Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
about
Transcriptional profiling reveals multifunctional roles for transferrin in the honeybee, Apis melliferaRoles of bacterial and mammalian siderophores in host-pathogen interactionsLink between Aluminum and the Pathogenesis of Alzheimer's Disease: The Integration of the Aluminum and Amyloid Cascade HypothesesHypochlorous acid-induced heme degradation from lactoperoxidase as a novel mechanism of free iron release and tissue injury in inflammatory diseasesRNA-Seq reveals expression signatures of genes involved in oxygen transport, protein synthesis, folding, and degradation in response to heat stress in catfish.Iron deposition is independent of cellular inflammation in a cerebral model of multiple sclerosis.Iron in chronic brain disorders: imaging and neurotherapeutic implications.Zinc protoporphyrin IX, a heme oxygenase-1 inhibitor, demonstrates potent antitumor effects but is unable to potentiate antitumor effects of chemotherapeutics in miceComparison of electron spin resonance spectroscopy and inductively-coupled plasma optical emission spectroscopy for biodistribution analysis of iron-oxide nanoparticlesFerritin overexpression for noninvasive magnetic resonance imaging-based tracking of stem cells transplanted into the heart.Hypercapnia causes cellular oxidation and nitrosation in addition to acidosis: implications for CO2 chemoreceptor function and dysfunction.Pathogenic implications of iron accumulation in multiple sclerosis.Carvacrol protects neuroblastoma SH-SY5Y cells against Fe(2+)-induced apoptosis by suppressing activation of MAPK/JNK-NF-κB signaling pathwayMetal ion substrate inhibition of ferrochelatase.Tracking of mesenchymal stem cells labeled with gadolinium diethylenetriamine pentaacetic acid by 7T magnetic resonance imaging in a model of cerebral ischemia.Synthetic fluorescent sensors for studying the cell biology of metals.Ferritin as an endogenous MRI reporter for noninvasive imaging of gene expression in C6 glioma tumors.Intravenous iron isomaltoside 1000 administered by high single-dose infusions or standard medical care for the treatment of fatigue in women after postpartum haemorrhage: study protocol for a randomised controlled trial.Oxidative stress in neurodegenerative diseases: therapeutic implications for superoxide dismutase mimetics.Silver nanoparticles embedded in zeolite membranes: release of silver ions and mechanism of antibacterial action.Trace metal imaging in diagnostic of hepatic metal disease.Disruption of heme-peptide covalent cross-linking in mammalian peroxidases by hypochlorous acid.Impact of hydrogen peroxide-driven Fenton reaction on mouse oocyte quality.Novel insights into the vasoprotective role of heme oxygenase-1Identification of mRNAs associated with alphaCP2-containing RNP complexesAge-related accumulation of non-heme ferric and ferrous iron in mouse ovarian stroma visualized by sensitive non-heme iron histochemistryMechanism of hypochlorous acid-mediated heme destruction and free iron release.Quantification of MRI signal of transgenic grafts overexpressing ferritin in murine myocardial infarcts.Brucella abortus requires the heme transporter BhuA for maintenance of chronic infection in BALB/c mice.Superoxide Dismutase 1 Protects Hepatocytes from Type I Interferon-Driven Oxidative DamageDose-dependent effects of gamma radiation on the early zebrafish development and gene expressionThe role of iron and copper molecules in the neuronal vulnerability of locus coeruleus and substantia nigra during agingMultifunctional neuroprotective drugs targeting monoamine oxidase inhibition, iron chelation, adenosine receptors, and cholinergic and glutamatergic action for neurodegenerative diseases.Heme in intestinal epithelial cell turnover, differentiation, detoxification, inflammation, carcinogenesis, absorption and motility.Multifunctional drugs with different CNS targets for neuropsychiatric disorders.Novel zinc-responsive post-transcriptional mechanisms reciprocally regulate expression of the mouse Slc39a4 and Slc39a5 zinc transporters (Zip4 and Zip5).Molecular mechanisms of pathogenicity of Mycoplasma mycoides subsp. mycoides SC.Low-molecular-mass metal complexes in the mouse brainReview: Insights into molecular mechanisms of disease in neurodegeneration with brain iron accumulation: unifying theories.The iron export protein ferroportin 1 is differentially expressed in mouse macrophage populations and is present in the mycobacterial-containing phagosome.
P2860
Q24806642-81AF7EEB-83E5-4362-8246-163C68BD76DEQ26784135-63B7C4ED-EE9A-4334-BAE2-582FBD2504CDQ28307760-3841781D-9F6D-40A3-87A8-2DB1522BC585Q28478114-B023BC2B-49AD-4D81-B7A3-CC986DA3A36EQ30620642-67A1B323-1235-48B2-8929-72BD179AFF74Q31020147-32DC2E9A-7ECC-4A80-90EA-D46F7DD9AC08Q31117154-6663ADD3-1379-4EF2-9187-F0AC7FC7A69CQ33351064-35D54DBB-9C7F-4157-962D-AC734DF837AAQ33770906-5B160D39-4608-4743-9AB9-1428AD6E1658Q33847759-444FCBCA-4EFB-40AF-8DA9-F83C8FB8D9E5Q33917387-355FAB34-8C81-4A40-A7CE-6081AD99584CQ34049616-5AC2D122-3478-4AD2-BD9F-E91E6535101AQ34502524-B10E0E95-CDD3-4487-9DFB-53A519BCB498Q34656625-951F88FB-A694-42A9-8489-01EC25AE3EE0Q34673375-6E24851E-1EF8-4BE5-B9E9-9B50F824EDE6Q34750478-123D33B3-8C7A-4563-B7A7-EDA806F91DE3Q34768301-756F5C73-59BF-4D07-861B-D0337CF0C95CQ35078212-9C3E4267-35A2-4606-83C6-AFBEA9247425Q35116171-E3037343-C955-4653-B05E-44C54F3DD822Q35213025-CB558101-489F-4DBF-BFC2-FA9F23D69803Q35560178-EAC02588-DD2C-47A2-A646-77D6AFA9701DQ35668057-D788E45C-7DA0-437D-B72B-EB4CF01BCBBFQ35786626-6A2C214C-2672-45C2-AC35-8F92EF0144CDQ35810610-4479C0CC-991F-4B34-A91D-CBCAB4F424D1Q35923977-D939F43E-04CD-4A79-A326-1B94067BA0F1Q35955926-EC831B46-4E2B-41AF-B7BE-07563FC745EDQ36042841-BD01099C-336A-44F3-AC73-AFA6CDE00023Q36074238-6FEC0566-4485-4766-BAA8-EB1BA7085C1FQ36313890-E603EC2F-5C9D-4355-8405-21EDC2F1B297Q36315988-08CC0ABB-18B6-4919-90A7-F3DCF39DF580Q36409283-905190E4-74F2-435C-94D9-E80633CA3BB7Q36449196-B2867456-B66B-46CF-8F12-A144BB57C8EDQ36543057-F81B6C45-1D50-4BDA-B0FE-1907C7AC41DAQ36545940-10426E7E-C35A-4469-87F8-420074120C74Q36630021-F4C3A6D4-88DD-498B-AC1A-8B66EB46CED2Q36647957-5752AE7D-2208-428C-8495-081E911B70C2Q36677859-734CE419-2E81-4F4F-8EA2-F0A5819AD3DEQ36717037-93AAACF5-67AD-44DD-8C33-A9BEA2A79EA3Q36800670-B73EA14F-E575-4F66-AB3B-8EB1B113FA28Q36838527-95275E3D-F7E2-43FD-B521-7D76BDEA5ED9
P2860
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@ast
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@en
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@nl
type
label
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@ast
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@en
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@nl
prefLabel
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@ast
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@en
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells.
@nl
P2093
P1476
Molecular and cellular mechanisms of iron homeostasis and toxicity in mammalian cells
@en
P2093
Rachida Legssyer
Robert R Crichton
Stéphanie Wilmet
P356
10.1016/S0162-0134(02)00461-0
P577
2002-07-01T00:00:00Z