| P2093 | author name string | Malcolm Maden | |
| | James R Monaghan | |
| P2860 | cites work | Retinoid signaling in inner ear development: A “Goldilocks” phenomenon | Q82609048 |
| | Retinoids in nonmammalian embryos | Q82712026 |
| | Expression of key retinoic acid modulating genes suggests active regulation during development and regeneration of the amphibian limb | Q83921743 |
| | Analysis of the expression of retinoic acid metabolising genes during Xenopus laevis organogenesis | Q85244367 |
| | Zur entwicklung der Ganglienleiste. I. Die Kinematik der Ganglienleistenentwicklung bei den Urodelen | Q87698006 |
| | Retinoic acid synthesis and signaling during early organogenesis | Q24642848 |
| | Retinoic acid promotes limb induction through effects on body axis extension but is unnecessary for limb patterning | Q24658041 |
| | Sal-Site: integrating new and existing ambystomatid salamander research and informational resources | Q25255850 |
| | Embryonic retinoic acid synthesis is essential for early mouse post-implantation development | Q28140751 |
| | Cells keep a memory of their tissue origin during axolotl limb regeneration | Q28250620 |
| | Retinoic acid is required for the initiation of outgrowth in the chick limb bud | Q28289746 |
| | Regulation of retinoic acid distribution is required for proximodistal patterning and outgrowth of the developing mouse limb | Q28507217 |
| | Retinoic acid receptor-dependent survival of olfactory sensory neurons in postnatal and adult mice | Q28511324 |
| | Nerve growth factor acts via retinoic acid synthesis to stimulate neurite outgrowth | Q77328815 |
| | RDH10 is essential for synthesis of embryonic retinoic acid and is required for limb, craniofacial, and organ development | Q28587012 |
| | Retinoic acid guides eye morphogenetic movements via paracrine signaling but is unnecessary for retinal dorsoventral patterning | Q28588938 |
| | Embryonic retinoic acid synthesis is essential for heart morphogenesis in the mouse | Q28590252 |
| | Retinoic acid controls the bilateral symmetry of somite formation in the mouse embryo | Q28592312 |
| | Initiation of proximal-distal patterning in the vertebrate limb by signals and growth | Q28732823 |
| | The Tol2kit: a multisite gateway-based construction kit for Tol2 transposon transgenesis constructs | Q29618810 |
| | Replacement of lateral line sensory organs during tail regeneration in salamanders: identification of progenitor cells and analysis of leukocyte activity | Q30467534 |
| | Retinoic acid-mediated gene expression in transgenic reporter zebrafish | Q31759133 |
| | The cdx genes and retinoic acid control the positioning and segmentation of the zebrafish pronephros | Q33303450 |
| | The influence of fundamental traits on mechanisms controlling appendage regeneration. | Q34217436 |
| | Local application of retinoic acid to the limb bond mimics the action of the polarizing region | Q34277958 |
| | Retinaldehyde dehydrogenase 2 (RALDH2)- independent patterns of retinoic acid synthesis in the mouse embryo | Q34415544 |
| | Retinoic acid signaling and the evolution of chordates | Q34595150 |
| | Identification of a novel retinoic acid receptor in regenerative tissues of the newt | Q35530107 |
| | Retinoic acid is necessary for development of the ventral retina in zebrafish. | Q35626548 |
| | Local sources of retinoic acid coincide with retinoid-mediated transgene activity during embryonic development | Q36419839 |
| | Once and again: retinoic acid signaling in the developing and regenerating olfactory pathway | Q36475151 |
| | Retinoic acid signaling is essential for formation of the heart tube in Xenopus | Q36517107 |
| | Transgenic indicator mice for studying activated retinoic acid receptors during development | Q36949986 |
| | Keeping an eye on retinoic acid signaling during eye development | Q37107380 |
| | Function of retinoic acid receptors during embryonic development | Q37161673 |
| | Introduction of a retinoid reporter gene into the urodele limb blastema | Q37321749 |
| | Comparative expression profiling reveals an essential role for raldh2 in epimorphic regeneration | Q37446264 |
| | Limb regeneration: a new development? | Q37908123 |
| | Emerging roles for retinoids in regeneration and differentiation in normal and disease states | Q37920205 |
| | Zebrafish retinoic acid receptors function as context-dependent transcriptional activators | Q38921373 |
| | Retinoic acid-dependent attraction of adult spinal cord axons towards regenerating newt limb blastemas in vitro | Q38974570 |
| | Novel retinoic acid generating activities in the neural tube and heart identified by conditional rescue of Raldh2 null mutant mice | Q39432849 |
| | Identification and expression pattern of a second isoform of the newt alpha retinoic acid receptor | Q40535459 |
| | Retinoids and the skin. | Q40645669 |
| | Molecular mechanisms of retinoid actions in skin | Q41108277 |
| | The structure of 180 degrees supernumerary limbs and a hypothesis of their formation | Q41625515 |
| | Retinoic acid signaling controls the formation, proliferation and survival of the blastema during adult zebrafish fin regeneration. | Q42497616 |
| | Delta retinoic acid receptor isoform delta 1 is distinguished by its exceptional N-terminal sequence and abundance in the limb regeneration blastema | Q42615795 |
| | A retinoic acid receptor beta agonist (CD2019) overcomes inhibition of axonal outgrowth via phosphoinositide 3-kinase signalling in the injured adult spinal cord | Q42960307 |
| | Origin and early development of the posterior lateral line system of zebrafish | Q43016858 |
| | Cloning of a novel retinoic-acid metabolizing cytochrome P450, Cyp26B1, and comparative expression analysis with Cyp26A1 during early murine development | Q43718466 |
| | Retinoic acid signalling in the zebrafish embryo is necessary during pre-segmentation stages to pattern the anterior-posterior axis of the CNS and to induce a pectoral fin bud. | Q44018045 |
| | Embryonic retinoic acid synthesis is required for forelimb growth and anteroposterior patterning in the mouse | Q44064037 |
| | Retinoic acid involvement in the reciprocal neurotrophic interactions between newt spinal cord and limb blastemas in vitro | Q44275902 |
| | Opposing RA and FGF signals control proximodistal vertebrate limb development through regulation of Meis genes | Q44530039 |
| | Expression of the retinoic acid catabolising enzyme CYP26B1 in the chick embryo and its regulation by retinoic acid | Q44583440 |
| | Retinoic acid repatterns axolotl lateral line receptors | Q44789514 |
| | Retinoic acid and the control of dorsoventral patterning in the avian spinal cord | Q44863933 |
| | Retinoic acid signaling restricts the cardiac progenitor pool | Q45226471 |
| | Retinoid antagonists inhibit normal patterning during limb regeneration in the axolotl, Ambystoma mexicanum | Q45714487 |
| | Retinoic acid-induced change in anteroposterior positional identity in regenerating axolotl limbs is dose-dependent. | Q45916222 |
| | Analysis of the expression and function of Wnt-5a and Wnt-5b in developing and regenerating axolotl (Ambystoma mexicanum) limbs | Q46060862 |
| | Early mouse caudal development relies on crosstalk between retinoic acid, Shh and Fgf signalling pathways. | Q46147798 |
| | Spatial and temporal expression of the retinoic acid receptor in the regenerating amphibian limb | Q46181440 |
| | Expression of a retinoic acid response element-hsplacZ transgene defines specific domains of transcriptional activity during mouse embryogenesis | Q46255940 |
| | Development of branchiomeric and lateral line nerves in the axolotl | Q46475207 |
| | The zebrafish retinol dehydrogenase, rdh1l, is essential for intestinal development and is regulated by the tumor suppressor adenomatous polyposis coli | Q46557725 |
| | Hedgehog signaling controls dorsoventral patterning, blastema cell proliferation and cartilage induction during axolotl tail regeneration | Q46570809 |
| | Notch signaling regulates the extent of hair cell regeneration in the zebrafish lateral line. | Q46729652 |
| | Changes in retinoic acid signaling alter otic patterning | Q47073410 |
| | Axolotl retina and lens development: mutual tissue stimulation and autonomous failure in the eyeless mutant retina | Q48323065 |
| | The distribution of endogenous retinoic acid in the chick embryo: implications for developmental mechanisms | Q48386324 |
| | Vitamin A-deficient quail embryos have half a hindbrain and other neural defects | Q49036731 |
| | RALDH-independent generation of retinoic acid during vertebrate embryogenesis by CYP1B1. | Q51058548 |
| | Diffusible signals, not autonomous mechanisms, determine the main proximodistal limb subdivision. | Q51866022 |
| | Zebrafish limb development is triggered by a retinoic acid signal during gastrulation. | Q51869867 |
| | Fate of retinoic acid-activated embryonic cell lineages. | Q51896499 |
| | Generation of transgenic axolotls (Ambystoma mexicanum). | Q51915406 |
| | Retinoic acid signalling is required for specification of pronephric cell fate. | Q52006826 |
| | Interactions between retinoic acid, nerve growth factor and sonic hedgehog signalling pathways in neurite outgrowth. | Q52011851 |
| | Induction of a RAR beta 2-lacZ transgene by retinoic acid reflects the neuromeric organization of the central nervous system | Q52040488 |
| | Retinoic acid proximalizes level-specific properties responsible for intercalary regeneration in axolotl limbs. | Q52120182 |
| | The role of retinoic acid receptors in neurite outgrowth from different populations of embryonic mouse dorsal root ganglia. | Q52167476 |
| | Retinoids as endogenous components of the regenerating limb and tail. | Q52182156 |
| | Developmental analysis of the retinoic acid-inducible RAR-beta 2 promoter in transgenic animals | Q52235298 |
| | Induction and prepatterning of the zebrafish pectoral fin bud requires axial retinoic acid signaling | Q56940693 |
| | Vitamin A and pattern formation in the regenerating limb | Q59095647 |
| | Proximodistal patterning during limb regeneration | Q59292746 |
| | Positional identity of adult stem cells in salamander limb regeneration | Q59595267 |
| | Abnormal hind limb regeneration in tadpoles of the toad, Bufo andersoni, exposed to excess vitamin A | Q67326716 |
| | Organization of connective tissue patterns by dermal fibroblasts in the regenerating axolotl limb | Q69426205 |
| | Comparison of the effects of vitamin A on limb development and regeneration in the axolotl, Ambystoma mexicanum | Q69518685 |
| | Continuous growth of the motor system in the axolotl | Q70136428 |
| | Positional information in the forelimb of the axolotl: properties of the posterior skin | Q70270473 |
| | Isoform-specific immunological detection of newt retinoic acid receptor delta 1 in normal and regenerating limbs | Q70464137 |
| | The effect of vitamin A on the regenerating axolotl limb | Q71147231 |
| | Oriented growth of regenerating axons in axolotl forelimbs is consistent with guidance by diffusible factors from distal nerve stumps | Q71965810 |
| | Retinoic acid gradients during limb regeneration | Q72345768 |
| | Induction of normal cardiovascular development in the vitamin A-deprived quail embryo by natural retinoids | Q72638391 |
| | Macrophage response during axonal regeneration in the axolotl central and peripheral nervous system | Q72833719 |
| | Extending the table of stages of normal development of the axolotl: limb development | Q73083680 |
| | Mesenchyme-mediated effects of retinoic acid during rat intestinal development | Q73433520 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | visualization | Q451553 |
| | tretinoin | Q29417 |
| P304 | page(s) | 63-75 | |
| P577 | publication date | 2012-05-22 | |
| P1433 | published in | Developmental Biology | Q3025402 |
| P1476 | title | Visualization of retinoic acid signaling in transgenic axolotls during limb development and regeneration | |
| P478 | volume | 368 | |