| scholarly article | Q13442814 |
| P2093 | author name string | Peter F Davies | |
| Richard Magid | |||
| P2860 | cites work | Calcineurin imposes T cell unresponsiveness through targeted proteolysis of signaling proteins | Q24310048 |
| Targeted disruption of the zetaPKC gene results in the impairment of the NF-kappaB pathway | Q28202626 | ||
| Genomic organization and regulation of expression of the lectin-like oxidized low-density lipoprotein receptor (LOX-1) gene | Q28290435 | ||
| Regulation of protein kinase C zeta by PI 3-kinase and PDK-1 | Q28567633 | ||
| Blood flow and vascular gene expression: fluid shear stress as a modulator of endothelial phenotype | Q33544042 | ||
| A spatial approach to transcriptional profiling: mechanotransduction and the focal origin of atherosclerosis | Q33719370 | ||
| Shear stress selectively upregulates intercellular adhesion molecule-1 expression in cultured human vascular endothelial cells | Q34229735 | ||
| Subtractive proteomic mapping of the endothelial surface in lung and solid tumours for tissue-specific therapy | Q34326254 | ||
| Flow-mediated endothelial mechanotransduction | Q34648558 | ||
| Spatial heterogeneity of endothelial phenotypes correlates with side-specific vulnerability to calcification in normal porcine aortic valves. | Q34670503 | ||
| The NF-kappa B signal transduction pathway in aortic endothelial cells is primed for activation in regions predisposed to atherosclerotic lesion formation. | Q35193982 | ||
| Heterogeneity of Endothelial Cells from Different Organ Sites in T-Cell Subset Recruitment | Q35749118 | ||
| Nuclear factor-kappa B interacts functionally with the platelet-derived growth factor B-chain shear-stress response element in vascular endothelial cells exposed to fluid shear stress. | Q35753630 | ||
| Endothelial cell diversity revealed by global expression profiling | Q35977148 | ||
| Vascular bed-specific expression of an endothelial cell gene is programmed by the tissue microenvironment | Q36263590 | ||
| Pulsatile flow and atherosclerosis in the human carotid bifurcation. Positive correlation between plaque location and low oscillating shear stress | Q36495182 | ||
| Coexisting proinflammatory and antioxidative endothelial transcription profiles in a disturbed flow region of the adult porcine aorta. | Q36602479 | ||
| Chlamydophila pneumoniaeInduces ICAM-1 Expression in Human Aortic Endothelial Cells via Protein Kinase C–Dependent Activation of Nuclear Factor-κB | Q37869590 | ||
| Stimulation of transcription factors NF kappa B and AP1 in endothelial cells subjected to shear stress | Q38307159 | ||
| Insulin-induced activation of atypical protein kinase C, but not protein kinase B, is maintained in diabetic (ob/ob and Goto-Kakazaki) liver. Contrasting insulin signaling patterns in liver versus muscle define phenotypes of type 2 diabetic and high | Q38342711 | ||
| Identification of two distinct pathways of protein kinase Calpha down-regulation in intestinal epithelial cells | Q40613339 | ||
| Molecular mechanisms regulating protein kinase Czeta turnover and cellular transformation | Q40622798 | ||
| Diacylglycerol generated during sphingomyelin synthesis is involved in protein kinase C activation and cell proliferation in Madin-Darby canine kidney cells | Q40656158 | ||
| Activation of atypical protein kinase C zeta by caspase processing and degradation by the ubiquitin-proteasome system | Q40851473 | ||
| Anchoring proteins for protein kinase C: a means for isozyme selectivity | Q41686822 | ||
| Endothelial cells in physiology and in the pathophysiology of vascular disorders | Q41757874 | ||
| Phosphorylation is required for PMA- and cell-cycle-induced degradation of protein kinase Cdelta. | Q41845102 | ||
| Differential inhibition of protein kinase C isozymes by UCN-01, a staurosporine analogue | Q42283405 | ||
| Role of protein kinase Czeta in thrombin-induced endothelial permeability changes: inhibition by angiopoietin-1. | Q42462448 | ||
| Modulation of endothelial autacoid release by protein kinase C: feedback inhibition or non-specific attenuation of receptor-dependent cell activation? | Q42497884 | ||
| Differential effect of shear stress on extracellular signal-regulated kinase and N-terminal Jun kinase in endothelial cells. Gi2- and Gbeta/gamma-dependent signaling pathways | Q42528763 | ||
| Shear stress regulates endothelial nitric oxide synthase expression through c-Src by divergent signaling pathways | Q43805171 | ||
| Fluid shear stress activates proline-rich tyrosine kinase via reactive oxygen species-dependent pathway | Q44212411 | ||
| Statins inhibit high glucose-mediated neutrophil-endothelial cell adhesion through decreasing surface expression of endothelial adhesion molecules by stimulating production of endothelial nitric oxide | Q44397510 | ||
| Tumor Necrosis Factor-α Induces Early-Onset Endothelial Adhesivity by Protein Kinase Cζ–Dependent Activation of Intercellular Adhesion Molecule-1 | Q44417182 | ||
| Effects of shear stress on protein kinase C distribution in endothelial cells | Q44893271 | ||
| Expression of matrix metalloproteinase-9 in endothelial cells is differentially regulated by shear stress. Role of c-Myc | Q47817151 | ||
| The Dynamic Response of Vascular Endothelial Cells to Fluid Shear Stress | Q70917222 | ||
| High glucose level and free fatty acid stimulate reactive oxygen species production through protein kinase C--dependent activation of NAD(P)H oxidase in cultured vascular cells | Q73190327 | ||
| PKC-epsilon is required for mechano-sensitive activation of ERK1/2 in endothelial cells | Q73934960 | ||
| Oscillatory shear stress stimulates adhesion molecule expression in cultured human endothelium | Q74405464 | ||
| Increased protein kinase C activity and expression of Ca2+-sensitive isoforms in the failing human heart | Q77905043 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | aorta | Q101004 |
| endothelium | Q111140 | ||
| P304 | page(s) | 443-449 | |
| P577 | publication date | 2005-07-28 | |
| P1433 | published in | Circulation Research | Q2599020 |
| P1476 | title | Endothelial protein kinase C isoform identity and differential activity of PKCzeta in an athero-susceptible region of porcine aorta | |
| P478 | volume | 97 |
| Q39127509 | Biomechanical factors in atherosclerosis: mechanisms and clinical implications |
| Q38926872 | Blood Brothers: Hemodynamics and Cell-Matrix Interactions in Endothelial Function |
| Q35048311 | Coronary artery endothelial transcriptome in vivo: identification of endoplasmic reticulum stress and enhanced reactive oxygen species by gene connectivity network analysis |
| Q34590497 | Differences in valvular and vascular cell responses to strain in osteogenic media |
| Q38926909 | Disturbed Flow-Induced Endothelial Proatherogenic Signaling Via Regulating Post-Translational Modifications and Epigenetic Events |
| Q35018247 | Disturbed flow: p53 SUMOylation in the turnover of endothelial cells |
| Q36749832 | Disturbed-flow-mediated vascular reactive oxygen species induce endothelial dysfunction. |
| Q34159834 | Effects of disturbed flow on vascular endothelium: pathophysiological basis and clinical perspectives |
| Q38849620 | Effects of shear stress on endothelial cells: go with the flow |
| Q37280276 | Endothelial heterogeneity associated with regional athero-susceptibility and adaptation to disturbed blood flow in vivo |
| Q28579623 | Essential role of PKC-zeta in normal and angiotensin II-accelerated neointimal growth after vascular injury |
| Q50908274 | Flow Perturbation Mediates Neutrophil Recruitment and Potentiates Endothelial Injury via TLR2 in Mice: Implications for Superficial Erosion. |
| Q37807049 | Flow shear stress and atherosclerosis: a matter of site specificity |
| Q39063397 | Flow signaling and atherosclerosis |
| Q34420043 | Genomics and proteomics of lung disease: conference summary |
| Q33776166 | Hemodynamic shear stress and the endothelium in cardiovascular pathophysiology |
| Q35830289 | Hyperglycemia and endothelial dysfunction in atherosclerosis: lessons from type 1 diabetes. |
| Q89841062 | IRF-1 mediates the suppressive effects of mTOR inhibition on arterial endothelium |
| Q34478873 | Mechanosensitive PPAP2B Regulates Endothelial Responses to Atherorelevant Hemodynamic Forces |
| Q34067870 | MicroRNA-10a regulation of proinflammatory phenotype in athero-susceptible endothelium in vivo and in vitro. |
| Q36833627 | Next steps in cardiovascular disease genomic research--sequencing, epigenetics, and transcriptomics |
| Q27022880 | Novel mechanisms of endothelial mechanotransduction |
| Q35215421 | PKCzeta decreases eNOS protein stability via inhibitory phosphorylation of ERK5. |
| Q35018220 | PKCζ mediates disturbed flow-induced endothelial apoptosis via p53 SUMOylation |
| Q47131231 | Protein Kinase C as Regulator of Vascular Smooth Muscle Function and Potential Target in Vascular Disorders |
| Q36727225 | Protein kinase Czeta-dependent LKB1 serine 428 phosphorylation increases LKB1 nucleus export and apoptosis in endothelial cells |
| Q36237663 | Reactive Oxygen Species, SUMOylation, and Endothelial Inflammation |
| Q38611682 | Redox regulation of vascular remodeling |
| Q38715461 | Role of biomechanical forces in the natural history of coronary atherosclerosis. |
| Q34988733 | The role of blood flow in determining the sites of atherosclerotic plaques. |
| Q36480056 | Therapeutic potential for protein kinase C inhibitor in vascular restenosis |
| Q39521450 | Zebrafish Model for Functional Screening of Flow-Responsive Genes. |
| Q33855169 | p62 binding to protein kinase C ζ regulates tumor necrosis factor α-induced apoptotic pathway in endothelial cells |
Search more.