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TTN encodes a large abundant protein of striated muscle. De plus, nous expédions Titin Kits (28) et Titin Protéines (6) et beaucoup plus de produits pour cette protéine.
Showing 10 out of 62 products:
Human Polyclonal Titin Primary Antibody pour IHC, IHC (p) - ABIN4359867
Seki, Yuasa, Kusumoto, Kunitomi, Saito, Tohyama, Yae, Kishino, Okada, Hashimoto, Takei, Egashira, Kodaira, Kuroda, Tanaka, Okata, Suzuki, Murata, Fujita, Fukuda: Generation and characterization of functional cardiomyocytes derived from human T cell-derived induced pluripotent stem cells. dans PLoS ONE 2014
Show all 2 Pubmed References
Human Monoclonal Titin Primary Antibody pour IF, IHC (p) - ABIN563282
Choi, Park, Yi, Kim: Novel Mutation of the GNE Gene Presenting Atypical Mild Clinical Feature: A Korean Case Report. dans Annals of rehabilitation medicine 2015
novel titin gene-truncating mutation NM_001267550: p.Leu23499fs/c.70497_40498insT found in the proband as well as in her mother in woman with peripartum cardiomyopathy
Titin isoform expression differs in aortic stenosis and aortic regurgitation as adaptive response to different pathophysiologic scenarios.
TTN missense variants were commonly identified in arrhythmogenic cardiomyopathy patients in this cohort, but did not appear to play a primary role in ACM as causative variants.
This is the first study to suggest the involvement of the novel missense CACNA1C (Montrer CACNA1C Anticorps) c.1786G>A and TTN c.49415G>A variants in the inheritance of symptomatic bradycardia and development of sick sinus syndrome.
We employed WES to detect the mutations of DCM patients and identified 2 novel mutations. Our study expands the spectrum of TTN mutations and offers accurate genetic testing information for DCM patients who are still clinically negative.
urinary concentration of titin correlated significantly with serum creatine kinase concentration, the best-known biomarker of Duchenne muscular dystrophy (Montrer DMD Anticorps); the N-terminal fragment of titin in urine has potential as a diagnostic and clinical biomarker for DMD (Montrer DMD Anticorps)
we considered titin fragments as promising candidates for reliable and non-invasive biomarkers of muscle injury.
TTN plays a role in regulation of cardiac electrical conductance and coupling, and is a risk factor for cardiac arrhythmias and sudden cardiac death
The T-allele at rs10497520 in the TTN gene is associated with shorter skeletal muscle fascicle length and conveys an advantage for marathon running performance in habitually trained men.
An overview of the different neuromuscular disorders caused by mutations in the TTN gene, reviewing the molecular findings as well as the clinical data (review).
regulation of thick filament length depends on titin and is critical for maintaining muscle health.
It is likely that titin plays a role in the increase of active muscle stiffness during rapid unloading. These results are consistent with the idea that, in addition to the thin filaments, titin is activated upon Ca(2 (Montrer CA2 Anticorps)+) influx in skeletal muscle.
Titin-based force enhancement in skeletal muscle is essentially absent in muscular dystrophy with myositis sarcomeres where amino acids in N2A and PEVK titin are deleted, indicating these specific regions along titin are paramount in increasing titin stiffness in an active sarcomere.
Our data suggest that Tbeta4 is required for setting correct sarcomere length and for appropriate splicing of titin, not only in the heart but also in skeletal muscle.
Phosphorylating Titin's Cardiac N2B Element by ERK2 (Montrer MAPK1 Anticorps) or CaMKIIdelta Lowers the Single Molecule and Cardiac Muscle Force
Cleavage of C-terminal titin by CAPN3 (Montrer CAPN3 Anticorps) is associated with limb-girdle muscular dystrophy 2A and tibial muscular dystrophy.
titin affects the tuning of shivering frequency
An increase in the degree of titin phosphorylation results in increased proteolytic degradation of this protein, that contributes to the development of skeletal muscle atrophy.
Pure volume overload induces an increase in titin stiffness that is beneficial and limits eccentric remodeling.
increased titin stiffness promotes myocardial contraction by accelerating the formation of force-generating cross-bridges without decelerating relaxation
titin may be a factor involved in the Frank-Starling mechanism of the heart by promoting actomyosin interaction in response to stretch
calcium affects passive myocardial tension in a titin isoform-dependent manner.
Upon relaxation of shortened myocytes, the restoring stiffness correlates with the titin isoform expression profile with myocytes that express high levels of the stiff isoform (N2B) having the highest restoring stiffness.
Data show that disulfide isomerization reactions within Ig domains enable a third mechanism of titin elasticity.
A dual-beam optical tweezers measured the mechanics of human alpha-actinin 2 (Montrer ACTN2 Anticorps) and titin interaction at the single-molecule level. Depending on the direction of force application, the unbinding forces can more than triple. Multiple alpha-actinin (Montrer ACTN1 Anticorps)/Z-repeat interactions cooperate to ensure long-term stable titin anchoring, while allowing the individual components to exchange dynamically.
The results of this study are consistent with the claim that residual force enhancement is present and is regulated by titin in skeletal psoas myofibrils, but not cardiac papillary myofibrils
landscape recovered all features of our nanomechanics results. The ensemble molten-globule dynamics delivers significant added contractility that may assist sarcomere mechanics, and it may reduce the dissipative energy loss associated with titin unfolding/refolding during muscle contraction/relaxation cycles.
Work done by titin protein folding assists muscle contraction.
Suggest that the increase in the static tension in activated striated muscle is directly associated with Ca(2+)-dependent change in titin properties and not associated with changes in titin-actin interactions.
titin's visco-elastic properties appear to depend on the Ig do- main un/refolding kinetics and that indeed, titin (and thus myofibrils) can become virtually elastic when Ig domain un/refolding is prevented.
Under non-equilibrium conditions across the physiological force range, titin extends by a complex pattern of history-dependent discrete conformational transitions.
We tested the hypothesis that titin properties might be reflected well in single myofibrils. mechanics of titin are well preserved in isolated myofibrils.
Titin might be responsible for passive force enhancement observed in myofibrils.
Two polymorphisms previously identified and described in the 3'UTR (Montrer UTS2R Anticorps) of MYPN (Montrer MYPN Anticorps) and TTN genes in a group of Italian Large White (ILW) and Italian Duroc (ID) pigs, were analysed.
Titin-actin interaction: PEVK-actin-based viscosity in a large animal.
Neonatal pig hearts showed large N2BA-titin isoforms distinct from those present in the adult porcine myocardium.
findings demonstrate that Tn plays an important role in the Frank-Starling mechanism of the heart via on-off switching of the thin filament state, in concert with titin-based regulation
Report PKC phosphorylation of titin's PEVK element: a novel and conserved pathway for modulating myocardial stiffness.
Coexpression of the 2 titin isoforms in large mammals allows longer sarcomere lengths without the development of excessive diastolic tension.
This gene encodes a large abundant protein of striated muscle. The product of this gene is divided into two regions, a N-terminal I-band and a C-terminal A-band. The I-band, which is the elastic part of the molecule, contains two regions of tandem immunoglobulin domains on either side of a PEVK region that is rich in proline, glutamate, valine and lysine. The A-band, which is thought to act as a protein-ruler, contains a mixture of immunoglobulin and fibronectin repeats, and possesses kinase activity. An N-terminal Z-disc region and a C-terminal M-line region bind to the Z-line and M-line of the sarcomere, respectively, so that a single titin molecule spans half the length of a sarcomere. Titin also contains binding sites for muscle associated proteins so it serves as an adhesion template for the assembly of contractile machinery in muscle cells. It has also been identified as a structural protein for chromosomes. Alternative splicing of this gene results in multiple transcript variants. Considerable variability exists in the I-band, the M-line and the Z-disc regions of titin. Variability in the I-band region contributes to the differences in elasticity of different titin isoforms and, therefore, to the differences in elasticity of different muscle types. Mutations in this gene are associated with familial hypertrophic cardiomyopathy 9, and autoantibodies to titin are produced in patients with the autoimmune disease scleroderma.
, rhabdomyosarcoma antigen MU-RMS-40.14
, titin protein homolog