Vascular respiratory uncoupling increases blood pressure and atherosclerosis
about
Engineered nanoparticle respiratory exposure and potential risks for cardiovascular toxicity: predictive tests and biomarkersVitamin D deficiency induces high blood pressure and accelerates atherosclerosis in miceIEX-1 targets mitochondrial F1Fo-ATPase inhibitor for degradationAerobic metabolism underlies complexity and capacityMitochondrial dysfunction accounts for the stochastic heterogeneity in telomere-dependent senescence.Ultrastructure of mitochondria and the endoplasmic reticulum in renal tubules of Dahl salt-sensitive rats.A previously functional tetracycline-regulated transactivator fails to target gene expression to the bone.Genetic variation in FADS1 has little effect on the association between dietary PUFA intake and cardiovascular disease.Association of the sirtuin and mitochondrial uncoupling protein genes with carotid plaqueMetabolomic analyses for atherosclerosis, diabetes, and obesity.Cold exposure promotes atherosclerotic plaque growth and instability via UCP1-dependent lipolysis.Shear stress influences spatial variations in vascular Mn-SOD expression: implication for LDL nitration.Adventures in vascular biology: a tale of two mediators.Insulin resistance and atherosclerosis.Increased protein nitration in mitochondrial diseases: evidence for vessel wall involvement.Relationship between sirtuin and mitochondrial uncoupling protein genes and carotid artery stiffness.Dichloroacetate prevents restenosis in preclinical animal models of vessel injuryInvolvement of p32 and microtubules in alteration of mitochondrial functions by rubella virusLow levels of the reverse transactivator fail to induce target transgene expression in vascular smooth muscle cellsHypothalamic inflammation: a double-edged sword to nutritional diseases.The tRNAMet 4435A>G mutation in the mitochondrial haplogroup G2a1 is responsible for maternally inherited hypertension in a Chinese pedigree.Renal oxidative stress, oxygenation, and hypertensionImaging of Intracellular and Extracellular ROS Levels in Atherosclerotic Mouse Aortas Ex Vivo: Effects of Lipid Lowering by Diet or AtorvastatinGene Expression in Experimental Aortic Coarctation and Repair: Candidate Genes for Therapeutic Intervention?Abnormal intracellular calcium homeostasis in sympathetic neurons from young prehypertensive rats.Oxidative stress, antioxidants, and vascular damage.Inflammatory cause of metabolic syndrome via brain stress and NF-κB.The 12S rRNA A1555G mutation in the mitochondrial haplogroup D5a is responsible for maternally inherited hypertension and hearing loss in two Chinese pedigreesMitochondrial dysfunction and mitochondrial DNA mutations in atherosclerotic complications in diabetesThe role of tobacco smoke induced mitochondrial damage in vascular dysfunction and atherosclerosis.Proteomics-based development of biomarkers in cardiovascular disease: mechanistic, clinical, and therapeutic insights.Systems biology approaches to metabolic and cardiovascular disorders: network perspectives of cardiovascular metabolism.The mitochondrial paradigm for cardiovascular disease susceptibility and cellular function: a complementary concept to Mendelian genetics.Association of UCP1 genetic polymorphisms with blood pressure among Korean female subjects.The putative role of mitochondrial dysfunction in hypertension.Inactivation of hypothalamic FAS protects mice from diet-induced obesity and inflammationThe molecular sources of reactive oxygen species in hypertension.Requirement for p38 mitogen-activated protein kinase activity in neointima formation after vascular injury.TGF-[beta]1 limits plaque growth, stabilizes plaque structure, and prevents aortic dilation in apolipoprotein E-null mice.p53 improves aerobic exercise capacity and augments skeletal muscle mitochondrial DNA content.
P2860
Q23919501-07AA9860-6955-4384-986A-14A8E4DE1CE9Q27318595-63201F45-776C-4A95-AD13-ED1F0FB01244Q28507057-ECB25FD5-57B2-4618-9903-5EDC1754B469Q28754648-7FC5C344-4FD2-4791-9157-6A0DAFFF8462Q33283342-9CE53B2B-7249-4B16-8471-C68AA2C8076FQ33626618-1E488F90-7E6E-461F-B5E1-7EA2F589BFB8Q33991023-A1B871D9-5D65-4DD6-8D65-F4C25E43E706Q34036583-91917899-33B6-4D70-8FF6-99835DD4F54DQ34075523-7A24E481-3D7C-491C-B16D-40EF34144CA8Q34256164-290A26D6-75C8-4325-94D8-EF7B4B81268AQ34355206-D9BD779D-6E48-4D88-9F41-CA10C0A19943Q34433509-509F5F84-D639-4076-9171-DBEACECE8E99Q34515584-C63639DC-B3AF-4237-A627-3A47F165A88BQ34698887-EC7348F5-0069-496E-90FE-B9016A7EF533Q34751597-F57E8610-78F9-41E9-85F1-575B25ACFCE3Q35013888-C417FDAE-E09B-4487-A1F0-D646E95B032CQ35068650-634299BB-1690-4DA5-A6CD-E5040BA90D27Q35076532-8442DB46-C51C-4B6E-B5B2-1E180FABD029Q35218759-FFEECA19-BC01-4F3A-A8B1-6FD55CC35B78Q35318592-CA01E1D3-722D-4659-8314-44371433DBD4Q35406187-7A516581-6258-4F73-8EF2-6711BEC30FEBQ35543371-1967F3D9-B996-4E5F-86EC-7BAC926D6D7BQ35670332-1B723608-A7EB-471D-8B95-1C8839C0A675Q35710931-E89968B1-772E-4852-8E85-82BF02A64809Q35822242-7D5BF9B2-9F7D-4472-9B57-08594893FB32Q35827693-C02BFCAF-871B-4632-8D5C-2BF3800AD995Q35857192-097FC943-06AB-4B33-AC52-E2DDE2237CFFQ35969059-0063AE55-3F53-43CE-A8B4-BA39DA85F1F5Q35999426-CC62E2FA-BC2A-4663-A723-C23A3AD8C361Q36401988-9BE220C3-3265-4237-8FB9-FD6BD0DC9E31Q36491992-72E3BF8E-EFC1-428E-84B9-8B90D411E456Q36583266-37ACD3EF-210A-4BD4-9723-DB26EC0B397EQ36846068-C14A6A5A-7977-4C30-AE22-B6B974A2C61DQ36966062-9FB24D58-8216-4A9E-B60A-CB8E06DB9AD3Q36997789-D01C23A2-806F-44FF-B699-C0E5A39298A2Q37130788-A3FE6000-135D-4AD8-9773-C5C3ABB711F7Q37196365-2924AB55-7606-402F-AB5A-C6DF4FB8A4D3Q37236741-F382245D-BC19-40B7-BCB2-531CE2C673FAQ37339703-2BF917B0-F800-4E5C-A06A-D381DDBB80D7Q37386712-39CF72FA-57AB-45F0-B62C-53E9A2AA3379
P2860
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
description
2005 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մայիսին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Nature
@fr
artículu científicu espublizáu en 2005
@ast
scientific journal article
@en
vedecký článok (publikovaný 2005/05/26)
@sk
vědecký článek publikovaný v roce 2005
@cs
wetenschappelijk artikel (gepubliceerd op 2005/05/26)
@nl
наукова стаття, опублікована в травні 2005
@uk
مقالة علمية (نشرت في 26-5-2005)
@ar
name
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@ast
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@en
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@nl
type
label
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@ast
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@en
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@nl
prefLabel
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@ast
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@en
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@nl
P2093
P2860
P356
P1433
P1476
Vascular respiratory uncoupling increases blood pressure and atherosclerosis
@en
P2093
Allison C. Gates
Carlos Bernal-Mizrachi
Clay F. Semenkovich
Louis J. Muglia
Pascual DeSantis
R. Reid Townsend
Russell H. Knutsen
Sherry Weng
Takuji Imamura
Trey Coleman
P2860
P2888
P304
P356
10.1038/NATURE03527
P407
P577
2005-05-26T00:00:00Z
P5875
P6179
1039429530