Recombinant Mouse T-box transcription factor TBX5 (Tbx5)

1. Enrichment of induced cardiomyocytes derived from mouse fibroblasts can be achieved by reprogramming with cardiac transcription factors, Gata4, MEF2c, Tbx5, and Hand2. PMID: 29257325
2. Defined a transcriptional architecture for atrial rhythm control organized as an incoherent feed-forward loop, driven by TBX5 and modulated by PITX2. TBX5/PITX2 interplay provides tight control of atrial rhythm effector gene expression, and perturbation of the co-regulated network caused atrial fibrillation susceptibility. PMID: 27582060
3. The data also suggest that, in human, KLF13 may be a genetic modifier of the Holt-Oram Syndrome gene TBX5. PMID: 28164238
4. Our data demonstrate an early, inherent asymmetry in the left and right limb-forming regions and that threshold levels of Tbx5 are required to overcome this asymmetry to ensure symmetric forelimb formation. PMID: 27992425
5. Data show that three transcriptional factors Gata4, Mef2c, and Tbx5 (abbreviated as GMT) significantly improved murine embryonic stem cells (ESCs) differentiated into cardiomyocytes. PMID: 26449528
6. defines a TBX5-nucleosome remodeling and deacetylase interaction essential to cardiac development and the evolution of the mammalian heart PMID: 26859351
7. Study reports extensive and complex interdependent genomic occupancy of TBX5, NKX2-5, and the zinc finger TF GATA4 coordinately controlling cardiac gene expression, differentiation, and morphogenesis. PMID: 26875865
8. Tbx5 and Osr1 interact to regulate posterior second heart field cell cycle progression for cardiac septation. PMID: 25986147
9. Haploinsufficiency of Tbx5 and trisomy affects alignment of the aorta and this effect may stem from deviations from normal left-right patterning in the heart; study unveiled a previously unknown interaction between the Tbx5 gene and trisomy, suggesting a connection between Tbx5 and trisomic genes important during heart development. PMID: 26208718
10. These findings elucidate mechanisms regulating the commitment of mesodermal cells in the early embryo and identify the Tbx5 cardiac transcriptome. PMID: 24677751
11. our findings reveal a novel mechanism for regulation of SCFFbox25-dependent Nkx2-5 and Tbx5 ubiquitination in cardiac development and provide a new insight into the regulatory mechanism of Nkx2-5 and Tbx5 transcriptional activity. PMID: 25725482
12. Our findings implicate Foxf genes in atrioventricular septation, describe the molecular underpinnings of the genetic interaction between Hedgehog signaling and Tbx5, and establish a molecular model for the selection of the SHF gene regulatory network PMID: 25356765
13. Disruption of myocardial Gata4 and Tbx5 results in defects in cardiomyocyte proliferation and atrioventricular septation. PMID: 24858909
14. TBX5 isoforms derived from novel exons have distinct expression domains and function. Alternative splicing regulates TBX5 function in heart and limb. PMID: 25623069
15. Tbx5 is a common node in the genetic pathways regulating forelimb and sternum development, enabling specific adaptations of thesefeatures without affecting other skeletal elements. PMID: 25468972
16. Data show that Hdac3 physically interacts with Tbx5 and modulates its acetylation to repress Tbx5-dependent activation of cardiomyocyte lineage-specific genes. PMID: 24565863
17. SRC-2 is critical to transcriptional control modulated by MEF2, GATA-4, and Tbx5, thereby enhancing gene expression associated with cardiac growth. PMID: 24811170
18. Data indicate that Nkx2-5, Tbx5, Gata4, or Myocd alone did not induce the de novo expression of cardiac marker proteins in 10T1/2 non-myoblastic cells. PMID: 23144723
19. miR-218 is a crucial mediator of Tbx5 in heart development PMID: 23226307
20. The gene transfer of three cardiac transcription factors, Gata4, Mef2c, and Tbx5 (GMT), induced cardiomyocyte-like cells in infarcted hearts in mice. PMID: 22931955
21. Tbx5 regulated second heart field Gas1 and Osr1 expression, supporting both pathways. PMID: 22898775
22. Hox genes act upstream of Tbx5 to control the axial position of forelimb formation. PMID: 22872086
23. a TBX5-responsive enhancer downstream of Scn5a is sufficient to drive ventricular conduction system expression in vivo, dependent on canonical T-box binding sites PMID: 22728936
24. Induction of Gata4/Mef2c/Tbx5 overexpression in fibroblasts is inefficient at inducing molecular and electrophysiological phenotypes of mature cardiomyocytes. PMID: 22581928
25. Tbx5 overexpression favors a first heart field lineage in murine embryonic stem cells and in Xenopus laevis embryos. PMID: 22072574
26. the interaction of myocardin and Tbx5 maybe involved in cardiac development and diseases PMID: 21897873
27. Nos3, a gene regulated by many congenital heart disease risk factors including stress and diabetes, interacts genetically with Tbx5 provides a molecular framework to understand gene-environment interaction in the setting of human birth defects. PMID: 20974940
28. Tbx5 in forelimbs or (Tbx4 in hindlimbs) specifically affects muscle and tendon patterning without disrupting skeletal development, thus suggesting that distinct cues regulate these processes. PMID: 20152185
29. Tbx5 is not essential for the early establishment of the limb field in the lateral plate mesoderm but is a primary and direct initiator of forelimb bud formation. PMID: 12490567
30. Data indicate that Tbx5 specifies the identity of the left ventricle through tight interactions among several heart-specific factors. PMID: 14573514
31. data demonstrate clear differences in both the expression and function of Tbx5 and Tbx20 and suggest that the modulation of cardiac gene expression can occur as a result of combinatorial regulatory interactions of T-box proteins PMID: 14978031
32. Required for Cx40-independent patterning of the cardiac conduction system. PMID: 15289437
33. Tbx5 is not sufficient to determine limb-specific morphologies but have a roles in initiating limb outgrowth. PMID: 15621531
34. NKX2.5 inhibits myocyte differentiation and myotube formation, and up-regulates Gata4 and Tbx5 expression PMID: 15653675
35. left ventricular diastolic function of Tbx5(del/+) mice is significantly deteriorated, whereas the systolic function remains normal PMID: 15849237
36. Results suggest that T-box transcription factor 5 regulation of connexin 40 plays a critical role in the exquisite developmental patterning of the forelimbs and sternum. PMID: 15923624
37. A positive and negative feed-forward circuit between Tbx5 and Sall4 ensures precise patterning of embryonic limb and heart and provides a unifying mechanism for heart/hand syndromes. PMID: 16380715
38. expression of p204 is activated by the cardiac Gata4, Nkx2.5, and Tbx5 proteins PMID: 16556595
39. there is an exquisite sensitivity of the developing heart to Tbx5 dosage PMID: 16870172
40. Tbx5 is dispensdable for forelimb outgrowth. PMID: 17138667
41. Tbx18 interacts with Gata4 and Nkx2-5 and competes Tbx5-mediated activation of the cardiac Natriuretic peptide precursor type a-promoter. Tbx18 down-regulates Tbx6-activated Delta-like 1 expression in the somitic mesoderm in vivo PMID: 17584735
42. We conclude that a molecular pathway including Tbx5, Nkx2-5, and Id2 coordinates specification of ventricular myocytes into the ventricular conduction system lineage. PMID: 17604724
43. haploinsufficiency of Tbx5 in mouse results in cellautonomous defects in ventricular relaxation PMID: 18378906
44. alternatively spliced Tbx5 isoforms have roles in cell growth and differentiation PMID: 18391012
45. Chromatin immunoprecipitation experiments revealed that Mef2C, Tbx5, and titin are direct target genes of HIF1alpha in vivo. Thus, hypoxia signaling controls cardiac development through HIF1alpha-mediated transcriptional regulation PMID: 18849322
46. These findings highlight the unique genetic interactions of Gata4 and Gata6 with Tbx5 for normal cardiac morphogenesis in vivo. PMID: 19084512

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KEGG: mmu:21388

STRING: 10090.ENSMUSP00000018407

UniGene: Mm.103636