Super-resolution fluorescence microscopy of the cardiac connexome reveals plakophilin-2 inside the connexin43 plaque
about
Altered cardiac electrophysiology and SUDEP in a model of Dravet syndromeUltrastructure of the intercellular space in adult murine ventricle revealed by quantitative tomographic electron microscopyNanoscale visualization of functional adhesion/excitability nodes at the intercalated disc.Desmosomes and the sodium channel complex: implications for arrhythmogenic cardiomyopathy and Brugada syndromeMissense mutations in plakophilin-2 cause sodium current deficit and associate with a Brugada syndrome phenotypeArrhythmogenic Cardiomyopathy: Electrical and Structural PhenotypesSyndromic and non-syndromic disease-linked Cx43 mutations.Super-resolution imaging reveals that loss of the C-terminus of connexin43 limits microtubule plus-end capture and NaV1.5 localization at the intercalated disc.Striatins as plaque molecules of zonulae adhaerentes in simple epithelia, of tessellate junctions in stratified epithelia, of cardiac composite junctions and of various size classes of lateral adherens junctions in cultures of epithelia- and carcinoOrganization and dynamics of the nonhomologous end-joining machinery during DNA double-strand break repairThe cardiac connexome: Non-canonical functions of connexin43 and their role in cardiac arrhythmias.Cardiac conduction in isolated hearts of genetically modified mice--Connexin43 and saltsFibroblast-myocyte coupling in the heart: Potential relevance for therapeutic interventionsTrafficking highways to the intercalated disc: new insights unlocking the specificity of connexin 43 localization.Arrhythmogenic cardiomyopathy and Brugada syndrome: diseases of the connexome.Desmosomes in the heart: a review of clinical and mechanistic analyses.Arrhythmogenic cardiomyopathy: a disease of intercalated discs.ATR-mediated phosphorylation of FANCI regulates dormant origin firing in response to replication stress.Spatio-temporal regulation of connexin43 phosphorylation and gap junction dynamics.Unmasking the molecular link between arrhythmogenic cardiomyopathy and Brugada syndrome.Plakophilin-2 is required for transcription of genes that control calcium cycling and cardiac rhythm.A Method for Quantifying Molecular Interactions Using Stochastic Modelling and Super-Resolution Microscopy.NaV Channels: Assaying Biosynthesis, Trafficking, Function.Sodium Channel Remodeling in Subcellular Microdomains of Murine Failing Cardiomyocytes.Role of connexin 43 in different forms of intercellular communication - gap junctions, extracellular vesicles and tunnelling nanotubes.Bridging the gap: Super-resolution microscopy of epithelial cell junctions.Protein⁻Protein Interactions with Connexin 43: Regulation and Function.Mechanosensitive Gene Regulation by Myocardin-Related Transcription Factors Is Required for Cardiomyocyte Integrity in Load-Induced Ventricular HypertrophyRole of p53 and transcription-independent p53-induced apoptosis in shear-stimulated megakaryocytic maturation, particle generation, and platelet biogenesis
P2860
Q21089741-4781EA50-3707-4E17-8EBE-4B0AD96F57E3Q27302096-546B2CE6-EF31-4088-A3C0-90149FA594C0Q27335210-612C5927-3EF0-431C-8D65-9461245E1793Q28236522-C76A83A2-A6A7-42BB-850B-0711FDF6EAE3Q28304358-59552CE4-8DE2-4F6A-BDE8-983FEC3291A4Q33167672-C2AA91D5-F254-4207-92E1-3814828D1BD3Q34398416-70366DB2-3C68-44C9-9EBA-375B1A7C539AQ34974501-E6379E99-E09D-4505-BFA3-0D18E607A305Q35123198-8D5EB509-B122-4F09-9C81-10B1F162070EQ35644654-3A1DFABE-2DE2-4D0B-B3F0-0D42CD4C50C4Q36654881-6F6BB2F6-3057-4457-9CC3-4750416054ACQ36730499-CE36E132-C3F4-4743-B9DC-B8B09F6A7B71Q37255246-1DC55FE8-143A-4737-9A97-051BE47F6E2AQ38181536-A64A9E15-531B-49D2-A935-25E53DB12954Q38189169-2CEC176D-2A1D-496B-8B71-1EBE764A727BQ38206258-6AE7FE07-029B-49F8-B828-2EFC3999C3C0Q38262612-F3BE3DCF-0018-49AA-BB2C-102945B2D16AQ38890805-FDFE2ADF-F226-4582-BF77-F6CC86C6F81DQ39245781-35D064B1-06E6-4A47-BD25-BB7F6CBC97DCQ39432304-A9D6AE70-4A70-48B5-96C1-A5582492054CQ41107820-8B1B0354-2AAF-4ED6-A02F-488953F1BD62Q47100417-A90DAC30-0913-4DC6-B37C-0C736F8F36C0Q47267398-86DC1B02-96A8-4D32-B6DC-ED82F415E656Q47313436-21FE670B-A4F8-4EFE-B051-C4850DBF901AQ47657091-0D65800D-B8A6-46B4-BA58-4ABC53DCD8B8Q50116259-51F39AD9-E6D0-43A6-8F90-472DA6AD2388Q55002494-57BE1D6E-5A42-4461-A5F7-2409A2A01CAEQ57796510-196B16D2-1B4D-4E2F-8236-750A80B4D65FQ58720234-1C211C5C-8683-4D24-9D80-AD0B8B0CC004
P2860
Super-resolution fluorescence microscopy of the cardiac connexome reveals plakophilin-2 inside the connexin43 plaque
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2013 nî lūn-bûn
@nan
2013 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի նոյեմբերին 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
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@ast
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@en
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@nl
type
label
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@ast
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@en
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@nl
prefLabel
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@ast
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@en
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@nl
P2093
P2860
P50
P356
P1476
Super-resolution fluorescence ...... 2 inside the connexin43 plaque
@en
P2093
Dylan A Reid
Esperanza Agullo-Pascual
Manavjeet Sidhu
Sarah Keegan
P2860
P304
P356
10.1093/CVR/CVT191
P407
P577
2013-08-08T00:00:00Z