Integration of troponin I phosphorylation with cardiac regulatory networks
about
Post-translational control of cardiac hemodynamics through myosin binding protein CCardiac Troponin and Tropomyosin: Structural and Cellular Perspectives to Unveil the Hypertrophic Cardiomyopathy PhenotypeThe cardiac-specific N-terminal region of troponin I positions the regulatory domain of troponin CMaternal Nutrient Restriction Alters Ca2+ Handling Properties and Contractile Function of Isolated Left Ventricle Bundles in Male But Not Female Juvenile RatsStructure and function of cardiac troponin C (TNNC1): Implications for heart failure, cardiomyopathies, and troponin modulating drugsInfluence of a constitutive increase in myofilament Ca(2+)-sensitivity on Ca(2+)-fluxes and contraction of mouse heart ventricular myocytesThe day/night proteome in the murine heart.Troponin I phosphorylation in human myocardium in health and disease.Top-down proteomics reveals concerted reductions in myofilament and Z-disc protein phosphorylation after acute myocardial infarction.Top-down mass spectrometry of cardiac myofilament proteins in health and disease.Effects of a myofilament calcium sensitizer on left ventricular systolic and diastolic function in rats with volume overload heart failureIndependent modulation of contractile performance by cardiac troponin I Ser43 and Ser45 in the dynamic sarcomere.LKB1/Mo25/STRAD uniquely impacts sarcomeric contractile function and posttranslational modification.A Spatially Detailed Model of Isometric Contraction Based on Competitive Binding of Troponin I Explains Cooperative Interactions between Tropomyosin and Crossbridges.Cardiac-specific deletion of protein phosphatase 1β promotes increased myofilament protein phosphorylation and contractile alterationsConnective tissue growth factor regulates cardiac function and tissue remodeling in a mouse model of dilated cardiomyopathyCardiac Myosin-binding Protein C and Troponin-I Phosphorylation Independently Modulate Myofilament Length-dependent Activation.Conserved Asp-137 is important for both structure and regulatory functions of cardiac α-tropomyosin (α-TM) in a novel transgenic mouse model expressing α-TM-D137LSarcomere length dependent effects on the interaction between cTnC and cTnI in skinned papillary muscle strips.Molecule specific effects of PKA-mediated phosphorylation on rat isolated heart and cardiac myofibrillar functionLiver Kinase B1 complex acts as a novel modifier of myofilament function and localizes to the Z-disk in cardiac myocytesHypothermia/rewarming disrupts excitation-contraction coupling in cardiomyocytes.Postnatal Development of Right Ventricular Myofibrillar Biomechanics in Relation to the Sarcomeric Protein Phenotype in Pediatric Patients with Conotruncal Heart DefectsSex dimorphisms of crossbridge cycling kinetics in transgenic hypertrophic cardiomyopathy miceThe β-arrestin-biased ligand TRV120023 inhibits angiotensin II-induced cardiac hypertrophy while preserving enhanced myofilament response to calciumUnique catalytic activities and scaffolding of p21 activated kinase-1 in cardiovascular signalingCharacterization and validation of new tools for measuring site-specific cardiac troponin I phosphorylation.Targeted proteomics of myofilament phosphorylation and other protein posttranslational modifications.Central-acting therapeutics alleviate respiratory weakness caused by heart failure-induced ventilatory overdrive.Order-Disorder Transitions in the Cardiac Troponin Complex.Role of myosin light chain phosphatase in cardiac physiology and pathophysiology.Peroxisome proliferator-activated receptor-α expression induces alterations in cardiac myofilaments in a pressure-overload model of hypertrophy.Calcineurin signaling in the heart: The importance of time and place.Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain.Overview of the Muscle Cytoskeleton.Integrated Transcriptome Map Highlights Structural and Functional Aspects of the Normal Human HeartKnock-in mice harboring a Ca(2+) desensitizing mutation in cardiac troponin C develop early onset dilated cardiomyopathy.Cardiac troponin I tyrosine 26 phosphorylation decreases myofilament Ca2+ sensitivity and accelerates deactivation.Adrenergic Fight-or-Flight: S-NO Falls on PKA Targets.Altered myofilament structure and function in dogs with Duchenne muscular dystrophy cardiomyopathy.
P2860
Q26824832-8056FFB8-A239-4B99-AC6D-2721D9FBD0E7Q28066435-7B08CC78-EFA6-405D-A727-019BC91FF8B6Q28248504-6F36DCB8-440E-4C67-9CFB-80EE8D0D8CC8Q28548519-C418DE01-603D-4491-97D2-A9452ADB86E8Q28607749-ACB3A37E-1759-4B4E-B7D4-F3346891579EQ33707376-B9EB0786-357B-42BE-AB08-C195062D01D9Q33913001-44468595-EC91-441F-A80B-FE8E82F38C75Q34302767-9F90DDBC-68CE-4FF4-800C-84F1B186618DQ34303423-D91F9E28-F644-496F-A79E-D21410801B37Q34506950-F570DE68-6E46-4A0C-8707-F752E5CC6DDCQ34627826-66F84163-1626-4C7C-BCD6-215954E3CC54Q34995673-69E76DA9-46D0-4335-87F7-DE2E299BA476Q35221451-C34BF0EB-89B5-4677-AB1C-487FE5CC1A9AQ35742414-710CF4DF-7BC9-4F79-936E-4BA636F184C8Q36260328-A5FAB04C-C390-4D7B-98C6-239292900602Q36399795-0D758106-BE6E-4BB9-8298-1A20009C279CQ36444026-2B5BF7C9-D720-4DCA-8C92-0953E620B40BQ36910012-2E128904-424B-4757-86E8-15888441D9FFQ36984109-ECAD46AC-6CEC-44F2-B099-4A6865DAAD70Q36984198-E94169B1-2CA5-42A1-B5E6-21E1BA4B7FABQ36984254-7DB96635-596A-4AA2-9FD8-9C6E43875BEAQ37071905-2EC7FC3A-2F17-492E-8CE1-F67883AB2689Q37076228-C715326E-5A7D-4A97-A945-F7A1533A223BQ37139640-E359F29A-4839-44F8-82ED-8EF19E145572Q37142798-85C2F968-DFE3-470B-A5F4-2B1C8E3809C9Q37201381-44015087-0F94-49ED-BC1A-348860332A3AQ37622081-E972D08A-371E-4F61-B755-14910E337301Q38224427-B3E8ADF1-F0B2-4E20-9427-5DB035F9F934Q38780056-1CE13F22-A829-45B2-B914-924CEBE5D51AQ38891067-3CAB6FB5-37EA-490D-A122-B7C9D663DA8DQ38981188-38C26ECC-EAB2-48D8-954F-E39B6A2EE0FFQ38994570-514F95A7-2BBC-4613-9E77-FE0A20DB469AQ39050949-4F6F4EF6-8E7C-4E68-B8C2-4D83F4F85085Q39234683-77CB3FB1-2E9D-4E0C-8162-FCDD7A702B8BQ39391006-E72672D4-8286-4894-AE4A-87AF343F35CFQ39654079-704DFB30-F443-45CB-A50A-57501E04EB2BQ42069498-AEB91602-039F-4491-923E-466166A14095Q42264504-A49C72A5-CFAC-4969-B968-61C7DEAF1C04Q42714137-2AA3954A-8C4E-476D-B9F3-0034743A1987Q47221649-DBC9CFC8-5237-40AD-9794-308BA4C5DAF7
P2860
Integration of troponin I phosphorylation with cardiac regulatory networks
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Integration of troponin I phosphorylation with cardiac regulatory networks
@ast
Integration of troponin I phosphorylation with cardiac regulatory networks
@en
Integration of troponin I phosphorylation with cardiac regulatory networks
@nl
type
label
Integration of troponin I phosphorylation with cardiac regulatory networks
@ast
Integration of troponin I phosphorylation with cardiac regulatory networks
@en
Integration of troponin I phosphorylation with cardiac regulatory networks
@nl
prefLabel
Integration of troponin I phosphorylation with cardiac regulatory networks
@ast
Integration of troponin I phosphorylation with cardiac regulatory networks
@en
Integration of troponin I phosphorylation with cardiac regulatory networks
@nl
P2093
P2860
P3181
P1433
P1476
Integration of troponin I phosphorylation with cardiac regulatory networks
@en
P2093
R. J. Solaro
T. Kobayashi
P2860
P304
P3181
P356
10.1161/CIRCRESAHA.112.268672
P407
P577
2013-01-18T00:00:00Z