1. Cardiac troponin T at the NMJ region contributes to NMJ functional decline with ageing mainly in the fast-twitch skeletal muscle through interfering with PKA signalling. PMID: 28419739
2. Hypertrophic cardiomyopathy pathophysiology is "mutation specific" in mice models carrying TNNT2 E163R and R92Q mutations. PMID: 28735292
3. TnTA30V mutation attenuated Ca(2+)-activated maximal tension and length-mediated cross-bridge recruitment against alpha-myosin heavy chain but augmented these parameters against beta-myosin heavy chain, suggesting divergent contractile phenotypes. PMID: 27769999
4. The shift from cTnT exon 5 inclusion to exclusion during development was delayed in the heart of Ts65Dn mice due to Dyrk1A overexpression. PMID: 27049307
5. for hypertrophic cardiomyopathy (HCM)-causing mutations in TnT, Ca(2+)-sensitisation together with uncoupling in vitro is the usual response and both factors may contribute to the HCM phenotype PMID: 27036851
6. cardiomyopathy mutation (R97L) in mouse cardiac troponin T has an effect on the muscle length-mediated recruitment of crossbridges and is modified divergently by alpha- and beta-myosin heavy chain PMID: 26792537
7. Data indicate that high-sensitivity troponin T (hs-TnT) levels are influenced by myocardial dysfunction/heart failure (HF) in acute exacerbation of chronic obstructive lung disease (AECOPD), but provide independent prognostic information. PMID: 26754170
8. cTnT elevation emerged as a strong, independent predictor of 30-day mortality and remained a modest, but significant, predictor throughout 2 years post transcatheter aortic valve implantation. PMID: 26896474
9. MBPC and troponin-I phosphorylation modulate myofilament length-dependent activation PMID: 26453301
10. Data indicate that the troponin T Tnnt2(MerCreMer/+) mouse model also provides a useful tool to trace myocardial lineage during development. PMID: 26010701
11. TnT mutation F72L leads to contractile changes that are linked to dilated cardiomyopathy in the presence of MYH6 and hypertrophic cardiomyopathy in the presence of MYH7. PMID: 26342069
12. TNT increases slightly during low flux-hemodialysis. High-flux hemodialysis eliminates the biomarker and can mask increases caused by cardiac disease. PMID: 25744196
13. Mice carrying the Delta160E or E163R mutations exhibit sarcomeric disruption. PMID: 24480310
14. Cardiac muscle activation blunted by a mutation to the regulatory component, troponin T. PMID: 23897817
15. Study is the first to show that the interplay between the N terminus of cTnT and the overlapping ends of contiguous Tm effectuates different states of Tm on the actin filament. PMID: 23748972
16. We conclude that the observed clinical severity of the cTnT Delta160E mutation is caused by a combination of direct sarcomeric disruption coupled to a profound dysregulation of Ca(2+) homeostasis PMID: 23434821
17. Report two distinct functional regions within the N-terminus of cTnT with divergent roles in mediating cardiac contractile activation. PMID: 23207592
18. findings provide new evidence to demonstrate that R92 mutation effects on cardiac contractile function and dynamics are influenced by myosin heavy chain isoform PMID: 22884844
19. role of N-terminal extension of cardiac troponin T in cardiac thin filament PMID: 23009843
20. results showed dominantly negative effects of the coexistence of fast skeletal muscle TnT and cardiac TnT on contractile kinetics absent the influence of extracellular matrix; a dilatative remodeling at the cellular level was observed, supporting a pathological significance PMID: 22538236
21. Data sugget that knockdown or downregulation of CYP2E1 might be a therapeutic strategy to control the development of dilated cardiomyopathy (DCM) after mutations of cTnT(R141W) or other factors. PMID: 22665122
22. Correlation of molecular and functional effects of mutations in cardiac troponin T linked to familial hypertrophic cardiomyopathy PMID: 22334656
23. Pak1-knockout hearts have reduced recovery of myocardial performance after global I/R injury concomitant with changes in troponin-T and MLC2 phosphorylation and protein association. PMID: 22037191
24. One major and two minor alternatively spliced isoforms of troponin T have been purified from wild-type healthy adult mouse heart. PMID: 21639091
25. TCDD represses the expression of the cardiac development-specific Nkx2.5 homeobox transcription factor, of cardiac troponin-T and of alpha- and beta-myosin heavy chains. PMID: 20130022
26. Results indicated a pathogenic mechanism in which the coexistence of functionally different cTnT variants in cardiac muscle reduces myocardial efficiency due to desynchronized thin filament activation. PMID: 20418479
27. Cardiomyopathy-causing deletion K210 in cardiac troponin T alters phosphorylation propensity of sarcomeric proteins. PMID: 20079745
28. Studies show that the rat Tnnt2-rtTA;TetO-Cre mice transgenic line a valuable genetic tool for analysis of spatiotemporal gene function and cardiomyocyte lineage tracing during developmental and postnatal period. PMID: 20014345
29. Identification of a functionally critical protein kinase C phosphorylation residue PMID: 12832403
30. Transgenic mouse models expressing a missense mutation (R92Q) or a splice donor site mutation (trunc) in the cardiac troponin T (cTnT) showed that hypertrophic signaling is differentially affected by distinct mutations in cTnT. PMID: 15466629
31. Changes in thin filament structure caused by single amino acid substitutions lead to differences in the biophysical properties of cTnT and alter cardiomyopathy pathogenesis. PMID: 16326803
32. The mu-calpain-mediated proteolytic modification of TnT may act as an acute mechanism to adjust muscle contractility under stress conditions. PMID: 16981728
33. the hypervariable NH2-terminal region modulates the conformation and function of the TnT core structure to fine-tune muscle contractility. PMID: 17260966
34. Independent FHC-relted Tnt mutations exhibit specific alterations in myocellular and calcium kinetics. PMID: 17490679
35. R-92L and R-92W mutations in the TM-binding domain of cardiac TnT alter thin filament structure and flexibility sufficiently to cause severe defects in both whole heart energetics and contractile performance PMID: 17526570
36. Transgenic mice expressing chicken TNNT3 and cTNT in myocardium showed ventricular dysfunction and chronic myocardial hypertrophy and degeneration. PMID: 17959729
37. Plasma troponin T was at a similar level in beta1(-/-), beta1(+/+) and beta1(-/-) BM mice treated with 30 min ischaemia and 3 h reperfusion. PMID: 18296493
38. Differential interactions among the sarcomeric proteins containing cTnT-Q92 or cTnT-W141 are responsible for the contrasting phenotypes of hypertrophic cardiomyopathy or dilated cardiomyopathy, respectively. PMID: 18349139
39. Data found that fTnT normally associated with fast twitch skeletal muscle were present at significant levels in the thoracic aorta, and that fTnT transcripts were expressed in the smooth muscle layer of mouse blood vessels of all sizes PMID: 18548613
40. Absence of one Tnnt2 allele leads to a mild deficit in transcript but not protein, leading to a normal cardiac phenotype. PMID: 18612386
41. These findings indicate cTnT plays a critical role in sarcomere assembly during myofibrillogenesis in the embryonic heart, and that the membrane excitation and intracellular Ca(2+) handling systems develop independently of the contractile system. PMID: 18671960
42. The direct repeat and overlapping Troponin T GATA site are critical for the expression level and cardiac specificity. PMID: 18951515
43. Data indicate that UT-B deletion caused the dynamic expression regulation of TNNT2 and ANP, and these proteins may provide new clues to investigate the molecular events involved in cardiac conduction. PMID: 19132680
44. peak releases of TnT or TnT fragments from decomposition of a large number of myofibrils in acute myocardial infarction may breach the cellular protection of proteolytic degradation PMID: 19395545
45. cTnT mutations in the TNT1 domain result in mutation-specific effects and a different temporal onset of altered myocellular mechanics, Ca(2+) kinetics, and Ca(2+) homeostasis; may contribute to clinical variability in familial hypertrophic cardiomyopathy PMID: 19502551
46. Results describe the functional effects of N-terminal deletion and phosphorylation in cardiac troponin T on Ca(2+) dependence of myofilament isometric force production, isometric ATPase rate, and thin filament sliding speed. PMID: 19586048

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KEGG: mmu:21956

STRING: 10090.ENSMUSP00000137093

UniGene: Mm.247470