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Gene/Clone	Species	Stage	Anatomy Item	Experimenter
tpm1	xenopus		muscle [+] myocyte,secondary myofiber

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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	myocardium	immunohistochemistry
Goetz SC et al. (2006) Assay	laevis	1 image	NF stage 27 to NF stage 37 and 38	myocardium	in situ hybridization
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	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	muscle, myocardium	immunohistochemistry
Meadows SM et al. (2008) Assay Paper	laevis	2 images	NF stage 22 to NF stage 23	muscle, skeletal muscle	in situ hybridization
Langdon Y et al. (2012) Assay	laevis	2 images	NF stage 33 and 34 to NF stage 37 and 38	cardiac myocyte, myocardium	immunohistochemistry
TBX5 is required for embryonic cardiac cell cycle progression.	laevis	1 image	NF stage 33 and 34	epaxial muscle, muscle, myocardium, skeletal muscle	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 20 to NF stage 40	epaxial muscle, muscle, skeletal muscle	in situ hybridization
Xenopus muscle development: from primary to secondary myogenesis. Paper	laevis	1 image	NF stage 54	muscle, myocyte, skeletal muscle, skeletal myocyte	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	myocardium	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	myocardium	in situ hybridization
Movassagh M and Philpott A (2008) Assay	laevis	4 images	NF stage 33 and 34	cardiac myocyte	immunohistochemistry
Skeletal muscle differentiation and fusion are regulated by the BAR-containing Rho-GTPase-activating protein (Rho-GAP), GRAF1.	laevis	1 image	NF stage 29 and 30 to NF stage 37 and 38	muscle	immunohistochemistry
Skeletal muscle differentiation and fusion are regulated by the BAR-containing Rho-GTPase-activating protein (Rho-GAP), GRAF1.	laevis	1 image	NF stage 33 and 34	muscle	immunohistochemistry
Marshall L et al. (2017) Assay Paper	laevis	3 images	adult frog stage	cardiac myocyte, myocardium	immunohistochemistry
The Lhx9-integrin pathway is essential for positioning of the proepicardial organ.	laevis	1 image	NF stage 45	cardiac myocyte	immunohistochemistry
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	immunohistochemistry
Dual mechanisms governing muscle cell death in tadpole tail during amphibian metamorphosis.	laevis	1 image	NF stage 54 to NF stage 65	muscle	immunohistochemistry
NIH_XGC_tropSkeMus1 Unigene tropicalis cDNA library Xenopus IMAGE cDNA Library	tropicalis		unspecified stage	skeletal muscle	cDNA Library

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