Search Criteria |
Gene/Clone | Species | Stage | Anatomy Item | Experimenter |
---|---|---|---|---|
tpm1 | xenopus | cardiac mesoderm [+] |
Too many results?Too few results?
Expression summary for tpm1
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Experiment | Species | Images | Stages | Anatomy | Assay |
Goetz SC et al. (2006) Assay
|
xenopus |
1 image |
NF stage 27 to NF stage 37 and 38 | myocardium | immunohistochemistry |
Goetz SC et al. (2006) Assay
|
laevis |
1 image |
NF stage 27 to NF stage 37 and 38 | heart, myocardium | immunohistochemistry |
Goetz SC et al. (2006) Assay
|
laevis |
1 image |
NF stage 27 to NF stage 37 and 38 | myocardium | in situ hybridization |
Langdon YG et al. (2007) Assay
|
laevis |
1 image |
NF stage 22 to NF stage 37 and 38 | heart | immunohistochemistry |
TBX5 is required for embryonic cardiac cell cycle progression.
Paper |
laevis |
1 image |
NF stage 33 and 34 | myocardium | in situ hybridization |
The BMP pathway acts to directly regulate Tbx20 in the developing heart.
Paper |
laevis |
1 image |
NF stage 46 | myocardium | in situ hybridization |
Tbx5 and Tbx20 act synergistically to control vertebrate heart morphogenesis.
|
laevis |
1 image |
NF stage 37 and 38 | heart, myocardium | immunohistochemistry |
Response kinetics and pharmacological properties of heteromeric receptors formed by coassembly of GABA rho- and gamma 2-subun...
Paper |
laevis |
2 images |
NF stage 26 to NF stage 33 and 34 | heart, heart primordium, myocardium | immunohistochemistry |
SHP-2 acts via ROCK to regulate the cardiac actin cytoskeleton.
|
laevis |
1 image |
NF stage 35 and 36 | heart, left atrium, outflow tract, ventricular outflow tract | immunohistochemistry |
Langdon Y et al. (2012) Assay
|
laevis |
2 images |
NF stage 33 and 34 to NF stage 37 and 38 | cardiac myocyte, heart, myocardium | immunohistochemistry |
TBX5 is required for embryonic cardiac cell cycle progression.
|
laevis |
1 image |
NF stage 33 and 34 | heart, myocardium | immunohistochemistry |
Two skeletal alpha-tropomyosin transcripts with distinct 3''UTR have different temporal and spatial patterns of expression i...
Paper |
laevis |
1 image |
NF stage 39 to NF stage 40 | heart | in situ hybridization |
Activation of cardiac gene expression by myocardin, a transcriptional cofactor for serum response factor.
Paper |
laevis |
1 image |
NF stage 28 | cardiac mesoderm, heart | in situ hybridization |
Vertebrate CASTOR is required for differentiation of cardiac precursor cells at the ventral midline.
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 32 | heart, myocardium, primary heart field | immunohistochemistry |
Vertebrate CASTOR is required for differentiation of cardiac precursor cells at the ventral midline.
Paper |
laevis |
1 image |
NF stage 29 and 30 to NF stage 32 | heart, myocardium | in situ hybridization |
Movassagh M and Philpott A (2008) Assay
|
laevis |
4 images |
NF stage 33 and 34 | cardiac myocyte, heart | immunohistochemistry |
Marshall L et al. (2017) Assay
Paper |
laevis |
3 images |
adult frog stage | cardiac myocyte, heart, myocardium | immunohistochemistry |
The Lhx9-integrin pathway is essential for positioning of the proepicardial organ.
|
laevis |
1 image |
NF stage 45 | cardiac myocyte, heart | immunohistochemistry |
The BMP pathway acts to directly regulate Tbx20 in the developing heart.
Paper |
laevis |
1 image |
NF stage 40 | heart | in situ hybridization |
Spatiotemporally Controlled Mechanical Cues Drive Progenitor Mesenchymal-to-Epithelial Transition Enabling Proper Heart Form...
|
laevis |
3 images |
NF stage 28 to NF stage 32 | cardiac myocyte, endocardial tube, primary heart field | immunohistochemistry |
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