| scholarly article | Q13442814 |
| P2093 | author name string | Kristin Swan | |
| Michael P Czubryt | |||
| Lise Lamoureux | |||
| Bernard Abrenica | |||
| Angela Ramjiawan | |||
| Jaganmohan Jangamreddy | |||
| P2860 | cites work | Signal-dependent nuclear export of a histone deacetylase regulates muscle differentiation | Q24290523 |
| Stimulation of glucose transport by AMP-activated protein kinase via activation of p38 mitogen-activated protein kinase | Q24291657 | ||
| Regulation of apoptosis and cell cycle arrest by Zac1, a novel zinc finger protein expressed in the pituitary gland and the brain | Q24309817 | ||
| hZAC encodes a zinc finger protein with antiproliferative properties and maps to a chromosomal region frequently lost in cancer | Q24317330 | ||
| The transcriptional coactivator CAMTA2 stimulates cardiac growth by opposing class II histone deacetylases | Q24328902 | ||
| Transcriptional activities of the zinc finger protein Zac are differentially controlled by DNA binding | Q24540824 | ||
| Impaired glucose homeostasis in transgenic mice expressing the human transient neonatal diabetes mellitus locus, TNDM | Q24562990 | ||
| MEF2 activates a genetic program promoting chamber dilation and contractile dysfunction in calcineurin-induced heart failure | Q79922459 | ||
| Regulation of the human GLUT4 gene promoter: interaction between a transcriptional activator and myocyte enhancer factor 2A | Q24630596 | ||
| Signal-dependent activation of the MEF2 transcription factor by dissociation from histone deacetylases | Q24682791 | ||
| Alternative splicing of the imprinted candidate tumor suppressor gene ZAC regulates its antiproliferative and DNA binding activities | Q28213694 | ||
| LOT1 (PLAGL1/ZAC1), the candidate tumor suppressor gene at chromosome 6q24-25, is epigenetically regulated in cancer | Q28217017 | ||
| Class II histone deacetylases act as signal-responsive repressors of cardiac hypertrophy | Q28219383 | ||
| Transcriptional control of muscle development by myocyte enhancer factor-2 (MEF2) proteins | Q28294155 | ||
| Activation of MEF2 by muscle activity is mediated through a calcineurin-dependent pathway | Q28364039 | ||
| Transcription of the mouse PAC1 receptor gene: cell-specific expression and regulation by Zac1. | Q31062590 | ||
| Mouse Zac1, a transcriptional coactivator and repressor for nuclear receptors | Q33962326 | ||
| Zac1 is expressed in progenitor/stem cells of the neuroectoderm and mesoderm during embryogenesis: differential phenotype of the Zac1-expressing cells during development | Q34412930 | ||
| Regulation of peroxisome proliferator-activated receptor gamma coactivator 1 alpha (PGC-1 alpha ) and mitochondrial function by MEF2 and HDAC5 | Q34761571 | ||
| Restoration of insulin-sensitive glucose transporter (GLUT4) gene expression in muscle cells by the transcriptional coactivator PGC-1. | Q35041054 | ||
| CaM kinase signaling induces cardiac hypertrophy and activates the MEF2 transcription factor in vivo | Q35159705 | ||
| The steroid receptor coactivator, GRIP-1, is necessary for MEF-2C-dependent gene expression and skeletal muscle differentiation. | Q35193858 | ||
| Nuclear receptor signaling and cardiac energetics | Q35890852 | ||
| Myocardial substrate metabolism in the normal and failing heart | Q36179008 | ||
| Regulation of calreticulin gene expression by calcium | Q36276405 | ||
| Early origins of cardiac hypertrophy: does cardiomyocyte attrition programme for pathological 'catch-up' growth of the heart? | Q37256933 | ||
| Peroxisome proliferator-activated receptor gamma is a Zac target gene mediating Zac antiproliferation | Q38306388 | ||
| Static stretch promotes MEF2A nuclear translocation and expression of neonatal myosin heavy chain in C2C12 myocytes in a calcineurin- and p38-dependent manner. | Q40504610 | ||
| A new look at dietary carbohydrate: chemistry, physiology and health. Paris Carbohydrate Group | Q41542602 | ||
| PPAR-gamma: adipogenic regulator and thiazolidinedione receptor | Q41755813 | ||
| Zac1 regulates an imprinted gene network critically involved in the control of embryonic growth | Q42602582 | ||
| Overexpression of peroxisome proliferator-activated receptor gamma coactivator-1alpha down-regulates GLUT4 mRNA in skeletal muscles | Q44460164 | ||
| Restoration of sarcoplasmic reticulum protein level by thyroid hormone contributes to partial improvement of myocardial function, but not to glucose metabolism in an early failing heart | Q44590461 | ||
| Expression of MHC-beta and MCT1 in cardiac muscle after exercise training in myocardial-infarcted rats | Q44888085 | ||
| Insulin signaling and glucose transport in insulin resistant skeletal muscle. Special reference to GLUT4 transgenic and GLUT4 knockout mice. | Q45889651 | ||
| Regulation of proliferation of the fetal myocardium | Q46107601 | ||
| Regulation of muscle GLUT4 enhancer factor and myocyte enhancer factor 2 by AMP-activated protein kinase | Q46654991 | ||
| A genome-wide scan for type 2 diabetes in African-American families reveals evidence for a locus on chromosome 6q. | Q46661066 | ||
| Acute effect of exercise-hypoxia challenge on GLUT4 protein expression in rat cardiac muscle | Q46721324 | ||
| Transcriptional activity of MEF2 during mouse embryogenesis monitored with a MEF2-dependent transgene. | Q47623642 | ||
| Members of the Plag gene family are expressed in complementary and overlapping regions in the developing murine nervous system. | Q48760908 | ||
| Myocyte Enhancer Factors 2A and 2C Induce Dilated Cardiomyopathy in Transgenic Mice | Q57396513 | ||
| The MEF2A Isoform Is Required for Striated Muscle-specific Expression of the Insulin-responsive GLUT4 Glucose Transporter | Q58198275 | ||
| Transient neonatal diabetes mellitus in a child with invdup(6)(q22q23) of paternal origin | Q59281297 | ||
| Induction of mRNA for IGF-I and -II during growth hormone-stimulated muscle hypertrophy | Q67945390 | ||
| Rapid transition of cardiac myocytes from hyperplasia to hypertrophy during postnatal development | Q71699187 | ||
| Insulin-like growth factor-II induces hypertrophy with increased expression of muscle specific genes in cultured rat cardiomyocytes | Q72819719 | ||
| Characterization of the methylation-sensitive promoter of the imprinted ZAC gene supports its role in transient neonatal diabetes mellitus | Q73738916 | ||
| Insulin-like growth factor-II induces hypertrophy of adult cardiomyocytes via two alternative pathways | Q74603591 | ||
| P433 | issue | 22 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 9 | |
| P304 | page(s) | 16942-16950 | |
| P577 | publication date | 2010-04-02 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | Regulation of cardiomyocyte Glut4 expression by ZAC1 | |
| P478 | volume | 285 |
| Q40713483 | Adiponectin is required for cardiac MEF2 activation during pressure overload induced hypertrophy |
| Q35102519 | Altered expression of the imprinted transcription factor PLAGL1 deregulates a network of genes in the human IUGR placenta |
| Q38315544 | Mechanism of cardiomyocyte PGC-1α gene regulation by ERRα. |
| Q38867221 | PLAGL1: an important player in diverse pathological processes. |
| Q54267402 | Roles of histone deacetylation and AMP kinase in regulation of cardiomyocyte PGC-1α gene expression in hypoxia. |
| Q42483072 | Zac1 Regulates the Differentiation and Migration of Neocortical Neurons via Pac1. |
| Q58727377 | Zac1 regulates IL-11 expression in osteoarthritis |
| Q82038976 | Zac1, an Sp1-like protein, regulates human p21(WAF1/Cip1) gene expression in HeLa cells |
| Q58552706 | and have overlapping and distinct functions in telencephalic development |
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