Modulation of the molecular composition of large conductance, Ca(2+) activated K(+) channels in vascular smooth muscle during hypertension.
about
Gain-of-function mutation in the KCNMB1 potassium channel subunit is associated with low prevalence of diastolic hypertensionChemistry and antihypertensive effects of tempol and other nitroxidesMechanisms of Vascular Smooth Muscle Contraction and the Basis for Pharmacologic Treatment of Smooth Muscle DisordersNeuronal and Cardiovascular Potassium Channels as Therapeutic Drug Targets: Promise and PitfallsFunction and regulation of large conductance Ca(2+)-activated K+ channel in vascular smooth muscle cellsIon channel remodeling in vascular smooth muscle during hypertension: Implications for novel therapeutic approachesMinding the calcium store: Ryanodine receptor activation as a convergent mechanism of PCB toxicityThe smooth muscle cell-restricted KCNMB1 ion channel subunit is a direct transcriptional target of serum response factor and myocardin.Oxidative stress decreases microtubule growth and stability in ventricular myocytesTNF-alpha dilates cerebral arteries via NAD(P)H oxidase-dependent Ca2+ spark activationPotassium softens vascular endothelium and increases nitric oxide release.Essential role for smooth muscle BK channels in alcohol-induced cerebrovascular constrictionRedox signaling, vascular function, and hypertension.A whole-genome SNP association study of NCI60 cell line panel indicates a role of Ca2+ signaling in selenium resistanceTranscriptional profiling reveals ductus arteriosus-specific genes that regulate vascular tone.Haemodynamic consequences of changing potassium concentrations in haemodialysis fluids.Epigenetic upregulation of large-conductance Ca2+-activated K+ channel expression in uterine vascular adaptation to pregnancyThe regulation of BK channel activity by pre- and post-translational modifications.Regulation of GPCR signaling in hypertension.Potassium channels in the peripheral microcirculation.Kv2 channels oppose myogenic constriction of rat cerebral arteries.β4-subunit increases Slo responsiveness to physiological Ca2+ concentrations and together with β1 reduces surface expression of Slo in hair cellsLow Na, high K diet and the role of aldosterone in BK-mediated K excretion.Cholesterol down-regulates BK channels stably expressed in HEK 293 cells.BK channels and a new form of hypertension.Spatial organization of RYRs and BK channels underlying the activation of STOCs by Ca(2+) sparks in airway myocytesLong-term hypoxia increases calcium affinity of BK channels in ovine fetal and adult cerebral artery smooth muscleHigh expression of KCa3.1 in patients with clear cell renal carcinoma predicts high metastatic risk and poor survival.Potassium channels and neurovascular coupling.Pregnancy upregulates large-conductance Ca(2+)-activated K(+) channel activity and attenuates myogenic tone in uterine arteries.Low dialysate potassium and central arterial pressure waveform.Large conductance, calcium- and voltage-gated potassium (BK) channels: regulation by cholesterol.Penitrem A as a tool for understanding the role of large conductance Ca(2+)/voltage-sensitive K(+) channels in vascular function.MaxiK channel partners: physiological impact.Hydrogen peroxide as a paracrine vascular mediator: regulation and signaling leading to dysfunction.The beta1 subunit enhances oxidative regulation of large-conductance calcium-activated K+ channels.The β1-subunit of the MaxiK channel associates with the thromboxane A2 receptor and reduces thromboxane A2 functional effectsChronic hypoxia suppresses pregnancy-induced upregulation of large-conductance Ca2+-activated K+ channel activity in uterine arteriesBK Channels in Cardiovascular Diseases and AgingDistinct activity of BK channel β1-subunit in cerebral and pulmonary artery smooth muscle cells.
P2860
Q24609918-6744DD58-A09C-4B98-A431-50459F642024Q24658069-811FF37F-1C82-4201-9D01-937BCF5E5AD7Q26753129-15BBE201-6DA2-4D1F-84C4-BFB09B841B4BQ26798018-4CC820EE-1747-42A2-8EC2-3056697C69C5Q26995779-78FD4B5C-1C7B-48D3-95DE-2C6CCEA49BC6Q26996048-A457A47C-A9EF-4793-89EB-58F4794FBE58Q28393648-1FB2B06A-F7B6-4946-BDEC-ABAE8ECEEDB1Q30434082-FEFE7FC1-14E7-46FE-973B-A1B581523279Q30770438-AC47806A-3BCD-4424-AFCC-A297698BFA37Q33226492-1C1A3790-B719-485E-86CA-D93E51D5B1E6Q33406847-623FB53C-FBD8-43B5-A7CE-530E6E668A28Q33581825-710D1FE5-846E-4471-A11E-964A11391A9CQ33689229-822DE403-1499-444C-9B57-C340DE2528A4Q33689387-AB22E6AB-395A-4D5E-972E-670CF0DE25ABQ33840349-3E9FB099-AFDA-4499-8B52-3E2AE9F1CF7FQ33864192-FAED2D37-6BA4-4CAC-A747-6CCD05D62220Q34051563-FA61A4F2-E88A-4DCD-A0CF-07B79E15D026Q34077885-A1F50B6A-75AA-4B8D-90AB-6AD3AAB4120CQ34273837-DF2A2746-A3CB-4638-B2D4-A5D8748AD487Q34461421-2C342511-D238-44DE-AEA4-353BD67D0740Q34506786-6A37188E-C3EC-47D2-B5F3-02B02ADFBBC7Q34717997-B2D39EC1-7F2F-4670-9C2A-C2E9E45FB31BQ34994330-82F14567-7BF8-46FA-90F4-E15C1A1074BBQ35048791-9DF64C03-CF3C-406E-A324-011E5535AA73Q35099094-A22E18EE-BCCF-405C-80B6-30E2300B936DQ35145302-69D9ACDB-5BD4-4A18-9048-DDE999132DA8Q35275388-C661EA50-79A2-42FA-8CFD-A9594A9E9195Q35304761-C84AFD79-ED31-45AC-B8FD-AFDCAFB1FC09Q35510178-8064D3C6-8D8D-41AE-B38A-FF52E063F913Q35571076-71465970-74E0-4D6B-BD5F-57A6A5EA8757Q35922158-16EB5798-A6D4-4F7B-B197-303B265BBA61Q36059310-8574C8FA-6A3A-422A-92AA-FE2D45D14C76Q36105407-3EE1C8FD-0B54-468B-AAA4-A1FE496036F5Q36292595-FD5B652A-3D94-4FC0-A3F0-DEC5ECE2FB3BQ36412300-998E05AE-30A5-441D-A1F9-543577714A47Q36445406-49D9736F-7620-45B9-8F76-1C03B31A32BFQ36579650-BDEA9EC5-EA8A-43E6-AE0C-2BA7B3560DE8Q36582232-98053E68-437F-4726-B238-E8FF2DC65C3DQ36603651-CD872984-2A3B-408A-BD87-E7AEACE1F227Q36764103-AB5EDC92-FDF8-4480-91FF-2216591D3157
P2860
Modulation of the molecular composition of large conductance, Ca(2+) activated K(+) channels in vascular smooth muscle during hypertension.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Modulation of the molecular co ...... th muscle during hypertension.
@ast
Modulation of the molecular co ...... th muscle during hypertension.
@en
type
label
Modulation of the molecular co ...... th muscle during hypertension.
@ast
Modulation of the molecular co ...... th muscle during hypertension.
@en
prefLabel
Modulation of the molecular co ...... th muscle during hypertension.
@ast
Modulation of the molecular co ...... th muscle during hypertension.
@en
P2093
P2860
P356
P1476
Modulation of the molecular co ...... th muscle during hypertension.
@en
P2093
Adrian D Bonev
Charles F Rossow
Gregory C Amberg
Luis F Santana
Mark T Nelson
P2860
P304
P356
10.1172/JCI200318684
P407
P577
2003-09-01T00:00:00Z