scholarly article | Q13442814 |
P819 | ADS bibcode | 1992PNAS...8910056C |
P356 | DOI | 10.1073/PNAS.89.21.10056 |
P932 | PMC publication ID | 50276 |
P698 | PubMed publication ID | 1438194 |
P5875 | ResearchGate publication ID | 21717912 |
P2093 | author name string | L Huang | |
A F Russo | |||
Y Chen | |||
M Solursh | |||
P2860 | cites work | Involvement of the Chox-4 chicken homeobox genes in determination of anteroposterior axial polarity during limb development | Q28322536 |
Expression of the homeobox Hox-4 genes and the specification of position in chick wing development | Q28322610 | ||
Local application of retinoic acid to the limb bond mimics the action of the polarizing region | Q34277958 | ||
Studies on the mechanism of retinoid-induced pattern duplications in the early chick limb bud: temporal and spatial aspects | Q36213820 | ||
Retinoic acid: the morphogen of the main body axis? | Q37606308 | ||
Axial patterning and the establishment of polarity in the frog embryo | Q37921971 | ||
Multiple cell type-specific proteins differentially regulate target sequence recognition by the alpha retinoic acid receptor | Q38338308 | ||
Molecular approaches to vertebrate limb morphogenesis. | Q38376670 | ||
Retinoids and vertebrate limb pattern formation | Q38727722 | ||
Optimized use of the firefly luciferase assay as a reporter gene in mammalian cell lines | Q39916460 | ||
Effects of retinoic acid excess on expression of Hox-2.9 and Krox-20 and on morphological segmentation in the hindbrain of mouse embryos | Q41082593 | ||
Conversion by retinoic acid of anterior cells into ZPA cells in the chick wing bud. | Q41179763 | ||
Positional signalling by Hensen's node when grafted to the chick limb bud. | Q41351237 | ||
The effect of local application of retinoic acid to the anterior margin of the developing chick limb. | Q41590615 | ||
Neuronal properties of a thyroid C-cell line: partial repression by dexamethasone and retinoic acid | Q41641367 | ||
Sequential activation of HOX2 homeobox genes by retinoic acid in human embryonal carcinoma cells | Q41724610 | ||
Retinoic acid causes an anteroposterior transformation in the developing central nervous system | Q41931859 | ||
Retinoic acid perturbs the expression of Xhox.lab genes and alters mesodermal determination in Xenopus laevis | Q43719396 | ||
Differential activation of Xenopus homeo box genes by mesoderm-inducing growth factors and retinoic acid | Q46585810 | ||
Retinoic acid induces polarizing activity but is unlikely to be a morphogen in the chick limb bud. | Q48232725 | ||
Retinoic acid modifies mesodermal patterning in early Xenopus embryos | Q48237664 | ||
Retinoic acid modifies the pattern of cell differentiation in the central nervous system of neurula stage Xenopus embryos | Q48684931 | ||
Human HOX genes are differentially activated by retinoic acid in embryonal carcinoma cells according to their position within the four loci | Q58052250 | ||
We have a morphogen! | Q58970676 | ||
Identification and spatial distribution of retinoids in the developing chick limb bud | Q59070114 | ||
The L5 epitope: an early marker for neural induction in the chick embryo and its involvement in inductive interactions | Q59971523 | ||
Hensen's node induces neural tissue in Xenopus ectoderm. Implications for the action of the organizer in neural induction | Q67885478 | ||
Identification of a retinoic acid-sensitive period during primary axis formation in Xenopus laevis | Q68883323 | ||
A quantitative analysis of the effect of all-trans-retinoic acid on the pattern of chick wing development | Q70087993 | ||
Hormonal induction of differentiation in teratocarcinoma stem cells: generation of parietal endoderm by retinoic acid and dibutyryl cAMP | Q72861684 | ||
P433 | issue | 21 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | tretinoin | Q29417 |
P304 | page(s) | 10056-10059 | |
P577 | publication date | 1992-11-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Retinoic acid is enriched in Hensen's node and is developmentally regulated in the early chicken embryo | |
P478 | volume | 89 |
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Q41095362 | A sensitive bioassay for enzymes that synthesize retinoic acid. |
Q48267131 | Acetaldehyde inhibits retinoic acid biosynthesis to mediate alcohol teratogenicity |
Q46102469 | All-trans retinoic acid-induced ectopic limb and caudal structures: murine strain sensitivities and pathogenesis |
Q41080701 | Comparison of Hensen's node and retinoic acid in secondary axis induction in the early chick embryo |
Q33895186 | Distinct steps of neural induction revealed by Asterix, Obelix and TrkC, genes induced by different signals from the organizer |
Q28140751 | Embryonic retinoic acid synthesis is essential for early mouse post-implantation development |
Q52209713 | Endogenous distribution of retinoids during normal development and teratogenesis in the mouse embryo. |
Q45263249 | Ethanol exposure affects gene expression in the embryonic organizer and reduces retinoic acid levels |
Q43137074 | Ethanol induces embryonic malformations by competing for retinaldehyde dehydrogenase activity during vertebrate gastrulation |
Q52224259 | Evaluation of the chick wing territory as an equipotential self-differentiating system. |
Q37779763 | Genetic and pathologic aspects of retinoic acid-induced limb malformations in the mouse |
Q35620973 | Hot spots of retinoic acid synthesis in the developing spinal cord. |
Q74256422 | Identification of a mechanism to localize generation of retinoic acid in rat embryos |
Q49321035 | Independent assignment of antero-posterior and dorso-ventral positional values in the developing chick hindbrain |
Q36419839 | Local sources of retinoic acid coincide with retinoid-mediated transgene activity during embryonic development |
Q28591091 | Metabolic inactivation of retinoic acid by a novel P450 differentially expressed in developing mouse embryos |
Q38057711 | Microfluidic systems: a new toolbox for pluripotent stem cells |
Q40675177 | Neurogenesis in Xenopus: a molecular genetic perspective |
Q37828677 | New insights into retinoid signaling in cardiac development and physiology |
Q40769957 | Osteoinductive proteins |
Q42678812 | Overexpression of a cellular retinoic acid binding protein (xCRABP) causes anteroposterior defects in developing Xenopus embryos |
Q34340515 | Patterning the embryonic axis: FGF signaling and how vertebrate embryos measure time. |
Q42663340 | Regionalized metabolic activity establishes boundaries of retinoic acid signalling |
Q52210841 | Regulation of Oct-4 gene expression during differentiation of EC cells. |
Q34437193 | Retinoic acid determines the precise tissue tropism of inflammatory Th17 cells in the intestine. |
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Q41034404 | Retinoic acid receptor isoform beta 2 is an early marker for alimentary tract and central nervous system positional specification in the chicken |
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Q33560599 | Segment-specific pattern of sympathetic preganglionic projections in the chicken embryo spinal cord is altered by retinoids |
Q40696250 | Specification and segmentation of the paraxial mesoderm. |
Q47687368 | Stable, position-related responses to retinoic acid by chick limb-bud mesenchymal cells in serum-free cultures |
Q48084654 | Stage and tissue-specific expression of the alcohol dehydrogenase 1 (Adh-1) gene during mouse development. |
Q40756402 | The effect of vitamin A (retinoids) on pattern formation implies a uniformity of developmental mechanisms throughout the animal kingdom |
Q28346042 | The retinoic acid-inactivating enzyme CYP26 is essential for establishing an uneven distribution of retinoic acid along the anterio-posterior axis within the mouse embryo |
Q35153503 | The retinoid X receptor ligand, 9-cis-retinoic acid, is a potential regulator of early Xenopus development |
Q28752508 | Unexpected activities of Smad7 in Xenopus mesodermal and neural induction |
Q49036731 | Vitamin A-deficient quail embryos have half a hindbrain and other neural defects |
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