8D09BC6C-DE31-478A-930A-2DF65C1D76F9Q36777229-342FEA61-D1F9-4D69-ADEE-133DEBCDB52BQ36777311-5A03C5D7-C4F6-4981-9852-686A4B5D0810Q36990420-30BFEDCA-04B0-4175-9E8E-2BB15097C157Q37000389-7852B2EF-66D1-47B6-83E1-7A6D8C7F46CFQ37145070-C48467B4-4A38-4BCA-8A7E-5C4C3F8452E5Q37220092-608388F9-7890-4410-8A9E-FBCF96659836Q37338238-B0F8D104-1A28-434E-9045-0AABA37E42B2Q37631643-78909A6D-ECF8-40DD-893F-7AAB59E5ACB3Q37690759-7DBB7E93-17AE-4915-ADA4-564FF1A2B52CQ38036915-69620681-818C-4F80-B129-E5B4253401BBQ38307193-5E609215-D881-448E-A1C3-4D3F50BDEF5EQ38471220-217C1F26-A413-44A5-9498-AAF3CCAC0FFCQ38493347-32BE5F49-C40D-4DF0-9DDE-7E97A2EEA1D4Q38837801-E4E72BAD-36F8-4714-9B7D-127E67E4AD8EQ38989169-BE1D796B-EE46-4FAA-8278-64FE829A2001
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Han-Jung Chae
@ast
Han-Jung Chae
@en
Han-Jung Chae
@es
Han-Jung Chae
@nl
Han-Jung Chae
@sl
type
label
Han-Jung Chae
@ast
Han-Jung Chae
@en
Han-Jung Chae
@es
Han-Jung Chae
@nl
Han-Jung Chae
@sl
prefLabel
Han-Jung Chae
@ast
Han-Jung Chae
@en
Han-Jung Chae
@es
Han-Jung Chae
@nl
Han-Jung Chae
@sl
P106
P31
P496
0000-0003-4190-9889