| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0925-4773(01)00579-2 |
| P698 | PubMed publication ID | 11744375 |
| P2093 | author name string | Trevor Williams | |
| Henry M. Sucov | |||
| Stephanie Brewer | |||
| Xiaobing Jiang | |||
| Stephanie Donaldson | |||
| P2860 | cites work | The anatomy of common aorticopulmonary trunk (truncus arteriosus communis) and its embryologic implications. A study of 57 necropsy cases | Q28256568 |
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| Transcription factor AP-2 essential for cranial closure and craniofacial development | Q28513302 | ||
| AP-2-null cells disrupt morphogenesis of the eye, face, and limbs in chimeric mice | Q28586197 | ||
| AP-2alpha transcription factor is required for early morphogenesis of the lens vesicle | Q28587027 | ||
| Neural tube, skeletal and body wall defects in mice lacking transcription factor AP-2 | Q28594321 | ||
| Decreased neural crest stem cell expansion is responsible for the conotruncal heart defects within the splotch (Sp(2H))/Pax3 mouse mutant | Q28594842 | ||
| Transcription factor AP-2 is expressed in neural crest cell lineages during mouse embryogenesis | Q33515610 | ||
| Role of AP-2 in tumor growth and metastasis of human melanoma | Q33865634 | ||
| Genomic circuits and the integrative biology of cardiac diseases | Q34042375 | ||
| Positive and negative regulation of transcription in vitro: enhancer-binding protein AP-2 is inhibited by SV40 T antigen | Q34163571 | ||
| Cloning and expression of AP-2, a cell-type-specific transcription factor that activates inducible enhancer elements | Q34164797 | ||
| The developmentally regulated transcription factor AP-2 is involved in c-erbB-2 overexpression in human mammary carcinoma | Q34725896 | ||
| FGF-8 in the ventral pharynx alters development of myocardial calcium transients after neural crest ablation | Q39909997 | ||
| Neural crest and cardiovascular patterning. | Q40447081 | ||
| DiGeorge syndrome: an historical review of clinical and cytogenetic features | Q40775692 | ||
| Mutations in TFAP2B cause Char syndrome, a familial form of patent ductus arteriosus | Q40881151 | ||
| Molecular insights into cardiac development | Q41748303 | ||
| Transcription factor AP-2 mediates induction by two different signal-transduction pathways: protein kinase C and cAMP. | Q43554604 | ||
| Compartment-selective sensitivity of cardiovascular morphogenesis to combinations of retinoic acid receptor gene mutations | Q46245854 | ||
| AP-2.2, a novel gene related to AP-2, is expressed in the forebrain, limbs and face during mouse embryogenesis | Q62818027 | ||
| Cardiac neural crest is essential for the persistence rather than the formation of an arch artery | Q71638225 | ||
| P433 | issue | 1-2 | |
| P921 | main subject | morphogenesis | Q815547 |
| Transcription factor AP-2, alpha | Q21982739 | ||
| P304 | page(s) | 139–149 | |
| P577 | publication date | 2002-01-01 | |
| P1433 | published in | Mechanisms of Development | Q6804657 |
| P1476 | title | Requirement for AP-2alpha in cardiac outflow tract morphogenesis | |
| P478 | volume | 110 |
| Q28508787 | A heart-hand syndrome gene: Tfap2b plays a critical role in the development and remodeling of mouse ductus arteriosus and limb patterning |
| Q34110688 | A miR-200b/200c/429-binding site polymorphism in the 3' untranslated region of the AP-2α gene is associated with cisplatin resistance |
| Q34081654 | A retinoic acid responsive Hoxa3 transgene expressed in embryonic pharyngeal endoderm, cardiac neural crest and a subdomain of the second heart field |
| Q28510294 | AP-2alpha knockout mice exhibit optic cup patterning defects and failure of optic stalk morphogenesis |
| Q48139355 | AP-2α and AP-2β cooperatively orchestrate homeobox gene expression during branchial arch patterning. |
| Q50668949 | AP-2α is required after lens vesicle formation to maintain lens integrity. |
| Q35049500 | Aberrant expressions of AP-2α splice variants in pancreatic cancer |
| Q28587312 | Ablation of specific expression domains reveals discrete functions of ectoderm- and endoderm-derived FGF8 during cardiovascular and pharyngeal development |
| Q37045093 | Analysis of TFAP2A mutations in Branchio-Oculo-Facial Syndrome indicates functional complexity within the AP-2α DNA-binding domain |
| Q53524224 | Anomalous origin of the left pulmonary artery from the internal carotid artery. |
| Q28587527 | Cardiac neural crest and outflow tract defects in Lrp6 mutant mice |
| Q38135363 | Cardiac outflow tract anomalies |
| Q39047768 | Cardiac outflow tract development relies on the complex function of Sox4 and Sox11 in multiple cell types. |
| Q51981254 | Cardiovascular development and the colonizing cardiac neural crest lineage. |
| Q28506671 | Cell autonomous roles for AP-2alpha in lens vesicle separation and maintenance of the lens epithelial cell phenotype |
| Q24313555 | Characterization of TBX20 in human hearts and its regulation by TFAP2 |
| Q41965882 | Characterization of the human activator protein-2gamma (AP-2gamma) gene: control of expression by Sp1/Sp3 in breast tumour cells |
| Q28512908 | Cited2 controls left-right patterning and heart development through a Nodal-Pitx2c pathway |
| Q55318986 | Conditional Deletion of AP-2α and AP-2β in the Developing Murine Retina Leads to Altered Amacrine Cell Mosaics and Disrupted Visual Function. |
| Q28588275 | Conditional deletion of activating protein 2alpha (AP-2alpha) in the developing retina demonstrates non-cell-autonomous roles for AP-2alpha in optic cup development |
| Q44414439 | Expression of Tfap2d, the gene encoding the transcription factor Ap-2δ, during mouse embryogenesis |
| Q39345461 | Foxi transcription factors promote pharyngeal arch development by regulating formation of FGF signaling centers |
| Q38344570 | Frontonasal process-specific disruption of AP-2alpha results in postnatal midfacial hypoplasia, vascular anomalies, and nasal cavity defects |
| Q38109878 | Gene regulatory evolution and the origin of macroevolutionary novelties: insights from the neural crest. |
| Q28504616 | Gene targeting reveals a widespread role for the high-mobility-group transcription factor Sox11 in tissue remodeling |
| Q28508652 | Generation and characterization of a novel neural crest marker allele, Inka1-LacZ, reveals a role for Inka1 in mouse neural tube closure |
| Q34202022 | Global gene expression profiles reveal significant nuclear reprogramming by the blastocyst stage after cloning |
| Q37412206 | Histology atlas of the developing mouse heart with emphasis on E11.5 to E18.5. |
| Q28211366 | Human CREB-binding protein/p300-interacting transactivator with ED-rich tail (CITED) 4, a new member of the CITED family, functions as a co-activator for transcription factor AP-2 |
| Q28592776 | Identification and analysis of a conserved Tcfap2a intronic enhancer element required for expression in facial and limb bud mesenchyme |
| Q28591807 | Identification and embryonic expression of a new AP-2 transcription factor, AP-2 epsilon |
| Q52099713 | Identification and regulation of tissue‐specific cis‐acting elements associated with the human AP‐2α gene |
| Q92598879 | Isl-1 positive pharyngeal mesenchyme subpopulation and its role in the separation and remodeling of the aortic sac in embryonic mouse heart |
| Q28589447 | Loss of AP-2alpha impacts multiple aspects of ventral body wall development and closure |
| Q36708506 | Model systems for the study of heart development and disease. Cardiac neural crest and conotruncal malformations |
| Q37383073 | Mouse models of congenital cardiovascular disease |
| Q36585449 | Multiple essential roles for primary cilia in heart development |
| Q33655265 | Outflow tract septation and the aortic arch system in reptiles: lessons for understanding the mammalian heart. |
| Q52107622 | Overexpression of transcription factor AP-2alpha suppresses mammary gland growth and morphogenesis. |
| Q36979162 | Overlapping expression patterns and redundant roles for AP-2 transcription factors in the developing mammalian retina |
| Q36178682 | Partitioning the heart: mechanisms of cardiac septation and valve development |
| Q35127152 | Pax3 is essential for normal cardiac neural crest morphogenesis but is not required during migration nor outflow tract septation |
| Q24294727 | Physical and functional interactions among AP-2 transcription factors, p300/CREB-binding protein, and CITED2 |
| Q34152959 | Predicting tissue specific cis-regulatory modules in the human genome using pairs of co-occurring motifs |
| Q50048221 | Protein Kinase 2β Is Expressed in Neural Crest-Derived Urinary Pacemaker Cells and Required for Pyeloureteric Contraction |
| Q35973553 | Roles of JUMONJI in mouse embryonic development |
| Q28587114 | The transcription factors AP-2β and AP-2α are required for survival of sympathetic progenitors and differentiated sympathetic neurons |
| Q43679725 | Three-dimensional and molecular analysis of the arterial pole of the developing human heart |
| Q38346507 | Transcription factor Ap-2alpha is necessary for development of embryonic melanophores, autonomic neurons and pharyngeal skeleton in zebrafish. |
| Q34017313 | Trigenic neural crest-restricted Smad7 over-expression results in congenital craniofacial and cardiovascular defects. |
| Q38344566 | Wnt1-Cre-mediated deletion of AP-2alpha causes multiple neural crest-related defects |
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