Papers associated with heart

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	A convergent molecular network underlying autism and congenital heart disease., Rosenthal SB., Cell Syst. November 17, 2021; 12 (11): 1094-1107.e6.
	Pharmacological modulation of the cAMP signaling of two isoforms of melanocortin-3 receptor by melanocortin receptor accessory proteins in the tetrapod Xenopus laevis., Xu Y., Endocr Connect. November 15, 2021; 10 (11): 1477-1488.
	Tbx5 drives Aldh1a2 expression to regulate a RA-Hedgehog-Wnt gene regulatory network coordinating cardiopulmonary development., Rankin SA, Rankin SA., Elife. October 13, 2021; 10
	Comparison of the histology and stiffness of ventricles in Anura of different habitats., Ito M., J Biol Phys. September 1, 2021; 47 (3): 287-300.
	DLG5 variants are associated with multiple congenital anomalies including ciliopathy phenotypes., Marquez J., J Med Genet. July 1, 2021; 58 (7): 453-464.
	Fosl1 is vital to heart regeneration upon apex resection in adult Xenopus tropicalis., Wu HY., NPJ Regen Med. June 29, 2021; 6 (1): 36.
	The gastrin-releasing peptide/bombesin system revisited by a reverse-evolutionary study considering Xenopus., Hirooka A., Sci Rep. June 25, 2021; 11 (1): 13315.
	Altering metabolite distribution at Xenopus cleavage stages affects left-right gene expression asymmetries., Onjiko RM., Genesis. June 1, 2021; 59 (5-6): e23418.
	Reconstitution of β-adrenergic regulation of CaV1.2: Rad-dependent and Rad-independent protein kinase A mechanisms., Katz M., Proc Natl Acad Sci U S A. May 25, 2021; 118 (21):
	Adrenomedullin 2 and 5 activate the calcitonin receptor-like receptor (clr) - Receptor activity-modifying protein 3 (ramp3) receptor complex in Xenopus tropicalis., Ogoshi M., Gen Comp Endocrinol. May 15, 2021; 306 113752.
	Potential reproductive toxicity of multi-walled carbon nanotubes and their chronic exposure effects on the growth and development of Xenopus tropicalis., Zhao J., Sci Total Environ. April 20, 2021; 766 142652.
	RNA demethylation by FTO stabilizes the FOXJ1 mRNA for proper motile ciliogenesis., Kim H., Dev Cell. April 19, 2021; 56 (8): 1118-1130.e6.
	Bioelectric signaling: Reprogrammable circuits underlying embryogenesis, regeneration, and cancer., Levin M., Cell. April 15, 2021;
	Control of blood volume following hypovolemic challenge in vertebrates: Transcapillary versus lymphatic mechanisms., Hillman SS., Comp Biochem Physiol A Mol Integr Physiol. April 1, 2021; 254 110878.
	Using an aquatic model, Xenopus laevis, to uncover the role of chromodomain 1 in craniofacial disorders., Wyatt BH., Genesis. February 1, 2021; 59 (1-2): e23394.
	Molecular Mechanism of Autosomal Recessive Long QT-Syndrome 1 without Deafness., Oertli A., Int J Mol Sci. January 23, 2021; 22 (3):
	Non-dioxin-like polychlorinated biphenyl 19 has distinct effects on human Kv1.3 and Kv1.5 channels., Kim JH., Toxicol Appl Pharmacol. January 15, 2021; 411 115365.
	Derivation of proliferative islet1-positive cells during metamorphosis and wound response in Xenopus., Umezawa S., Histochem Cell Biol. January 1, 2021; 155 (1): 133-143.
	Nucleoporin NUP205 plays a critical role in cilia and congenital disease., Marquez J., Dev Biol. January 1, 2021; 469 46-53.
	Transcriptional regulatory elements of hif1α in a distal locus of islet1 in Xenopus laevis., Miyakawa M., Comp Biochem Physiol B Biochem Mol Biol. January 1, 2021; 255 110598.
	Xenopus as a platform for discovery of genes relevant to human disease., Kostiuk V., Curr Top Dev Biol. January 1, 2021; 145 277-312.
	Mechanosensitive TREK-1 two-pore-domain potassium (K2P) channels in the cardiovascular system., Wiedmann F., Prog Biophys Mol Biol. January 1, 2021; 159 126-135.
	Membrane cholesterol regulates TRPV4 function, cytoskeletal expression, and the cellular response to tension., Lakk M., J Lipid Res. January 1, 2021; 62 100145.
	FAM83F regulates canonical Wnt signalling through an interaction with CK1α., Dunbar K., Life Sci Alliance. December 24, 2020; 4 (2):
	Xenopus gpx3 Mediates Posterior Development by Regulating Cell Death during Embryogenesis., Lee H, Lee H., Antioxidants (Basel). December 12, 2020; 9 (12):
	X-box-binding protein 1 is required for pancreatic development in Xenopus laevis., Yang J., Acta Biochim Biophys Sin (Shanghai). December 11, 2020; 52 (11): 1215-1226.
	In Xenopus ependymal cilia drive embryonic CSF circulation and brain development independently of cardiac pulsatile forces., Dur AH., Fluids Barriers CNS. December 11, 2020; 17 (1): 72.
	Disease-associated HCN4 V759I variant is not sufficient to impair cardiac pacemaking., Erlenhardt N., Pflugers Arch. December 1, 2020; 472 (12): 1733-1742.
	STRAP regulates alternative splicing fidelity during lineage commitment of mouse embryonic stem cells., Jin L., Nat Commun. November 23, 2020; 11 (1): 5941.
	R-spondins are BMP receptor antagonists in Xenopus early embryonic development., Lee H, Lee H., Nat Commun. November 4, 2020; 11 (1): 5570.
	Caveolin 1 is required for axonal outgrowth of motor neurons and affects Xenopus neuromuscular development., Breuer M., Sci Rep. October 5, 2020; 10 (1): 16446.
	Accumulation and toxicity of multi-walled carbon nanotubes in Xenopus tropicalis tadpoles., Zhao J., Chemosphere. October 1, 2020; 257 127205.
	MicroRNA expression in the heart of Xenopus laevis facilitates metabolic adaptation to dehydration., Hawkins LJ., Genomics. September 1, 2020; 112 (5): 3525-3536.
	Contribution of Monocarboxylate Transporter 6 to the Pharmacokinetics and Pharmacodynamics of Bumetanide in Mice., Jones RS., Drug Metab Dispos. September 1, 2020; 48 (9): 788-795.
	Inhibition of cardiac Kv4.3 (Ito) channel isoforms by class I antiarrhythmic drugs lidocaine and mexiletine., Rahm AK., Eur J Pharmacol. August 5, 2020; 880 173159.
	TRPM6 and TRPM7: Novel players in cell intercalation during vertebrate embryonic development., Runnels LW., Dev Dyn. August 1, 2020; 249 (8): 912-923.
	POPDC2 a novel susceptibility gene for conduction disorders., Rinné S., J Mol Cell Cardiol. August 1, 2020; 145 74-83.
	From biomechanics to mechanobiology: Xenopus provides direct access to the physical principles that shape the embryo., Chu CW., Curr Opin Genet Dev. August 1, 2020; 63 71-77.
	The hERG channel activator, RPR260243, enhances protective IKr current early in the refractory period reducing arrhythmogenicity in zebrafish hearts., Shi YP., Am J Physiol Heart Circ Physiol. August 1, 2020; 319 (2): H251-H261.
	Defective heart chamber growth and myofibrillogenesis after knockout of adprhl1 gene function by targeted disruption of the ancestral catalytic active site., Smith SJ., PLoS One. July 29, 2020; 15 (7): e0235433.
	Novel truncating mutations in CTNND1 cause a dominant craniofacial and cardiac syndrome., Alharatani R., Hum Mol Genet. July 21, 2020; 29 (11): 1900-1921.
	Interplay of TRIM2 E3 Ubiquitin Ligase and ALIX/ESCRT Complex: Control of Developmental Plasticity During Early Neurogenesis., Lokapally A., Cells. July 20, 2020; 9 (7):
	A PIP2 substitute mediates voltage sensor-pore coupling in KCNQ activation., Liu Y., Commun Biol. July 16, 2020; 3 (1): 385.
	The neurodevelopmental disorder risk gene DYRK1A is required for ciliogenesis and control of brain size in Xenopus embryos., Willsey HR., Development. June 22, 2020; 147 (21):
	The HCN domain is required for HCN channel cell-surface expression and couples voltage- and cAMP-dependent gating mechanisms., Wang ZJ., J Biol Chem. June 12, 2020; 295 (24): 8164-8173.
	9.4 MHz A-line rate optical coherence tomography at 1300 nm using a wavelength-swept laser based on stretched-pulse active mode-locking., Kim TS., Sci Rep. June 9, 2020; 10 (1): 9328.
	Xenopus: Experimental Access to Cardiovascular Development, Regeneration Discovery, and Cardiovascular Heart-Defect Modeling., Hoppler S., Cold Spring Harb Perspect Biol. June 1, 2020; 12 (6):
	Effect of salinity acclimation on osmoregulation, oxidative stress, and metabolic enzymes in the invasive Xenopus laevis., Hidalgo J., J Exp Zool A Ecol Integr Physiol. June 1, 2020; 333 (5): 333-340.
	Swimming toward solutions: Using fish and frogs as models for understanding RASopathies., Patterson VL., Birth Defects Res. June 1, 2020; 112 (10): 749-765.
	A lower X-gate in TASK channels traps inhibitors within the vestibule., Rödström KEJ., Nature. June 1, 2020; 582 (7812): 443-447.

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