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Summary Anatomy Item Literature (1851) Expression Attributions Wiki
XB-ANAT-16

Papers associated with hindbrain

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Neuroanatomical distribution of cannabinoid receptor gene expression in the brain of the rough-skinned newt, Taricha granulosa., Hollis DM., Brain Behav Evol. January 1, 2006; 67 (3): 135-49.

The expression and alternative splicing of alpha-neurexins during Xenopus development., Zeng Z., Int J Dev Biol. January 1, 2006; 50 (1): 39-46.                  

Twisted gastrulation is required for forebrain specification and cooperates with Chordin to inhibit BMP signaling during X. tropicalis gastrulation., Wills A., Dev Biol. January 1, 2006; 289 (1): 166-78.                                  

Tsukushi controls ectodermal patterning and neural crest specification in Xenopus by direct regulation of BMP4 and X-delta-1 activity., Kuriyama S., Development. January 1, 2006; 133 (1): 75-88.            

Multiple noggins in vertebrate genome: cloning and expression of noggin2 and noggin4 in Xenopus laevis., Eroshkin FM., Gene Expr Patterns. January 1, 2006; 6 (2): 180-6.              

Regulation of ADMP and BMP2/4/7 at opposite embryonic poles generates a self-regulating morphogenetic field., Reversade B., Cell. December 16, 2005; 123 (6): 1147-60.                      

Adjacent pioneer commissural interneuron growth cones switch from contact avoidance to axon fasciculation after midline crossing., Moon MS., Dev Biol. December 15, 2005; 288 (2): 474-86.                  

Distinct roles for Xenopus Tcf/Lef genes in mediating specific responses to Wnt/beta-catenin signalling in mesoderm development., Liu F., Development. December 1, 2005; 132 (24): 5375-85.          

Zebrafish id2 developmental expression pattern contains evolutionary conserved and species-specific characteristics., Chong SW., Dev Dyn. December 1, 2005; 234 (4): 1055-63.

Hoxa2 knockdown in Xenopus results in hyoid to mandibular homeosis., Baltzinger M., Dev Dyn. December 1, 2005; 234 (4): 858-67.          

Cloning and functional expression of the bovine GABA(C) rho2 subunit. Molecular evidence of a widespread distribution in the CNS., López-Chávez A., Neurosci Res. December 1, 2005; 53 (4): 421-7.

Expression of a novel Ski-like gene in Xenopus development., Seufert DW., Gene Expr Patterns. December 1, 2005; 6 (1): 22-8.    

WNK3 modulates transport of Cl- in and out of cells: implications for control of cell volume and neuronal excitability., Kahle KT., Proc Natl Acad Sci U S A. November 15, 2005; 102 (46): 16783-8.

Regulation of melanoblast and retinal pigment epithelium development by Xenopus laevis Mitf., Kumasaka M., Dev Dyn. November 1, 2005; 234 (3): 523-34.      

The Ca2+-induced methyltransferase xPRMT1b controls neural fate in amphibian embryo., Batut J., Proc Natl Acad Sci U S A. October 18, 2005; 102 (42): 15128-33.                

Phosphorylation of Y14 modulates its interaction with proteins involved in mRNA metabolism and influences its methylation., Hsu IaW., J Biol Chem. October 14, 2005; 280 (41): 34507-12.

Calbindin-D28k immunoreactivity in the spinal cord of Xenopus laevis and its participation in ascending and descending projections., Morona R., Brain Res Bull. September 15, 2005; 66 (4-6): 550-4.

Tetrazolyl isoxazole amino acids as ionotropic glutamate receptor antagonists: synthesis, modelling and molecular pharmacology., Frølund B., Bioorg Med Chem. September 15, 2005; 13 (18): 5391-8.

The growth regulators warts/lats and melted interact in a bistable loop to specify opposite fates in Drosophila R8 photoreceptors., Mikeladze-Dvali T., Cell. September 9, 2005; 122 (5): 775-87.

Reorganization of actin cytoskeleton by FRIED, a Frizzled-8 associated protein tyrosine phosphatase., Itoh K., Dev Dyn. September 1, 2005; 234 (1): 90-101.              

Xenopus as a model organism in developmental chemical genetic screens., Tomlinson ML., Mol Biosyst. September 1, 2005; 1 (3): 223-8.

Structural determinants of agonist-specific kinetics at the ionotropic glutamate receptor 2., Holm MM., Proc Natl Acad Sci U S A. August 23, 2005; 102 (34): 12053-8.

Central amygdala in anuran amphibians: neurochemical organization and connectivity., Moreno N., J Comp Neurol. August 15, 2005; 489 (1): 69-91.

Macroarray-based analysis of tail regeneration in Xenopus laevis larvae., Tazaki A., Dev Dyn. August 1, 2005; 233 (4): 1394-404.                          

Depletion of Bmp2, Bmp4, Bmp7 and Spemann organizer signals induces massive brain formation in Xenopus embryos., Reversade B., Development. August 1, 2005; 132 (15): 3381-92.            

Matrix metalloproteinases are required for retinal ganglion cell axon guidance at select decision points., Hehr CL., Development. August 1, 2005; 132 (15): 3371-9.            

Isolation and comparative expression analysis of the Myc-regulatory proteins Mad1, Mad3, and Mnt during Xenopus development., Juergens K., Dev Dyn. August 1, 2005; 233 (4): 1554-9.                                        

Go G-proteins mediate rapid heterologous desensitization of G-protein coupled receptors in Xenopus oocytes., Van-Ham II., J Cell Physiol. August 1, 2005; 204 (2): 455-62.

The zebrafish shocked gene encodes a glycine transporter and is essential for the function of early neural circuits in the CNS., Cui WW., J Neurosci. July 13, 2005; 25 (28): 6610-20.

Distribution and functional characterization of human Nav1.3 splice variants., Thimmapaya R., Eur J Neurosci. July 1, 2005; 22 (1): 1-9.

Identification of target genes for the Xenopus Hes-related protein XHR1, a prepattern factor specifying the midbrain-hindbrain boundary., Takada H., Dev Biol. July 1, 2005; 283 (1): 253-67.                    

Carboxyl tail cysteine mutants of the thyrotropin-releasing hormone receptor type 1 exhibit constitutive signaling: role of palmitoylation., Du D., Mol Pharmacol. July 1, 2005; 68 (1): 204-9.

Phylogenomic analysis and expression patterns of large Maf genes in Xenopus tropicalis provide new insights into the functional evolution of the gene family in osteichthyans., Coolen M., Dev Genes Evol. July 1, 2005; 215 (7): 327-39.

The 5'-AT-rich half-site of Maf recognition element: a functional target for bZIP transcription factor Maf., Yoshida T., Nucleic Acids Res. June 21, 2005; 33 (11): 3465-78.                  

A consensus Oct1 binding site is required for the activity of the Xenopus Cdx4 promoter., Reece-Hoyes JS., Dev Biol. June 15, 2005; 282 (2): 509-23.              

Knockdown of the complete Hox paralogous group 1 leads to dramatic hindbrain and neural crest defects., McNulty CL., Development. June 1, 2005; 132 (12): 2861-71.                    

Evi-1 expression in Xenopus., Mead PE., Gene Expr Patterns. June 1, 2005; 5 (5): 601-8.              

Cloning and developmental expression of Xenopus Enabled (Xena)., Xanthos JB., Dev Dyn. June 1, 2005; 233 (2): 631-7.      

Cloning, characterization and expression of the D2 dopamine receptor from the tilapia pituitary., Levavi-Sivan B., Mol Cell Endocrinol. May 31, 2005; 236 (1-2): 17-30.

Phylogenetic footprinting and genome scanning identify vertebrate BMP response elements and new target genes., von Bubnoff A., Dev Biol. May 15, 2005; 281 (2): 210-26.                                                      

Serotonin signaling is a very early step in patterning of the left-right axis in chick and frog embryos., Fukumoto T., Curr Biol. May 10, 2005; 15 (9): 794-803.      

LIM-homeodomain genes as territory markers in the brainstem of adult and developing Xenopus laevis., Moreno N., J Comp Neurol. May 9, 2005; 485 (3): 240-54.

Identification and expression of XRTN2 and XRTN3 during Xenopus development., Park EC., Dev Dyn. May 1, 2005; 233 (1): 240-7.  

A novel RNA-binding protein in neuronal RNA granules: regulatory machinery for local translation., Shiina N., J Neurosci. April 27, 2005; 25 (17): 4420-34.              

Spatiotemporal pattern and isoforms of cadherin 23 in wild type and waltzer mice during inner ear hair cell development., Lagziel A., Dev Biol. April 15, 2005; 280 (2): 295-306.

Evidence that urocortin I acts as a neurohormone to stimulate alpha MSH release in the toad Xenopus laevis., Calle M., Dev Biol. April 8, 2005; 1040 (1-2): 14-28.              

DRAGON, a bone morphogenetic protein co-receptor., Samad TA., J Biol Chem. April 8, 2005; 280 (14): 14122-9.                  

Frizzled 5 signaling governs the neural potential of progenitors in the developing Xenopus retina., Van Raay TJ., Neuron. April 7, 2005; 46 (1): 23-36.                        

Neuronal, neurohormonal, and autocrine control of Xenopus melanotrope cell activity., Roubos EW., Ann N Y Acad Sci. April 1, 2005; 1040 172-83.

Recombineered Xenopus tropicalis BAC expresses a GFP reporter under the control of Arx transcriptional regulatory elements in transgenic Xenopus laevis embryos., Kelly LE., Genesis. April 1, 2005; 41 (4): 185-91.  

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