scholarly article | Q13442814 |
P2093 | author name string | Jingchun Yang | |
Xiaolei Xu | |||
P2860 | cites work | Targeted disruption of nebulette protein expression alters cardiac myofibril assembly and function | Q24292243 |
Nexilin mutations destabilize cardiac Z-disks and lead to dilated cardiomyopathy | Q24313460 | ||
Molecular structure of the sarcomeric Z-disk: two types of titin interactions lead to an asymmetrical sorting of alpha-actinin. | Q24317266 | ||
The cardiac mechanical stretch sensor machinery involves a Z disc complex that is defective in a subset of human dilated cardiomyopathy | Q24337914 | ||
Early myocardial function affects endocardial cushion development in zebrafish | Q24796758 | ||
Functional modulation of cardiac form through regionally confined cell shape changes | Q27334821 | ||
Cardiac phospholipase D2 localizes to sarcolemmal membranes and is inhibited by alpha-actinin in an ADP-ribosylation factor-reversible manner | Q28143885 | ||
Striated muscle cytoarchitecture: an intricate web of form and function | Q28216043 | ||
The vertebrate muscle Z-disc: sarcomere anchor for structure and signalling | Q28261484 | ||
Zasp is required for the assembly of functional integrin adhesion sites | Q28263147 | ||
Mutations in alpha-actinin-2 cause hypertrophic cardiomyopathy: a genome-wide analysis | Q28268187 | ||
Zebrafish cypher is important for somite formation and heart development | Q47073466 | ||
Tracking changes in Z-band organization during myofibrillogenesis with FRET imaging | Q48887025 | ||
alpha-Actinin is a potent regulator of G protein-coupled receptor kinase activity and substrate specificity in vitro | Q73807879 | ||
Cardiac myofibrillogenesis inside intact embryonic hearts | Q28278810 | ||
Interaction of PKN with alpha-actinin | Q28303486 | ||
Cardiac hypertrophy involves both myocyte hypertrophy and hyperplasia in anemic zebrafish | Q28475919 | ||
Ablation of Cypher, a PDZ-LIM domain Z-line protein, causes a severe form of congenital myopathy | Q28587879 | ||
Transgenic mice expressing the myotilin T57I mutation unite the pathology associated with LGMD1A and MFM | Q29028959 | ||
Effective targeted gene 'knockdown' in zebrafish | Q29547445 | ||
The Tol2kit: a multisite gateway-based construction kit for Tol2 transposon transgenesis constructs | Q29618810 | ||
Depletion of zebrafish Tcap leads to muscular dystrophy via disrupting sarcomere-membrane interaction, not sarcomere assembly | Q30490809 | ||
Myofibrillogenesis in the developing zebrafish heart: A functional study of tnnt2. | Q30494192 | ||
Blebbistatin effectively uncouples the excitation-contraction process in zebrafish embryonic heart | Q33544983 | ||
Differential expression of the actin-binding proteins, alpha-actinin-2 and -3, in different species: implications for the evolution of functional redundancy. | Q34083138 | ||
Immunostaining of dissected zebrafish embryonic heart | Q34132681 | ||
The sarcomeric Z-disc: a nodal point in signalling and disease | Q34485166 | ||
Wnt3a regulates the development of cardiac neural crest cells by modulating expression of cysteine-rich intestinal protein 2 in rhombomere 6. | Q34753546 | ||
Mechanical stress-strain sensors embedded in cardiac cytoskeleton: Z disk, titin, and associated structures | Q35621909 | ||
At the crossroads of myocardial signaling: the role of Z-discs in intracellular signaling and cardiac function. | Q35672020 | ||
Multiple influences of blood flow on cardiomyocyte hypertrophy in the embryonic zebrafish heart | Q35758199 | ||
α-Actinin-2 deficiency results in sarcomeric defects in zebrafish that cannot be rescued by α-actinin-3 revealing functional differences between sarcomeric isoforms. | Q35913031 | ||
Mechanics and function in heart morphogenesis | Q36097892 | ||
α-actinin is required for the proper assembly of Z-disk/focal-adhesion-like structures and for efficient locomotion in Caenorhabditis elegans | Q36231028 | ||
From A to Z and back? Multicompartment proteins in the sarcomere. | Q36335814 | ||
Perturbations of Drosophila alpha-actinin cause muscle paralysis, weakness, and atrophy but do not confer obvious nonmuscle phenotypes | Q36531015 | ||
Myofibrillogenesis visualized in living embryonic cardiomyocytes | Q36571158 | ||
Sense and stretchability: the role of titin and titin-associated proteins in myocardial stress-sensing and mechanical dysfunction | Q36809320 | ||
Sarcomeric proteins and inherited cardiomyopathies. | Q37023249 | ||
Hypertrophic cardiomyopathy: the genetic determinants of clinical disease expression | Q37070209 | ||
Alpha-actinin structure and regulation | Q37167269 | ||
Cardiac-specific ablation of Cypher leads to a severe form of dilated cardiomyopathy with premature death. | Q37292925 | ||
Depletion of zebrafish essential and regulatory myosin light chains reduces cardiac function through distinct mechanisms | Q37300161 | ||
Sequence and expression of the zebrafish alpha-actinin gene family reveals conservation and diversification among vertebrates | Q37484621 | ||
Dynamics of Z-band based proteins in developing skeletal muscle cells | Q41437699 | ||
Transient and transgenic analysis of the zebrafish ventricular myosin heavy chain (vmhc) promoter: an inhibitory mechanism of ventricle-specific gene expression | Q41974233 | ||
Myofibrillogenesis in skeletal muscle cells in zebrafish | Q42027499 | ||
Depletion of zebrafish titin reduces cardiac contractility by disrupting the assembly of Z-discs and A-bands | Q42575972 | ||
Intracardiac fluid forces are an essential epigenetic factor for embryonic cardiogenesis | Q43998282 | ||
Mps1 defines a proximal blastemal proliferative compartment essential for zebrafish fin regeneration. | Q44193728 | ||
Cardiac troponin T is essential in sarcomere assembly and cardiac contractility | Q46049216 | ||
Cardiomyopathy in zebrafish due to mutation in an alternatively spliced exon of titin | Q47073224 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Danio rerio | Q169444 |
P304 | page(s) | 4230-4242 | |
P577 | publication date | 2012-07-05 | |
P1433 | published in | FASEB Journal | Q520194 |
P1476 | title | α-Actinin2 is required for the lateral alignment of Z discs and ventricular chamber enlargement during zebrafish cardiogenesis | |
P478 | volume | 26 |
Q39881934 | Cardiac transcriptome and dilated cardiomyopathy genes in zebrafish |
Q30571404 | Cessation of contraction induces cardiomyocyte remodeling during zebrafish cardiogenesis |
Q39306560 | Depletion of Kindlin-2 induces cardiac dysfunction in mice |
Q21146705 | Exome sequencing identifies a mutation in the ACTN2 gene in a family with idiopathic ventricular fibrillation, left ventricular noncompaction, and sudden death |
Q38796202 | Exon- and contraction-dependent functions of titin in sarcomere assembly. |
Q26746405 | Genetic variation and exercise-induced muscle damage: implications for athletic performance, injury and ageing |
Q93160562 | Haploinsufficiency of mechanistic target of rapamycin ameliorates bag3 cardiomyopathy in adult zebrafish |
Q40768343 | Kindlin-2 interacts with α-actinin-2 and β1 integrin to maintain the integrity of the Z-disc in cardiac muscles |
Q38806486 | LITTLE FISH, BIG DATA: ZEBRAFISH AS A MODEL FOR CARDIOVASCULAR AND METABOLIC DISEASE. |
Q41692598 | Modeling GATAD1-Associated Dilated Cardiomyopathy in Adult Zebrafish |
Q37662636 | New and TALENted genome engineering toolbox |
Q55188606 | Rapamycin attenuates pathological hypertrophy caused by an absence of trabecular formation. |
Q39676931 | Strategies for analyzing cardiac phenotypes in the zebrafish embryo |
Q36299864 | Talin1 is required for cardiac Z-disk stabilization and endothelial integrity in zebrafish |
Q36702121 | Trapping cardiac recessive mutants via expression-based insertional mutagenesis screening |
Q27024639 | Understanding cardiac sarcomere assembly with zebrafish genetics |
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