scholarly article | Q13442814 |
P50 | author | Jennifer L. Moran | Q37651649 |
P2093 | author name string | Shyamala Mani | |
John M Levorse | |||
Thomas F Vogt | |||
Dawn M Walker | |||
Susan E Cole | |||
Emily T Shifley | |||
Ariadna Perez-Balaguer | |||
Kristin Ostmann | |||
P2860 | cites work | A family of mammalian Fringe genes implicated in boundary determination and the Notch pathway | Q24310459 |
The mouse Engrailed-1 gene and ventral limb patterning | Q24336735 | ||
Fringe boundaries coincide with Notch-dependent patterning centres in mammals and alter Notch-dependent development in Drosophila | Q28115115 | ||
Fringe is a glycosyltransferase that modifies Notch | Q28143123 | ||
Manic fringe and lunatic fringe modify different sites of the Notch2 extracellular region, resulting in different signaling modulation | Q28188343 | ||
A mouse model of Alagille syndrome: Notch2 as a genetic modifier of Jag1 haploinsufficiency | Q28203380 | ||
The mouse Fgf8 gene encodes a family of polypeptides and is expressed in regions that direct outgrowth and patterning in the developing embryo | Q28302373 | ||
Wnt-3a regulates somite and tailbud formation in the mouse embryo | Q28504870 | ||
Lunatic fringe null female mice are infertile due to defects in meiotic maturation | Q28506185 | ||
Lunatic and manic fringe cooperatively enhance marginal zone B cell precursor competition for delta-like 1 in splenic endothelial niches | Q28508335 | ||
Fringe glycosyltransferases differentially modulate Notch1 proteolysis induced by Delta1 and Jagged1 | Q28509366 | ||
Oscillatory lunatic fringe activity is crucial for segmentation of the anterior but not posterior skeleton | Q28510529 | ||
Segmentation defects of Notch pathway mutants and absence of a synergistic phenotype in lunatic fringe/radical fringe double mutant mice | Q28512351 | ||
Failure of blood-island formation and vasculogenesis in Flk-1-deficient mice | Q28593600 | ||
Disruption of Krox-20 results in alteration of rhombomeres 3 and 5 in the developing hindbrain | Q28594355 | ||
Efficient in vivo manipulation of mouse genomic sequences at the zygote stage | Q29547306 | ||
Sonic hedgehog mediates the polarizing activity of the ZPA | Q29616565 | ||
Fringe modifies O-fucose on mouse Notch1 at epidermal growth factor-like repeats within the ligand-binding site and the Abruptex region | Q34165262 | ||
Multiple developmental defects in Engrailed-1 mutant mice: an early mid-hindbrain deletion and patterning defects in forelimbs and sternum | Q34323246 | ||
Perinatal lethality and defects in hindbrain development in mice homozygous for a targeted mutation of the zinc finger gene Krox20. | Q34343668 | ||
Segment-specific expression of a zinc-finger gene in the developing nervous system of the mouse. | Q34561526 | ||
Mouse duplicate genes are as essential as singletons | Q34636141 | ||
A deficiency of lunatic fringe is associated with cystic dilation of the rete testis | Q34830849 | ||
Hierarchy of Notch-Delta interactions promoting T cell lineage commitment and maturation | Q36229695 | ||
Of chicken wings and frog legs: a smorgasbord of evolutionary variation in mechanisms of tetrapod limb development. | Q36295692 | ||
MFng is dispensable for mouse pancreas development and function | Q37145399 | ||
Role of unusual O-glycans in intercellular signaling | Q37308624 | ||
Fringe differentially modulates Jagged1 and Delta1 signalling through Notch1 and Notch2. | Q40862987 | ||
Glycosyltransferase activity of Fringe modulates Notch-Delta interactions. | Q45345395 | ||
Modulation of Notch Signaling During Somitogenesis | Q46419557 | ||
Lunatic fringe protein processing by proprotein convertases may contribute to the short protein half-life in the segmentation clock | Q46427203 | ||
Radical fringe positions the apical ectodermal ridge at the dorsoventral boundary of the vertebrate limb | Q46444960 | ||
Regions of Drosophila Notch that contribute to ligand binding and the modulatory influence of Fringe. | Q46580662 | ||
Lunatic fringe, manic fringe, and radical fringe recognize similar specificity determinants in O-fucosylated epidermal growth factor-like repeats | Q46749922 | ||
The chick limbless mutation causes abnormalities in limb bud dorsal-ventral patterning: implications for the mechanism of apical ridge formation. | Q46783801 | ||
Notch activation regulates the segregation and differentiation of rhombomere boundary cells in the zebrafish hindbrain | Q47073773 | ||
lunatic fringe is an essential mediator of somite segmentation and patterning | Q47741550 | ||
Defects in somite formation in lunatic fringe-deficient mice | Q47741558 | ||
Distinct WNT pathways regulating AER formation and dorsoventral polarity in the chick limb bud. | Q48037226 | ||
Expression of Radical fringe in limb-bud ectoderm regulates apical ectodermal ridge formation. | Q48052345 | ||
Segmental and neuronal architecture of the hindbrain of Krox-20 mouse mutants. | Q48783715 | ||
Regulation of T lymphopoiesis by Notch1 and Lunatic fringe-mediated competition for intrathymic niches. | Q50937939 | ||
Subversion of the T/B lineage decision in the thymus by lunatic fringe-mediated inhibition of Notch-1. | Q51063485 | ||
Bile duct proliferation in Jag1/fringe heterozygous mice identifies candidate modifiers of the Alagille syndrome hepatic phenotype. | Q51946283 | ||
Preparation of PCR-quality mouse genomic DNA with hot sodium hydroxide and tris (HotSHOT). | Q52166624 | ||
Analysis of the genetic pathway leading to formation of ectopic apical ectodermal ridges in mouse Engrailed-1 mutant limbs. | Q52188267 | ||
Mouse Wnt genes exhibit discrete domains of expression in the early embryonic CNS and limb buds. | Q52223119 | ||
Distributed robustness versus redundancy as causes of mutational robustness. | Q52654713 | ||
Limbs move beyond the Radical fringe | Q58997355 | ||
Homeotic transformations of murine vertebrae and concomitant alteration of Hox codes induced by retinoic acid | Q68317251 | ||
P433 | issue | 7 | |
P304 | page(s) | 1803-1812 | |
P577 | publication date | 2009-07-01 | |
P1433 | published in | Developmental Dynamics | Q59752 |
P1476 | title | Manic fringe is not required for embryonic development, and fringe family members do not exhibit redundant functions in the axial skeleton, limb, or hindbrain | |
P478 | volume | 238 |
Q30442278 | A phenotype survey of 36 mutant mouse strains with gene-targeted defects in glycosyltransferases or glycan-binding proteins |
Q40036216 | Deciphering the Fringe-Mediated Notch Code: Identification of Activating and Inhibiting Sites Allowing Discrimination between Ligands |
Q50426445 | Do as I say, Not(ch) as I do: Lateral control of cell fate. |
Q56890487 | Evolutionary emergence of the // regulatory cluster refined mechanisms for hindbrain boundaries formation |
Q37560132 | Fine-tuning of Notch signaling sets the boundary of the organ of Corti and establishes sensory cell fates |
Q36389083 | Lunatic, Manic, and Radical Fringe Each Promote T and B Cell Development |
Q37052329 | Notch signaling during cell fate determination in the inner ear. |
Q35030924 | Protein O-fucosyltransferase 1 (Pofut1) regulates lymphoid and myeloid homeostasis through modulation of Notch receptor ligand interactions |
Q55168104 | Radical and lunatic fringes modulate notch ligands to support mammalian intestinal homeostasis. |
Q34030111 | Role of glycans and glycosyltransferases in the regulation of Notch signaling |
Q64979292 | Roles for Golgi Glycans in Oogenesis and Spermatogenesis. |
Q34023789 | Roles of Glycosylation in Notch Signaling |
Q39752995 | Sequential Notch activation regulates ventricular chamber development |
Q24299571 | Slc35c2 promotes Notch1 fucosylation and is required for optimal Notch signaling in mammalian cells |
Q38116930 | The molecular basis of human congenital limb malformations |
Q38547337 | The multiple roles of epidermal growth factor repeat O-glycans in animal development |
Q38796983 | What Have We Learned from Glycosyltransferase Knockouts in Mice? |