scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1024392248 |
P356 | DOI | 10.1186/2041-9139-5-14 |
P8608 | Fatcat ID | release_7vo2bm5sc5fglgs3q2qgfdbxei |
P932 | PMC publication ID | 4021614 |
P698 | PubMed publication ID | 24708787 |
P5875 | ResearchGate publication ID | 261442169 |
P50 | author | Graham Budd | Q5589492 |
Alistair P McGregor | Q57320590 | ||
P2093 | author name string | Ralf Janssen | |
Anna Schönauer | |||
Nico Posnien | |||
Mattias Hogvall | |||
P2860 | cites work | A world checklist of Onychophora (velvet worms), with notes on nomenclature and status of names | Q19329389 |
Generating patterns from fields of cells. Examples from Drosophila segmentation | Q24522635 | ||
Early development in the velvet worm Euperipatoides kanangrensis Reid 1996 (Onychophora: Peripatopsidae) | Q24604456 | ||
MicroRNAs and phylogenomics resolve the relationships of Tardigrada and suggest that velvet worms are the sister group of Arthropoda | Q24635861 | ||
Homologs of wingless and decapentaplegic display a complex and dynamic expression profile during appendage development in the millipede Glomeris marginata (Myriapoda: Diplopoda) | Q24804533 | ||
MRBAYES: Bayesian inference of phylogenetic trees | Q27860538 | ||
T-Coffee: A novel method for fast and accurate multiple sequence alignment | Q27860999 | ||
Mutations affecting segment number and polarity in Drosophila | Q28273492 | ||
SeaView version 4: A multiplatform graphical user interface for sequence alignment and phylogenetic tree building | Q29547665 | ||
Onychophoran Hox genes and the evolution of arthropod Hox gene expression | Q33588969 | ||
Separable functions of wingless in distal and ventral patterning of the Tribolium leg. | Q33609779 | ||
Conservation, loss, and redeployment of Wnt ligands in protostomes: implications for understanding the evolution of segment formation. | Q33759926 | ||
Molecular cloning of sequences from wingless, a segment polarity gene in Drosophila: the spatial distribution of a transcript in embryos. | Q33929225 | ||
Seven Wnt homologues in Drosophila: a case study of the developing tracheae | Q33951975 | ||
Evolutionary dynamics of the wnt gene family: a lophotrochozoan perspective | Q34029804 | ||
WntD is a feedback inhibitor of Dorsal/NF-kappaB in Drosophila development and immunity | Q34081894 | ||
Head patterning and Hox gene expression in an onychophoran and its implications for the arthropod head problem | Q34122008 | ||
Segmentation | Q34347770 | ||
Wingless/Wnt signaling in Drosophila: the pattern and the pathway | Q34378843 | ||
Hox gene expression in the harvestman Phalangium opilio reveals divergent patterning of the chelicerate opisthosoma | Q34402926 | ||
The involvement of engrailed and wingless during segmentation in the onychophoran Euperipatoides kanangrensis (Peripatopsidae: Onychophora) (Reid 1996). | Q34980507 | ||
Hox genes and the evolution of the arthropod body plan | Q35030473 | ||
hedgehog is a segment polarity gene in a crustacean and a chelicerate | Q35886737 | ||
Cell patterning in the Drosophila segment: engrailed and wingless antigen distributions in segment polarity mutant embryos | Q72104022 | ||
Interplay between a Wnt-dependent organiser and the Notch segmentation clock regulates posterior development in Periplaneta americana | Q36619310 | ||
DWnt-4, a novel Drosophila Wnt gene acts downstream of homeotic complex genes in the visceral mesoderm. | Q36717073 | ||
Evolutionary conservation and divergence of the segmentation process in arthropods | Q36794463 | ||
Multiple Wnt genes are required for segmentation in the short-germ embryo of Tribolium castaneum | Q37016143 | ||
The evolution of developmental gene networks: lessons from comparative studies on holometabolous insects | Q37042448 | ||
Function of the wingless signaling pathway in Drosophila | Q37358515 | ||
Parallel evolution of segmentation by co-option of ancestral gene regulatory networks | Q37658613 | ||
The function and evolution of Wnt genes in arthropods. | Q37777826 | ||
The gap gene network. | Q37798472 | ||
Toward new Drosophila paradigms. | Q37986637 | ||
A context-dependent combination of Wnt receptors controls axis elongation and leg development in a short germ insect. | Q38645871 | ||
Tribolium Wnts: evidence for a larger repertoire in insects with overlapping expression patterns that suggest multiple redundant functions in embryogenesis. | Q38916054 | ||
Evidence for Wg-independent tergite boundary formation in the millipede Glomeris marginata | Q40075577 | ||
Signaling by wingless in Drosophila | Q40564670 | ||
The Drosophila Wnt protein DWnt-3 is a secreted glycoprotein localized on the axon tracts of the embryonic CNS. | Q41362697 | ||
An ancestral regulatory network for posterior development in arthropods. | Q42195390 | ||
Functional analyses in the milkweed bug Oncopeltus fasciatus (Hemiptera) support a role for Wnt signaling in body segmentation but not appendage development | Q42479427 | ||
Parasegmental organization of the spider embryo implies that the parasegment is an evolutionary conserved entity in arthropod embryogenesis. | Q42518117 | ||
The expression of the proximodistal axis patterning genes Distal-less and dachshund in the appendages of Glomeris marginata (Myriapoda: Diplopoda) suggests a special role of these genes in patterning the head appendages | Q42604505 | ||
Hedgehog signaling pathway function conserved in Tribolium segmentation. | Q43111682 | ||
Expression patterns of Wnt genes in the venom claws of centipedes. | Q43667045 | ||
Deciphering the onychophoran 'segmentation gene cascade': Gene expression reveals limited involvement of pair rule gene orthologs in segmentation, but a highly conserved segment polarity gene network | Q44274992 | ||
Diverged and conserved aspects of heart formation in a spider | Q44328295 | ||
The Drosophila hedgehog gene is expressed specifically in posterior compartment cells and is a target of engrailed regulation | Q45254265 | ||
Isolation and expression of two novel Wnt/wingless gene homologues in Drosophila | Q45974321 | ||
Identification and embryonic expression of Wnt2, Wnt4, Wnt5 and Wnt9 in the millipede Glomeris marginata (Myriapoda: Diplopoda). | Q46501503 | ||
Regulation of segment polarity genes in the Drosophila blastoderm by fushi tarazu and even skipped | Q46801068 | ||
Drosophila WntD is a target and an inhibitor of the Dorsal/Twist/Snail network in the gastrulating embryo | Q47071445 | ||
The Tbx20 homologs midline and H15 specify ventral fate in the Drosophila melanogaster leg. | Q47071640 | ||
Wnt8 is required for growth-zone establishment and development of opisthosomal segments in a spider | Q47649197 | ||
Involvement of Wingless/Armadillo signaling in the posterior sequential segmentation in the cricket, Gryllus bimaculatus (Orthoptera), as revealed by RNAi analysis | Q47904511 | ||
Loss of Tc-arrow and canonical Wnt signaling alters posterior morphology and pair-rule gene expression in the short-germ insect, Tribolium castaneum. | Q50599118 | ||
The centipede Strigamia maritima possesses a large complement of Wnt genes with diverse expression patterns. | Q50668814 | ||
The roles of wingless and decapentaplegic in axis and appendage development in the red flour beetle, Tribolium castaneum. | Q50737180 | ||
Segment polarity gene expression in a myriapod reveals conserved and diverged aspects of early head patterning in arthropods. | Q50789617 | ||
Gene expression patterns in an onychophoran reveal that regionalization predates limb segmentation in pan-arthropods. | Q51904637 | ||
The T-box genes H15 and optomotor-blind in the spiders Cupiennius salei, Tegenaria atrica and Achaearanea tepidariorum and the dorsoventral axis of arthropod appendages. | Q51962846 | ||
Evolution of dorsal-ventral axis formation in arthropod appendages: H15 and optomotor-blind/bifid-type T-box genes in the millipede Glomeris marginata (Myriapoda: Diplopoda). | Q52060680 | ||
Gene expression suggests decoupled dorsal and ventral segmentation in the millipede Glomeris marginata (Myriapoda: Diplopoda). | Q52091823 | ||
Exploring myriapod segmentation: the expression patterns of even-skipped, engrailed, and wingless in a centipede. | Q52118424 | ||
Expression of DWnt6, DWnt10, and DFz4 during Drosophila development. | Q52135852 | ||
Genes affecting the segmental subdivision of the Drosophila embryo. | Q52465840 | ||
Evolution of distinct expression patterns for engrailed paralogues in higher crustaceans (Malacostraca). | Q52585797 | ||
Segment boundary formation inDrosophilaembryos | Q52640725 | ||
The ten Hox genes of the millipede Glomeris marginata. | Q52669751 | ||
P433 | issue | 1 | |
P304 | page(s) | 14 | |
P577 | publication date | 2014-04-03 | |
P1433 | published in | EvoDevo | Q15816653 |
P1476 | title | Analysis of the Wnt gene repertoire in an onychophoran provides new insights into the evolution of segmentation | |
P478 | volume | 5 |