| Search Criteria |
| Gene/Clone | Species | Stage | Anatomy Item | Experimenter |
|---|---|---|---|---|
| nkx2-5 | xenopus | myocardium [+] |
Too many results?Too few results?
Expression summary for nkx2-5
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| Experiment | Species | Images | Stages | Anatomy | Assay |
|
Brade T et al. (2007) Assay
Paper |
laevis |
1 image |
NF stage 33 and 34 | myocardium | in situ hybridization |
|
Gessert S and Kühl M (2009) Assay
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 31 | myocardium | in situ hybridization |
|
Paper |
laevis |
1 image |
NF stage 39 | myocardium | in situ hybridization |
|
Paper |
laevis |
1 image |
NF stage 41 | myocardium | in situ hybridization |
|
Paper |
laevis |
1 image |
NF stage 45 | myocardium | in situ hybridization |
|
Cardiac specific expression of Xenopus Popeye-1.
Paper |
laevis |
1 image |
NF stage 33 and 34 to NF stage 35 and 36 | myocardium | in situ hybridization |
|
Regulation of the tinman homologues in Xenopus embryos.
Paper |
laevis |
1 image |
NF stage 27 to NF stage 32 | myocardium | in situ hybridization |
|
Regulation of the tinman homologues in Xenopus embryos.
Paper |
laevis |
1 image |
NF stage 27 to NF stage 40 | myocardium | in situ hybridization |
|
Subdivision of the cardiac Nkx2.5 expression domain into myogenic and nonmyogenic compartments.
Paper |
xenopus |
1 image |
NF stage 22 to NF stage 28 | myocardium | in situ hybridization |
|
A role for GATA-4/5/6 in the regulation of Nkx2.5 expression with implications for patterning of the precardiac field.
Paper |
xenopus |
1 image |
NF stage 35 and 36 | myocardium | in situ hybridization |
|
Lee YH and Saint-Jeannet JP (2011) Assay
Paper |
laevis |
1 image |
NF stage 41 | myocardium | in situ hybridization |
|
Retinoic acid can block differentiation of the myocardium after heart specification.
Paper |
laevis |
1 image |
NF stage 32 | myocardium | in situ hybridization |
|
Early cardiac morphogenesis defects caused by loss of embryonic macrophage function in Xenopus.
Paper |
laevis |
1 image |
NF stage 25 | myocardium | in situ hybridization |
|
Cardiac neural crest is dispensable for outflow tract septation in Xenopus.
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 41 | myocardium | in situ hybridization |
|
Cardiac neural crest is dispensable for outflow tract septation in Xenopus.
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 33 and 34 | myocardium | in situ hybridization |
|
Small EM et al. (2005) Assay
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 33 and 34 | myocardium | in situ hybridization |
|
sfrp1 promotes cardiomyocyte differentiation in Xenopus via negative-feedback regulation of Wnt signalling.
Paper |
laevis |
1 image |
NF stage 32 | myocardium | in situ hybridization |
|
sfrp1 promotes cardiomyocyte differentiation in Xenopus via negative-feedback regulation of Wnt signalling.
Paper |
laevis |
1 image |
NF stage 32 | myocardium | in situ hybridization |
|
XHAPLN3 plays a key role in cardiogenesis by maintaining the hyaluronan matrix around heart anlage.
Paper |
laevis |
1 image |
NF stage 33 and 34 | myocardium | in situ hybridization |
|
Ito Y et al. (2008) Assay
Paper |
laevis |
2 images |
NF stage 33 and 34 | myocardium | in situ hybridization |
|
Kumano G et al. (2006) Assay
Paper |
laevis |
1 image |
NF stage 32 | myocardium | in situ hybridization |
|
Vertebrate tinman homologues XNkx2-3 and XNkx2-5 are required for heart formation in a functionally redundant manner.
Paper |
laevis |
1 image |
NF stage 32 | cardiac myocyte | in situ hybridization |
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