scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.DEVCEL.2011.03.011 |
P8608 | Fatcat ID | release_xyz535k7p5bwxpvr6sii7qgqpe |
P932 | PMC publication ID | 3677862 |
P698 | PubMed publication ID | 21497760 |
P5875 | ResearchGate publication ID | 51055715 |
P50 | author | Michela Ori | Q42678287 |
Antonio Vitobello | Q56396113 | ||
P2093 | author name string | Elisabetta Ferretti | |
Licia Selleri | |||
Xavier Lampe | |||
Filippo M Rijli | |||
Nathalie Vilain | |||
Sebastien Ducret | |||
Jean-François Spetz | |||
P2860 | cites work | PBX2 and PBX3, new homeobox genes with extensive homology to the human proto-oncogene PBX1 | Q24296470 |
Suz12 is essential for mouse development and for EZH2 histone methyltransferase activity | Q24305075 | ||
Trimeric association of Hox and TALE homeodomain proteins mediates Hoxb2 hindbrain enhancer activity | Q24554470 | ||
Retinoic acid synthesis and signaling during early organogenesis | Q24642848 | ||
Embryonic retinoic acid synthesis is essential for early mouse post-implantation development | Q28140751 | ||
The recruitment of SOX/OCT complexes and the differential activity of HOXA1 and HOXB1 modulate the Hoxb1 auto-regulatory enhancer function | Q28208370 | ||
Compartments and their boundaries in vertebrate brain development | Q28256915 | ||
Genetic interactions between Hoxa1 and Hoxb1 reveal new roles in regulation of early hindbrain patterning | Q28261615 | ||
Function of retinoic acid receptor gamma in the mouse | Q28507388 | ||
Requirement for Pbx1 in skeletal patterning and programming chondrocyte proliferation and differentiation | Q28512034 | ||
Function of the retinoic acid receptors (RARs) during development: (I) Craniofacial and skeletal abnormalities in RAR double mutants | Q28512381 | ||
Pbx1/Pbx2 requirement for distal limb patterning is mediated by the hierarchical control of Hox gene spatial distribution and Shh expression | Q28585137 | ||
Loss of function but no gain of function caused by amino acid substitutions in the hexapeptide of Hoxa1 in vivo | Q28586128 | ||
Shifting boundaries of retinoic acid activity control hindbrain segmental gene expression | Q28594715 | ||
Roles of Hoxa1 and Hoxa2 in patterning the early hindbrain of the mouse | Q28611498 | ||
A highly efficient recombineering-based method for generating conditional knockout mutations | Q29615157 | ||
A highly efficient Escherichia coli-based chromosome engineering system adapted for recombinogenic targeting and subcloning of BAC DNA | Q29615197 | ||
Multivalent engagement of chromatin modifications by linked binding modules | Q29617236 | ||
Segregation of fate during cleavage of frog (Xenopus laevis) blastomeres | Q30455390 | ||
Hoxa1 lineage tracing indicates a direct role for Hoxa1 in the development of the inner ear, the heart, and the third rhombomere | Q30475493 | ||
Complex regulation of cyp26a1 creates a robust retinoic acid gradient in the zebrafish embryo | Q30838817 | ||
Xpbx1b and Xmeis1b play a collaborative role in hindbrain and neural crest gene expression in Xenopus embryos | Q31048761 | ||
Increased XRALDH2 activity has a posteriorizing effect on the central nervous system of Xenopus embryos | Q32079279 | ||
'Shocking' developments in chick embryology: electroporation and in ovo gene expression | Q33787929 | ||
Hox cofactors in vertebrate development | Q34499501 | ||
ArRAnging the hindbrain | Q34508255 | ||
Cyp26 enzymes generate the retinoic acid response pattern necessary for hindbrain development. | Q35577327 | ||
Developmental regulation of the Hox genes during axial morphogenesis in the mouse | Q36156226 | ||
Retinoic acid and hindbrain patterning | Q36475165 | ||
Retinoic acid in the development, regeneration and maintenance of the nervous system | Q36946560 | ||
Mutant Hoxd13 induces extra digits in a mouse model of synpolydactyly directly and by decreasing retinoic acid synthesis | Q37036052 | ||
Pbx/Meis deficiencies demonstrate multigenetic origins of congenital heart disease | Q37077784 | ||
Function of retinoic acid receptors during embryonic development | Q37161673 | ||
Hoxb1 enhancer and control of rhombomere 4 expression: complex interplay between PREP1-PBX1-HOXB1 binding sites | Q38320961 | ||
Determination of axial polarity in the vertebrate embryo: homeodomain proteins and homeogenetic induction | Q38342828 | ||
Retinoid signalling is required for information transfer from mesoderm to neuroectoderm during gastrulation | Q39894289 | ||
Knockdown of the complete Hox paralogous group 1 leads to dramatic hindbrain and neural crest defects | Q40417455 | ||
Binding of c-Myc to chromatin mediates mitogen-induced acetylation of histone H4 and gene activation. | Q40424280 | ||
Nuclear hormone receptors activate direct, inverted, and everted repeats. | Q40454480 | ||
Hindbrain patterning involves graded responses to retinoic acid signalling | Q40692883 | ||
Extra specificity from extradenticle: the partnership between HOX and PBX/EXD homeodomain proteins | Q41078307 | ||
Retinoic acid rescues inner ear defects in Hoxa1 deficient mice. | Q43723697 | ||
Expression of a retinoic acid response element-hsplacZ transgene defines specific domains of transcriptional activity during mouse embryogenesis | Q46255940 | ||
Pbx1/Pbx2 govern axial skeletal development by controlling Polycomb and Hox in mesoderm and Pax1/Pax9 in sclerotome | Q46437170 | ||
Retinoic acid in development: towards an integrated view | Q46549138 | ||
lazarus is a novel pbx gene that globally mediates hox gene function in zebrafish | Q47073219 | ||
Eliminating zebrafish pbx proteins reveals a hindbrain ground state. | Q47073477 | ||
Ectopic Hoxa2 induction after neural crest migration results in homeosis of jaw elements in Xenopus. | Q47814693 | ||
Expression of the mouse labial-like homeobox-containing genes, Hox 2.9 and Hox 1.6, during segmentation of the hindbrain | Q48242778 | ||
Loss of Hox-A1 (Hox-1.6) function results in the reorganization of the murine hindbrain | Q48245028 | ||
Retinoic acid alters hindbrain Hox code and induces transformation of rhombomeres 2/3 into a 4/5 identity | Q48394035 | ||
Epigenetic temporal control of mouse Hox genes in vivo. | Q51933226 | ||
Collinear activation of Hoxb genes during gastrulation is linked to mesoderm cell ingression. | Q52015694 | ||
Segmental expression of Hoxb2 in r4 requires two separate sites that integrate cooperative interactions between Prep1, Pbx and Hox proteins. | Q52171313 | ||
Retinoic acid synthesis and hindbrain patterning in the mouse embryo. | Q52171316 | ||
In vivo functional analysis of the Hoxa-1 3' retinoic acid response element (3'RARE). | Q52197549 | ||
Role of a conserved retinoic acid response element in rhombomere restriction of Hoxb-1. | Q52214207 | ||
A conserved retinoic acid response element required for early expression of the homeobox gene Hoxb-1. | Q52215015 | ||
Segmental expression of Hoxb-1 is controlled by a highly conserved autoregulatory loop dependent upon exd/pbx | Q52537224 | ||
Fates of the blastomeres of the 16-cell stage Xenopus embryo | Q55014030 | ||
Clonal organization of the central nervous system of the frog. I. Clones stemming from individual blastomeres of the 16-cell and earlier stages | Q66960296 | ||
Two rhombomeres are altered in Hoxa-1 mutant mice | Q72723151 | ||
Ectopic Hoxa-1 induces rhombomere transformation in mouse hindbrain | Q72796034 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | tretinoin | Q29417 |
P1104 | number of pages | 14 | |
P304 | page(s) | 469-482 | |
P577 | publication date | 2011-04-01 | |
P1433 | published in | Developmental Cell | Q1524277 |
P1476 | title | Hox and Pbx factors control retinoic acid synthesis during hindbrain segmentation | |
P478 | volume | 20 |
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Q34341914 | Let-7 represses Nr6a1 and a mid-gestation developmental program in adult fibroblasts. |
Q40110140 | MEIS homeodomain proteins facilitate PARP1/ARTD1-mediated eviction of histone H1. |
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Q38234170 | Molecular mechanisms of dopaminergic subset specification: fundamental aspects and clinical perspectives. |
Q36336187 | Mouse fitness measures reveal incomplete functional redundancy of Hox paralogous group 1 proteins |
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Q42167640 | PBX/extradenticle is required to re-establish axial structures and polarity during planarian regeneration. |
Q34052920 | PBX1 is a favorable prognostic biomarker as it modulates 13-cis retinoic acid-mediated differentiation in neuroblastoma. |
Q41057807 | Parallel Pbx-Dependent Pathways Govern the Coalescence and Fate of Motor Columns |
Q36395852 | Pbx Regulates Patterning of the Cerebral Cortex in Progenitors and Postmitotic Neurons |
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Q35928099 | Pbx1-dependent control of VMC differentiation kinetics underlies gross renal vascular patterning. |
Q38644036 | Segmental arithmetic: summing up the Hox gene regulatory network for hindbrain development in chordates. |
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Q44639637 | Spleen hypoplasia leads to abnormal stress hematopoiesis in mice with loss of Pbx homeoproteins in splenic mesenchyme |
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Q36585875 | The splicing regulator PTBP1 controls the activity of the transcription factor Pbx1 during neuronal differentiation. |
Q31162094 | Transcriptome profiling of liver of non-genetic low birth weight and long term health consequences. |
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