Papers associated with anatomical line

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	Xenopus Ssbp2 is required for embryonic pronephros morphogenesis and terminal differentiation., Cervino AS., Sci Rep. October 4, 2023; 13 (1): 16671.
	Purine Biosynthesis Pathways Are Required for Myogenesis in Xenopus laevis., Duperray M., Cells. September 28, 2023; 12 (19):
	β-Catenin and SOX2 Interaction Regulate Visual Experience-Dependent Cell Homeostasis in the Developing Xenopus Thalamus., Gao J., Int J Mol Sci. September 2, 2023; 24 (17):
	Characteristic tetraspanin expression patterns mark various tissues during early Xenopus development., Kuriyama S., Dev Growth Differ. February 1, 2023; 65 (2): 109-119.
	HMCES modulates the transcriptional regulation of nodal/activin and BMP signaling in mESCs., Liang T., Cell Rep. July 12, 2022; 40 (2): 111038.
	Systematic mapping of rRNA 2'-O methylation during frog development and involvement of the methyltransferase Fibrillarin in eye and craniofacial development in Xenopus laevis., Delhermite J., PLoS Genet. January 18, 2022; 18 (1): e1010012.
	Temporal and spatial transcriptomic dynamics across brain development in Xenopus laevis tadpoles., Ta AC., G3 (Bethesda). January 4, 2022; 12 (1):
	An early midbrain sensorimotor pathway is involved in the timely initiation and direction of swimming in the hatchling Xenopus laevis tadpole., Larbi MC., Front Neural Circuits. January 1, 2022; 16 1027831.
	The Wnt-specific astacin proteinase HAS-7 restricts head organizer formation in Hydra., Ziegler B., BMC Biol. June 9, 2021; 19 (1): 120.
	Geoffroea decorticans fruit extracts inhibit the wnt/β-catenin pathway, a therapeutic target in cancer., Somaini GC., Biochem Biophys Res Commun. March 26, 2021; 546 118-123.
	Xenopus leads the way: Frogs as a pioneering model to understand the human brain., Exner CRT., Genesis. February 1, 2021; 59 (1-2): e23405.
	R-spondins are BMP receptor antagonists in Xenopus early embryonic development., Lee H, Lee H., Nat Commun. November 4, 2020; 11 (1): 5570.
	Amphibian thalamic nuclear organization during larval development and in the adult frog Xenopus laevis: Genoarchitecture and hodological analysis., Morona R., J Comp Neurol. October 1, 2020; 528 (14): 2361-2403.
	Pinhead signaling regulates mesoderm heterogeneity via the FGF receptor-dependent pathway., Ossipova O., Development. September 11, 2020; 147 (17):
	FERM domain-containing protein 6 identifies a subpopulation of varicose nerve fibers in different vertebrate species., Beck J., Cell Tissue Res. July 1, 2020; 381 (1): 13-24.
	CFAP43 modulates ciliary beating in mouse and Xenopus., Rachev E., Dev Biol. March 15, 2020; 459 (2): 109-125.
	MiR-9 and the Midbrain-Hindbrain Boundary: A Showcase for the Limited Functional Conservation and Regulatory Complexity of MicroRNAs., Alwin Prem Anand A., Front Cell Dev Biol. January 1, 2020; 8 586158.
	Pinhead signaling regulates mesoderm heterogeneity via FGF receptor-dependent pathway., Ossipova O., Development. January 1, 2020;
	Selectivity of (±)-citalopram at nicotinic acetylcholine receptors and different inhibitory mechanisms between habenular α3β4* and α9α10 subtypes., Arias HR., Neurochem Int. December 1, 2019; 131 104552.
	Nucleotide receptor P2RY4 is required for head formation via induction and maintenance of head organizer in Xenopus laevis., Harata A., Dev Growth Differ. February 1, 2019; 61 (2): 186-197.
	WDR5 regulates left-right patterning via chromatin-dependent and -independent functions., Kulkarni SS., Development. November 28, 2018; 145 (23):
	The evolutionary conserved FOXJ1 target gene Fam183b is essential for motile cilia in Xenopus but dispensable for ciliary function in mice., Beckers A., Sci Rep. October 2, 2018; 8 (1): 14678.
	An Early Function of Polycystin-2 for Left-Right Organizer Induction in Xenopus., Vick P., iScience. April 27, 2018; 2 76-85.
	The skeletal ontogeny of Astatotilapia burtoni - a direct-developing model system for the evolution and development of the teleost body plan., Woltering JM., BMC Dev Biol. April 3, 2018; 18 (1): 8.
	Phosphorylation states change Otx2 activity for cell proliferation and patterning in the Xenopus embryo., Satou Y., Development. March 12, 2018; 145 (5):
	Gene expression of the two developmentally regulated dermatan sulfate epimerases in the Xenopus embryo., Gouignard N., PLoS One. January 18, 2018; 13 (1): e0191751.
	Asymmetric development of the nervous system., Alqadah A., Dev Dyn. January 1, 2018; 247 (1): 124-137.
	Identification of Isthmin 1 as a Novel Clefting and Craniofacial Patterning Gene in Humans., Lansdon LA., Genetics. January 1, 2018; 208 (1): 283-296.
	An atlas of Wnt activity during embryogenesis in Xenopus tropicalis., Borday C., PLoS One. January 1, 2018; 13 (4): e0193606.
	Similarity in gene-regulatory networks suggests that cancer cells share characteristics of embryonic neural cells., Zhang Z., J Biol Chem. August 4, 2017; 292 (31): 12842-12859.
	Nodal/Activin Pathway is a Conserved Neural Induction Signal in Chordates., Le Petillon Y., Nat Ecol Evol. August 1, 2017; 1 (8): 1192-1200.
	Caspase-9 has a nonapoptotic function in Xenopus embryonic primitive blood formation., Tran HT., J Cell Sci. July 15, 2017; 130 (14): 2371-2381.
	EphA7 modulates apical constriction of hindbrain neuroepithelium during neurulation in Xenopus., Wang X., Biochem Biophys Res Commun. October 28, 2016; 479 (4): 759-765.
	Expression of ribosomopathy genes during Xenopus tropicalis embryogenesis., Robson A., BMC Dev Biol. October 26, 2016; 16 (1): 38.
	An Evolutionarily Conserved Network Mediates Development of the zona limitans intrathalamica, a Sonic Hedgehog-Secreting Caudal Forebrain Signaling Center., Sena E., J Dev Biol. October 20, 2016; 4 (4):
	Expression of the insulinoma-associated 1 (insm1) gene in Xenopus laevis tadpole retina and brain., Bosse JL., Gene Expr Patterns. September 1, 2016; 22 (1): 26-29.
	Bioelectric signalling via potassium channels: a mechanism for craniofacial dysmorphogenesis in KCNJ2-associated Andersen-Tawil Syndrome., Adams DS., J Physiol. June 15, 2016; 594 (12): 3245-70.
	Measuring Absolute RNA Copy Numbers at High Temporal Resolution Reveals Transcriptome Kinetics in Development., Owens ND., Cell Rep. January 26, 2016; 14 (3): 632-47.
	Nucleoporin gene expression in Xenopus tropicalis embryonic development., Reza N., Int J Dev Biol. January 1, 2016; 60 (4-6): 181-8.
	Hspa9 is required for pronephros specification and formation in Xenopus laevis., Gassié L., Dev Dyn. December 1, 2015; 244 (12): 1538-49.
	T-type Calcium Channel Regulation of Neural Tube Closure and EphrinA/EPHA Expression., Abdul-Wajid S., Cell Rep. October 27, 2015; 13 (4): 829-839.
	Novel Reporter for Faithful Monitoring of ERK2 Dynamics in Living Cells and Model Organisms., Sipieter F., PLoS One. October 20, 2015; 10 (10): e0140924.
	Xenopus Pkdcc1 and Pkdcc2 Are Two New Tyrosine Kinases Involved in the Regulation of JNK Dependent Wnt/PCP Signaling Pathway., Vitorino M., PLoS One. August 13, 2015; 10 (8): e0135504.
	Derricin and derricidin inhibit Wnt/β-catenin signaling and suppress colon cancer cell growth in vitro., Fonseca BF., PLoS One. March 16, 2015; 10 (3): e0120919.
	The serpin PN1 is a feedback regulator of FGF signaling in germ layer and primary axis formation., Acosta H., Development. March 15, 2015; 142 (6): 1146-58.
	The ribosome biogenesis factor Nol11 is required for optimal rDNA transcription and craniofacial development in Xenopus., Griffin JN., PLoS Genet. March 10, 2015; 11 (3): e1005018.
	Prepatterning and patterning of the thalamus along embryonic development of Xenopus laevis., Bandín S., Front Neuroanat. February 3, 2015; 9 107.
	Early development of the neural plate: new roles for apoptosis and for one of its main effectors caspase-3., Juraver-Geslin HA., Genesis. February 1, 2015; 53 (2): 203-24.
	COUP-TFs and eye development., Tang K., Biochim Biophys Acta. February 1, 2015; 1849 (2): 201-9.
	A novel function for Egr4 in posterior hindbrain development., Bae CJ., Sci Rep. January 12, 2015; 5 7750.

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