| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/0888-7543(91)90151-4 |
| P698 | PubMed publication ID | 1685142 |
| P50 | author | Urban Deutsch | Q32420081 |
| P2093 | author name string | Simon D | |
| Gruss P | |||
| Walther C | |||
| Guenet JL | |||
| Plachov D | |||
| Jostes B | |||
| Balling R | |||
| Goulding MD | |||
| Deutsch U | |||
| P2860 | cites work | The molecular basis for metameric pattern in the Drosophila embryo | Q114755591 |
| P433 | issue | 2 | |
| P304 | page(s) | 424-434 | |
| P577 | publication date | 1991-10-01 | |
| P1433 | published in | Genomics | Q5533503 |
| P1476 | title | Pax: a murine multigene family of paired box-containing genes | |
| P478 | volume | 11 |
| Q36728990 | A mutation in the Pax-6 gene in rat small eye is associated with impaired migration of midbrain crest cells |
| Q36059319 | A mutation within intron 3 of the Pax-3 gene produces aberrantly spliced mRNA transcripts in the splotch (Sp) mouse mutant |
| Q48140877 | A new Pax gene, Pax-9, maps to mouse chromosome 12. |
| Q45914723 | A novel 31-bp indel in the paired box 7 (PAX7) gene is associated with chicken performance traits. |
| Q50636665 | A novel duplication in the PAX6 gene in a North Indian family with aniridia. |
| Q28508005 | A requirement for bone morphogenetic protein-7 during development of the mammalian kidney and eye |
| Q21283806 | A symphony of inner ear developmental control genes |
| Q24318806 | Alternative splicing of Pax-8 gene transcripts is developmentally regulated and generates isoforms with different transactivation properties |
| Q33887741 | Alternatively spliced insertions in the paired domain restrict the DNA sequence specificity of Pax6 and Pax8. |
| Q35716850 | An overview of developmental genetics in mammals |
| Q34365701 | Applicability of the methylated CpG sites of paired box 5 (PAX5) promoter for prediction the prognosis of gastric cancer |
| Q52568969 | Are Pax proteins potential therapeutic targets in kidney disease and cancer? |
| Q41064693 | C-terminal activating and inhibitory domains determine the transactivation potential of BSAP (Pax-5), Pax-2 and Pax-8. |
| Q33990087 | Can we produce a human corneal equivalent by tissue engineering? |
| Q47855488 | Characterization and expression analysis of an ancestor-type Pax gene in the hydrozoan jellyfish Podocoryne carnea |
| Q36756472 | Characterization of quail Pax-6 (Pax-QNR) proteins expressed in the neuroretina |
| Q34310158 | Cholecystokinin gene transcription: promoter elements, transcription factors and signaling pathways |
| Q28242005 | Chromosomal localization of seven PAX genes and cloning of a novel family member, PAX-9 |
| Q48088257 | Chromosomal localization of the mouse titin gene and its relation to "muscular dystrophy with myositis" and nebulin genes on chromosome 2. |
| Q28237187 | Chromosomal mapping in the mouse of eight K(+)-channel genes representing the four Shaker-like subfamilies Shaker, Shab, Shaw, and Shal |
| Q38329617 | Co-operation between the PAI and RED subdomains of Pax-8 in the interaction with the thyroglobulin promoter |
| Q41602939 | Combinatorial regulation of optic cup progenitor cell fate by SOX2 and PAX6. |
| Q34397935 | Common developmental genetic mechanisms for patterning invertebrate and vertebrate brains |
| Q37342594 | Comparative study of Pax2 expression in glial cells in the retina and optic nerve of birds and mammals |
| Q48101804 | Comparison of protein analysis between embryonic and extraembryonic tissues during the 11th day of gestation of the mouse |
| Q41960963 | Conserved localization of Pax6 and Pax7 transcripts in the brain of representatives of sarcopterygian vertebrates during development supports homologous brain regionalization |
| Q36156319 | Cooperation of Pax2 and Pax5 in midbrain and cerebellum development |
| Q40882686 | Current views on eye development |
| Q38295887 | DNA-binding and transactivation properties of Pax-6: three amino acids in the paired domain are responsible for the different sequence recognition of Pax-6 and BSAP (Pax-5). |
| Q48382835 | Defects of neuronal migration and the pathogenesis of cortical malformations are associated with Small eye (Sey) in the mouse, a point mutation at the Pax-6-locus |
| Q36717856 | Deleted chromosome 20 from a patient with Alagille syndrome isolated in a cell hybrid through leucine transport selection: study of three candidate genes |
| Q52226238 | Deregulation of Pax-2 expression in transgenic mice generates severe kidney abnormalities. |
| Q52228604 | Developmental genes and ocular malformation syndromes. |
| Q37351323 | Diabetes and apoptosis: neural crest cells and neural tube. |
| Q38296088 | Differential expression of the chicken Pax‐1 and Pax‐9 Gene: In situ hybridization and immunohistochemical analysis |
| Q42770587 | Differential induction of Pax genes by NGF and BDNF in cerebellar primary cultures |
| Q37242232 | Differential requirements for the Pax6(5a) genes eyegone and twin of eyegone during eye development in Drosophila. |
| Q48640471 | Distributions of PAX6 and PAX7 proteins suggest their involvement in both early and late phases of chick brain development |
| Q51557315 | Evaluation of Pax5 expression and comparison with BLA.36 and CD79αcy in feline non-Hodgkin lymphoma. |
| Q48087600 | Evidence that POU factor Brn-3B regulates expression of Pax-6 in neuroretina cells |
| Q36767055 | Evolution of paired domains: isolation and sequencing of jellyfish and hydra Pax genes related to Pax-5 and Pax-6 |
| Q28141079 | Evolutionary conservation of gene structures of the Pax1/9 gene family |
| Q34079561 | Evolutionary conservation of glucose-dependent insulinotropic polypeptide (GIP) gene regulation and the enteroinsular axis |
| Q28588888 | Expression and function of Pax 1 during development of the pectoral girdle |
| Q34131367 | Expression of Pax6 and Sox2 in adult olfactory epithelium |
| Q74465090 | Expression of the paired-box genes Pax-1 and Pax-9 in limb skeleton development |
| Q43147184 | Facts on PAX. |
| Q72799522 | Fine genetic mapping of the proximal part of mouse chromosome 2 excludes Pax-8 as a candidate gene for Danforth's short tail (Sd) |
| Q40782321 | Functional analyses of two alternative isoforms of the transcription factor Pax-5. |
| Q34126981 | Genetic network of the eye in Platyhelminthes: expression and functional analysis of some players during planarian regeneration |
| Q39720018 | Genetics of aniridia and anterior segment dysgenesis |
| Q28181428 | Genomic structure, evolutionary conservation and aniridia mutations in the human PAX6 gene |
| Q52197896 | Grg3, a murine Groucho-related gene, is expressed in the developing nervous system and in mesenchyme-induced epithelial structures. |
| Q41676162 | Haplotype analysis of intra-specific backcross curly-tail mice confirms the localization of ct to chromosome 4. |
| Q47330288 | Homeodomain-interacting protein kinase phosphorylates the Drosophila Paired box protein 6 (Pax6) homologues Twin of eyeless and Eyeless |
| Q36566927 | Identification and characterization of a neuroretina-specific enhancer element in the quail Pax-6 (Pax-QNR) gene |
| Q39449324 | Identification of a portable repression domain and an E1A-responsive activation domain in Pax4: a possible role of Pax4 as a transcriptional repressor in the pancreas |
| Q24600089 | Identification of functional domains and evolution of Tc1-like transposable elements |
| Q38359317 | Identification of novel Pax-2 binding sites by chromatin precipitation |
| Q46939232 | Immunohistochemical localization of Pax6 in the developing tooth germ of mice |
| Q40177599 | Induction of multilineage markers in human myeloma cells and their down-regulation by interleukin 6. |
| Q34549454 | Inhibition of Pax2 Transcription Activation with a Small Molecule that Targets the DNA Binding Domain |
| Q34067563 | Iris hypoplasia in mice that lack the alternatively spliced Pax6(5a) isoform |
| Q34822452 | Isolation and expression of a Pax-6 gene in the regenerating and intact Planarian Dugesia(G)tigrina. |
| Q37670506 | Isolation of a Pax-6 homolog from the ribbonworm Lineus sanguineus |
| Q24313356 | Isolation of full-length cDNA of mouse PAX4 gene and identification of its human homologue |
| Q28303028 | Isolation of the Pax9 cDNA from adult human esophagus |
| Q34604788 | Large novel deletions detected in Chinese families with aniridia: correlation between genotype and phenotype |
| Q64448365 | Linkage mapping of the Aldo-2, Pax-5, Ambp , and D4H9S3E loci on mouse chromosome 4 in the region of homology with human chromosome 9 |
| Q50534793 | Localization of the gene for branchiootorenal syndrome to chromosome 8q. |
| Q36797294 | Lune/eye gone, a Pax-like protein, uses a partial paired domain and a homeodomain for DNA recognition |
| Q28275505 | Mammalian and Drosophila dachshund genes are related to the Ski proto-oncogene and are expressed in eye and limb |
| Q39555698 | Mapping gene regulatory circuitry of Pax6 during neurogenesis. |
| Q38353780 | Mapping of Pax-2 transcription activation domains |
| Q28265998 | Mapping of the human homologs of the murine paired-box-containing genes |
| Q59337332 | Mapping the Pax6 3' untranslated region microRNA regulatory landscape |
| Q36738873 | Maps from two interspecific backcross DNA panels available as a community genetic mapping resource |
| Q52597712 | MiR-144-3p promotes the tumor growth and metastasis of papillary thyroid carcinoma by targeting paired box gene 8. |
| Q40313088 | Molecular analysis of a human PAX6 homeobox mutant |
| Q33965422 | Molecular and phenotypic characterization of a new mouse insertional mutation that causes a defect in the distal vertebrae of the spine |
| Q34230553 | Molecular basis of non-syndromic tooth agenesis: mutations of MSX1 and PAX9 reflect their role in patterning human dentition |
| Q35607397 | Molecular basis of otic commitment and morphogenesis: a role for homeodomain-containing transcription factors and signaling molecules |
| Q35191281 | Molecular basis of splotch and Waardenburg Pax-3 mutations |
| Q24604768 | Molecular cloning and characterization of a human PAX-7 cDNA expressed in normal and neoplastic myocytes |
| Q35675696 | Mouse chromosome 1. |
| Q67896332 | Mouse chromosome 19 |
| Q35675802 | Mouse chromosome 19. |
| Q35675740 | Mouse chromosome 2. |
| Q35675818 | Mouse chromosome 4. |
| Q35675830 | Mouse chromosome 6. |
| Q29617930 | Mouse small eye results from mutations in a paired-like homeobox-containing gene |
| Q33797133 | Multimarker quantitative real-time PCR detection of circulating melanoma cells in peripheral blood: relation to disease stage in melanoma patients |
| Q37473196 | Mutational analysis of the eyeless gene and phenotypic rescue reveal that an intact Eyeless protein is necessary for normal eye and brain development in Drosophila. |
| Q28252261 | Mutations at the PAX6 locus are found in heterogeneous anterior segment malformations including Peters' anomaly |
| Q38312712 | Mutations in PAX3 associated with Waardenburg syndrome type I. |
| Q70708772 | Mutations in the PAX3 gene causing Waardenburg syndrome type 1 and type 2 |
| Q24322489 | Mutations in the paired domain of the human PAX3 gene cause Klein-Waardenburg syndrome (WS-III) as well as Waardenburg syndrome type I (WS-I) |
| Q36686647 | NF-HB (BSAP) is a repressor of the murine immunoglobulin heavy-chain 3' alpha enhancer at early stages of B-cell differentiation |
| Q38067378 | Neocortical arealization: evolution, mechanisms, and open questions |
| Q35874484 | Noggin is novel inducer of mesenchymal stem cell adipogenesis: implications for bone health and obesity |
| Q74452065 | Normal and rearranged PAX3 expression in human rhabdomyosarcoma |
| Q24517954 | Organisation of the human PAX4 gene and its exclusion as a candidate for the Wolcott-Rallison syndrome |
| Q24655113 | Osteoimmunology: interactions of the bone and immune system |
| Q28579990 | Oxidoreductive modification of two cysteine residues in paired domain by Ref-1 regulates DNA-binding activity of Pax-8 |
| Q37775841 | PAX-5: a valuable immunohistochemical marker in the differential diagnosis of lymphoid neoplasms |
| Q33766227 | PAX5-positive T-cell anaplastic large cell lymphomas associated with extra copies of the PAX5 gene locus |
| Q28279858 | PAX6 missense mutation in isolated foveal hypoplasia |
| Q53084404 | PAX6, a novel target of microRNA-7, promotes cellular proliferation and invasion in human colorectal cancer cells. |
| Q24515343 | PTIP, a novel BRCT domain-containing protein interacts with Pax2 and is associated with active chromatin |
| Q47822208 | Paired box 7 (Pax7) gene: molecular characterisation, polymorphism and its association with growth performance in goose (Anser cygnoides). |
| Q28504907 | Paired-homeodomain transcription factor PAX4 acts as a transcriptional repressor in early pancreatic development |
| Q41029841 | Pax genes and skeletal development |
| Q33855370 | Pax genes and the differentiation of hormone-producing endocrine cells in the pancreas |
| Q35886629 | Pax genes in embryogenesis and oncogenesis |
| Q52209230 | Pax-1, a regulator of sclerotome development is induced by notochord and floor plate signals in avian embryos. |
| Q41127733 | Pax-2, kidney development, and oncogenesis |
| Q38305493 | Pax-3-DNA interaction: flexibility in the DNA binding and induction of DNA conformational changes by paired domains. |
| Q48417513 | Pax-5 is expressed at the midbrain-hindbrain boundary during mouse development |
| Q73174934 | Pax-5 is identical to EBB-1/KLP and binds to the VpreB and lambda5 promoters as well as the KI and KII sites upstream of the Jkappa genes |
| Q28570171 | Pax-8, a paired domain-containing protein, binds to a sequence overlapping the recognition site of a homeodomain and activates transcription from two thyroid-specific promoters |
| Q42689153 | Pax-QNR/Pax-6, a paired- and homeobox-containing protein, recognizes Ets binding sites and can alter the transactivating properties of Ets transcription factors |
| Q24338309 | Pax1, a member of the paired box-containing class of developmental control genes, is mapped to human chromosome 20p11.2 by in situ hybridization (ISH and FISH) |
| Q39886410 | Pax2/8 act redundantly to specify glycinergic and GABAergic fates of multiple spinal interneurons |
| Q34310273 | Pax3 inhibits myogenic differentiation of cultured myoblast cells |
| Q37633128 | Pax3 modulates expression of the c-Met receptor during limb muscle development |
| Q73301463 | Pax4 regulatory elements mediate beta cell specific expression in the pancreas |
| Q28589877 | Pax6 activity in the lens primordium is required for lens formation and for correct placement of a single retina in the eye |
| Q28199296 | Pax6 autoregulation mediated by direct interaction of Pax6 protein with the head surface ectoderm-specific enhancer of the mouse Pax6 gene |
| Q91829081 | Pax6 expression highlights regional organization in the adult brain of lungfishes, the closest living relatives of land vertebrates |
| Q43096272 | Pax6 is essential for lens fiber cell differentiation |
| Q48142489 | Pax7 is expressed in the capsules surrounding adult mouse neuromuscular spindles |
| Q37062080 | Pax8 has a critical role in epithelial cell survival and proliferation |
| Q32024327 | Pax9-deficient mice lack pharyngeal pouch derivatives and teeth and exhibit craniofacial and limb abnormalities. |
| Q33346071 | Perplexing Pax: from puzzle to paradigm. |
| Q41524945 | Perspectives on eye development |
| Q71740203 | Physiological activation of the IgH 3' enhancer in B lineage cells is not blocked by Pax-5 |
| Q22251285 | Positional cloning of the mouse obese gene and its human homologue |
| Q36551779 | Quail Pax-6 (Pax-QNR) mRNAs are expressed from two promoters used differentially during retina development and neuronal differentiation |
| Q31154012 | Role of PAX8 in the regulation of MET and RON receptor tyrosine kinases in non-small cell lung cancer |
| Q33796997 | Serial monitoring of circulating melanoma cells during neoadjuvant biochemotherapy for stage III melanoma: outcome prediction in a multicenter trial |
| Q48472745 | Small eye (Sey): Cloning and characterization of the murine homolog of the human aniridia gene |
| Q28202114 | Structural and functional characterization of the human PAX7 5'-flanking regulatory region |
| Q24531533 | Structural defects of a Pax8 mutant that give rise to congenital hypothyroidism |
| Q57258271 | Structure-Based Optimization of a Novel Class of Aldehyde Dehydrogenase 1A (ALDH1A) Subfamily-Selective Inhibitors as Potential Adjuncts to Ovarian Cancer Chemotherapy |
| Q33851820 | Syndromes associated with Homo sapiens pol II regulatory genes |
| Q24316993 | Targeted disruption of Pax1 defines its null phenotype and proves haploinsufficiency |
| Q40794335 | Tc1 transposase of Caenorhabditis elegans is an endonuclease with a bipartite DNA binding domain |
| Q36362957 | The B cell-specific transcription factor BSAP regulates B cell proliferation |
| Q73836155 | The C-terminal subdomain makes an important contribution to the DNA binding activity of the Pax-3 paired domain |
| Q35172685 | The Groucho-associated phosphatase PPM1B displaces Pax transactivation domain interacting protein (PTIP) to switch the transcription factor Pax2 from a transcriptional activator to a repressor |
| Q41301123 | The Opdc missense mutation of Pax2 has a milder than loss-of-function phenotype |
| Q38300712 | The PAX5 gene: a linkage and mutation analysis in candidate human primary immunodeficiencies |
| Q40636577 | The PAX6 gene is activated by the basic helix-loop-helix transcription factor NeuroD/BETA2. |
| Q36852666 | The Pax-5 gene is alternatively spliced during B-cell development |
| Q59069706 | The Pax4 gene is essential for differentiation of insulin-producing β cells in the mammalian pancreas |
| Q44497136 | The Pax6 genes eyeless and twin of eyeless are required for global patterning of the ocular segment in the Tribolium embryo |
| Q92151823 | The Spectrum of PAX6 Mutations and Genotype-Phenotype Correlations in the Eye |
| Q33593944 | The beta subunit of voltage-gated Ca2+ channels interacts with and regulates the activity of a novel isoform of Pax6. |
| Q47775692 | The characterization of novel Pax genes of the sea urchin and Drosophila reveal an ancient evolutionary origin of the Pax2/5/8 subfamily |
| Q40721047 | The expression of the developmentally regulated proto-oncogene Pax-3 is modulated by N-Myc |
| Q49130128 | The gene encoding the central cannabinoid receptor is located in proximal mouse Chromosome 4. |
| Q64446105 | The genetic architecture of aniridia and Gillespie syndrome |
| Q28207886 | The human PAX6 gene is mutated in two patients with aniridia |
| Q33678646 | The incidence of PAX6 mutation in patients with simple aniridia: an evaluation of mutation detection in 12 cases. |
| Q36777403 | The molecular and genetic analysis of mouse development |
| Q35934032 | The mouse Pax2(1Neu) mutation is identical to a human PAX2 mutation in a family with renal-coloboma syndrome and results in developmental defects of the brain, ear, eye, and kidney |
| Q35716468 | The mouse genome: an overview |
| Q54445146 | The murine even-skipped-like gene Evx-2 is closely linked to the Hox-4 complex, but is transcribed in the opposite direction. |
| Q38318897 | The oncogenic potential of Pax genes |
| Q37585530 | The origin, molecular regulation and therapeutic potential of myogenic stem cell populations |
| Q40947266 | Theoretical approaches to the analysis of homeobox gene evolution |
| Q41170335 | Transcription factor genes and the developing eye: a genetic perspective |
| Q33665900 | Transcription factors for lens development assessed in vivo |
| Q37366553 | Transcriptional activities of the Pax6 gene eyeless regulate tissue specificity of ectopic eye formation in Drosophila. |
| Q40665726 | Transcriptional regulation of gene expression: mechanisms and pathophysiology |
| Q53622866 | Unveiling differentially expressed genes upon regulation of transcription factors in sepsis. |
| Q24530630 | WBP-2, a WW domain binding protein, interacts with the thyroid-specific transcription factor Pax8 |
| Q28181722 | Waardenburg's syndrome patients have mutations in the human homologue of the Pax-3 paired box gene |
| Q32106979 | Xenopus Pax-2 displays multiple splice forms during embryogenesis and pronephric kidney development. |
| Q47964657 | Xenopus Pax-2/5/8 orthologues: novel insights into Pax gene evolution and identification of Pax-8 as the earliest marker for otic and pronephric cell lineages |
| Q47073777 | Zebrafish Pax9 encodes two proteins with distinct C-terminal transactivating domains of different potency negatively regulated by adjacent N-terminal sequences |
| Q44725306 | Zebrafish pax[b] is involved in the formation of the midbrain-hindbrain boundary |
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