scholarly article | Q13442814 |
P819 | ADS bibcode | 2012PLoSO...741462M |
P356 | DOI | 10.1371/JOURNAL.PONE.0041462 |
P932 | PMC publication ID | 3408438 |
P698 | PubMed publication ID | 22859986 |
P5875 | ResearchGate publication ID | 230616864 |
P2093 | author name string | Tetsuhiro Tanaka | |
Masaomi Nangaku | |||
Reiko Inagi | |||
Takehiko Wada | |||
Yoichiro Ikeda | |||
Shiyo Muratsu-Ikeda | |||
P2860 | cites work | Endoplasmic reticulum stress in the kidney as a novel mediator of kidney injury. | Q53402529 |
Protective role of hypoxia-inducible factor-2alpha against ischemic damage and oxidative stress in the kidney. | Q53566907 | ||
Endoplasmic reticulum stress in glomerular epithelial cell injury | Q82897104 | ||
Intrarenal expression of microRNAs in patients with IgA nephropathy | Q84874190 | ||
Intrarenal expression of miRNAs in patients with hypertensive nephrosclerosis | Q84895992 | ||
PHD1 interacts with ATF4 and negatively regulates its transcriptional activity without prolyl hydroxylation | Q84998808 | ||
Endoplasmic reticulum stress as a progression factor for kidney injury | Q37666123 | ||
The suffocating kidney: tubulointerstitial hypoxia in end-stage renal disease | Q37793828 | ||
MicroRNAs as mediators and therapeutic targets in chronic kidney disease | Q37855524 | ||
Involvement of selective reactive oxygen species upstream of proapoptotic branches of unfolded protein response. | Q38295218 | ||
MiRNA-205 modulates cellular invasion and migration via regulating zinc finger E-box binding homeobox 2 expression in esophageal squamous cell carcinoma cells | Q39572326 | ||
MicroRNA-205 inhibits Src-mediated oncogenic pathways in renal cancer | Q39590134 | ||
Indoxyl sulfate inhibits proliferation of human proximal tubular cells via endoplasmic reticulum stress | Q39695150 | ||
Prolyl hydroxylase inhibition attenuates post-ischemic cardiac injury via induction of endoplasmic reticulum stress genes. | Q39838507 | ||
Glyoxalase I overexpression ameliorates renal ischemia-reperfusion injury in rats | Q39884842 | ||
Albumin induces endoplasmic reticulum stress and apoptosis in renal proximal tubular cells | Q40235169 | ||
HK-2: an immortalized proximal tubule epithelial cell line from normal adult human kidney | Q41499933 | ||
Deficiency or inhibition of oxygen sensor Phd1 induces hypoxia tolerance by reprogramming basal metabolism | Q42523283 | ||
Targeting of the molecular chaperone oxygen-regulated protein 150 (ORP150) to mitochondria and its induction by cellular stress | Q42819084 | ||
Oxidative Damage to the Endoplasmic Reticulum is Implicated in Ischemic Neuronal Cell Death | Q44606732 | ||
The nuclear RNase III Drosha initiates microRNA processing | Q24295234 | ||
Selective inhibition of hypoxia-inducible factor (HIF) prolyl-hydroxylase 1 mediates neuroprotection against normoxic oxidative death via HIF- and CREB-independent pathways | Q24312134 | ||
Hypoxia-inducible mir-210 regulates normoxic gene expression involved in tumor initiation. | Q24651016 | ||
MicroRNA-184 antagonizes microRNA-205 to maintain SHIP2 levels in epithelia | Q24654039 | ||
MicroRNA-210 controls mitochondrial metabolism during hypoxia by repressing the iron-sulfur cluster assembly proteins ISCU1/2 | Q24655427 | ||
Mechanisms of post-transcriptional regulation by microRNAs: are the answers in sight? | Q27860893 | ||
The miR-200 family and miR-205 regulate epithelial to mesenchymal transition by targeting ZEB1 and SIP1 | Q27861068 | ||
MicroRNAs: genomics, biogenesis, mechanism, and function | Q27861070 | ||
High glucose down-regulates miR-29a to increase collagen IV production in HK-2 cells | Q28119012 | ||
ORP150/HSP12A protects renal tubular epithelium from ischemia-induced cell death | Q28270718 | ||
HIF-1-mediated expression of pyruvate dehydrogenase kinase: a metabolic switch required for cellular adaptation to hypoxia | Q28300406 | ||
HIF-1 mediates adaptation to hypoxia by actively downregulating mitochondrial oxygen consumption | Q28300415 | ||
A putative role for microRNA-205 in mammary epithelial cell progenitors | Q28595079 | ||
Testing for differentially expressed genes with microarray data | Q30788588 | ||
Identification of activating transcription factor 4 (ATF4) as an Nrf2-interacting protein. Implication for heme oxygenase-1 gene regulation | Q33939961 | ||
The ups and downs of miR-205: identifying the roles of miR-205 in mammary gland development and breast cancer | Q34113329 | ||
Hypoxia-regulated microRNA-210 modulates mitochondrial function and decreases ISCU and COX10 expression | Q34117250 | ||
MicroRNA-205 promotes keratinocyte migration via the lipid phosphatase SHIP2 | Q34119545 | ||
Susceptibility to diabetic nephropathy is related to dicarbonyl and oxidative stress | Q34462872 | ||
miRNA-205 suppresses melanoma cell proliferation and induces senescence via regulation of E2F1 protein | Q34947386 | ||
miR-205 Exerts tumor-suppressive functions in human prostate through down-regulation of protein kinase Cepsilon. | Q34952175 | ||
microRNA-205 regulates HER3 in human breast cancer | Q34960615 | ||
The endoplasmic reticulum stress response and diabetic kidney disease | Q34979650 | ||
Hypoxia in renal disease with proteinuria and/or glomerular hypertension | Q35103473 | ||
microRNA-210 is upregulated in hypoxic cardiomyocytes through Akt- and p53-dependent pathways and exerts cytoprotective effects | Q35395850 | ||
Suppression of microRNA-29 expression by TGF-β1 promotes collagen expression and renal fibrosis | Q35715738 | ||
Chronic hypoxia and tubulointerstitial injury: a final common pathway to end-stage renal failure | Q36314459 | ||
Preconditioning with endoplasmic reticulum stress ameliorates mesangioproliferative glomerulonephritis | Q36662140 | ||
Oncosuppressive role of p53-induced miR-205 in triple negative breast cancer. | Q36922053 | ||
Endoplasmic reticulum stress in proteinuric kidney disease | Q37610753 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | endoplasmic reticulum | Q79927 |
P304 | page(s) | e41462 | |
P577 | publication date | 2012-07-30 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Downregulation of miR-205 modulates cell susceptibility to oxidative and endoplasmic reticulum stresses in renal tubular cells | |
P478 | volume | 7 |
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Q38227252 | Diabetic nephropathy--emerging epigenetic mechanisms |
Q42806273 | Effect of miR-205 on 3T3-L1 preadipocyte differentiation through targeting to glycogen synthase kinase 3 beta. |
Q26799567 | Endoplasmic Reticulum Stress in the Diabetic Kidney, the Good, the Bad and the Ugly |
Q42394999 | Epigenetic Changes Induced by Hypoxia-Inducible Factor: a Long Way Still To Go as a Target for Therapy? |
Q91081446 | Epigenetic regulation in AKI and kidney repair: mechanisms and therapeutic implications |
Q39175636 | Epigenetics of kidney disease. |
Q93172812 | Expression patterns and prognostic value of miR-210, miR-494, and miR-205 in middle-aged and old patients with sepsis-induced acute kidney injury |
Q38197347 | Glycative stress and glyoxalase in kidney disease and aging |
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Q33633674 | Mechanisms of metabolic memory and renal hypoxia as a therapeutic target in diabetic kidney disease |
Q37419073 | MicroRNA in diabetic nephropathy: renin angiotensin, aGE/RAGE, and oxidative stress pathway. |
Q47926697 | MicroRNAs as potential prognosticators of neurological outcome in out-of-hospital cardiac arrest patients |
Q38202828 | MicroRNAs in IgA nephropathy |
Q26824076 | MicroRNAs in Kidney Transplantation: Living up to Their Expectations? |
Q28069749 | MicroRNAs in acute kidney injury |
Q36166755 | MicroRNAs in diabetic nephropathy: functions, biomarkers, and therapeutic targets |
Q37146727 | MicroRNAs: potential mediators and biomarkers of diabetic complications. |
Q28354033 | Mini-review: emerging roles of microRNAs in the pathophysiology of renal diseases |
Q58795409 | Noncoding RNAs as therapeutic targets in early stage diabetic kidney disease |
Q64119698 | Overexpression of long non-coding RNA NORAD promotes invasion and migration in malignant melanoma via regulating the MIR-205-EGLN2 pathway |
Q92167765 | Oxidative stress-induced angiogenesis is mediated by miR-205-5p |
Q38206090 | Proteostasis in endoplasmic reticulum--new mechanisms in kidney disease |
Q38857649 | RAGE and glyoxalase in kidney disease |
Q37155524 | Rapamycin-induced modulation of miRNA expression is associated with amelioration of HIV-associated nephropathy (HIVAN). |
Q37352508 | Regulation of the transcriptome by ER stress: non-canonical mechanisms and physiological consequences. |
Q39388804 | Regulation of the unfolded protein response by noncoding RNA. |
Q40989498 | Renal epithelial miR-205 expression correlates with disease severity in a mouse model of congenital obstructive nephropathy |
Q37607442 | Screening plasma miRNAs as biomarkers for renal ischemia-reperfusion injury in rats |
Q39147185 | Stress Signal Network between Hypoxia and ER Stress in Chronic Kidney Disease |
Q37681623 | TBHQ Alleviated Endoplasmic Reticulum Stress-Apoptosis and Oxidative Stress by PERK-Nrf2 Crosstalk in Methamphetamine-Induced Chronic Pulmonary Toxicity |
Q92152187 | Targeting microRNAs as a Therapeutic Strategy to Reduce Oxidative Stress in Diabetes |
Q92581825 | Tetramethylpyrazine protects retinal ganglion cells against H2O2‑induced damage via the microRNA‑182/mitochondrial pathway |
Q50050250 | The PHD1 oxygen sensor in health and disease |
Q38180970 | The biochemistry and cell biology of aging: metabolic regulation through mitochondrial signaling. |
Q36960910 | The regulation and function of microRNAs in kidney diseases |
Q37603517 | Upregulation of MiR-205 under hypoxia promotes epithelial-mesenchymal transition by targeting ASPP2. |
Q28395772 | miR-125b transcriptionally increased by Nrf2 inhibits AhR repressor, which protects kidney from cisplatin-induced injury |
Q91945636 | miRNA-186 Improves Sepsis Induced Renal Injury Via PTEN/PI3K/AKT/P53 Pathway |
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