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Summary Anatomy Item Literature (79) Expression Attributions Wiki
XB-ANAT-3411

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IRK1 inward rectifier K(+) channels exhibit no intrinsic rectification., Guo D., J Gen Physiol. October 1, 2002; 120 (4): 539-51.                            

Kinetics of inward-rectifier K+ channel block by quaternary alkylammonium ions. dimension and properties of the inner pore., Guo D., J Gen Physiol. May 1, 2001; 117 (5): 395-406.                          

A conducting state with properties of a slow inactivated state in a shaker K(+) channel mutant., Olcese R., J Gen Physiol. February 1, 2001; 117 (2): 149-63.                            

Ectopic Hoxa2 induction after neural crest migration results in homeosis of jaw elements in Xenopus., Pasqualetti M., Development. December 1, 2000; 127 (24): 5367-78.          

Pore block versus intrinsic gating in the mechanism of inward rectification in strongly rectifying IRK1 channels., Guo D., J Gen Physiol. October 1, 2000; 116 (4): 561-8.              

Mechanism of IRK1 channel block by intracellular polyamines., Guo D., J Gen Physiol. June 1, 2000; 115 (6): 799-814.                          

Mechanism of cGMP-gated channel block by intracellular polyamines., Guo D., J Gen Physiol. June 1, 2000; 115 (6): 783-98.                      

The cytoskeletal effector xPAK1 is expressed during both ear and lateral line development in Xenopus., Islam N., Int J Dev Biol. February 1, 2000; 44 (2): 245-8.          

A mutation linked with Bartter's syndrome locks Kir 1.1a (ROMK1) channels in a closed state., Flagg TP., J Gen Physiol. November 1, 1999; 114 (5): 685-700.                      

Regulation of melanosome movement in the cell cycle by reversible association with myosin V., Rogers SL., J Cell Biol. September 20, 1999; 146 (6): 1265-76.              

Tuning the voltage dependence of tetraethylammonium block with permeant ions in an inward-rectifier K+ channel., Spassova M., J Gen Physiol. September 1, 1999; 114 (3): 415-26.                

Ca2+-dependent gating mechanisms for dSlo, a large-conductance Ca2+-activated K+ (BK) channel., Moss BL., Biophys J. June 1, 1999; 76 (6): 3099-117.

The Xenopus bagpipe-related homeobox gene zampogna is expressed in the pharyngeal endoderm and the visceral musculature of the midgut., Newman CS., Dev Genes Evol. February 1, 1999; 209 (2): 132-4.

Coupled ion movement underlies rectification in an inward-rectifier K+ channel., Spassova M., J Gen Physiol. August 1, 1998; 112 (2): 211-21.            

A conserved arginine residue in the pore region of an inward rectifier K channel (IRK1) as an external barrier for cationic blockers., Sabirov RZ., J Gen Physiol. December 1, 1997; 110 (6): 665-77.                  

Functional interactions between the estrogen receptor and the transcription activator Sp1 regulate the estrogen-dependent transcriptional activity of the vitellogenin A1 io promoter., Batistuzzo de Medeiros SR., J Biol Chem. July 18, 1997; 272 (29): 18250-60.

Altered ionic selectivity of the sodium channel revealed by cysteine mutations within the pore., Tsushima RG., J Gen Physiol. April 1, 1997; 109 (4): 463-75.                

Xbap, a vertebrate gene related to bagpipe, is expressed in developing craniofacial structures and in anterior gut muscle., Newman CS., Dev Biol. January 15, 1997; 181 (2): 223-33.            

Differential effects on Xenopus development of interference with type IIA and type IIB activin receptors., New HV., Mech Dev. January 1, 1997; 61 (1-2): 175-86.          

The mRNA encoding a beta subunit of heterotrimeric GTP-binding proteins is localized to the animal pole of Xenopus laevis oocyte and embryos., Devic E., Mech Dev. October 1, 1996; 59 (2): 141-51.              

Expression of a new G protein-coupled receptor X-msr is associated with an endothelial lineage in Xenopus laevis., Devic E., Mech Dev. October 1, 1996; 59 (2): 129-40.        

Integrin alpha 5 during early development of Xenopus laevis., Joos TO., Mech Dev. April 1, 1995; 50 (2-3): 187-99.                    

XIdx, a dominant negative regulator of bHLH function in early Xenopus embryos., Wilson R., Mech Dev. February 1, 1995; 49 (3): 211-22.          

Expression of LIM class homeobox gene Xlim-3 in Xenopus development is limited to neural and neuroendocrine tissues., Taira M., Dev Biol. September 1, 1993; 159 (1): 245-56.              

Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos., Smith WC., Cell. September 4, 1992; 70 (5): 829-40.              

Sequence and specificity of a soluble lactose-binding lectin from Xenopus laevis skin., Marschal P., J Biol Chem. June 25, 1992; 267 (18): 12942-9.                

Spatial, temporal, and hormonal regulation of epidermal keratin expression during development of the frog, Xenopus laevis., Nishikawa A., Dev Biol. May 1, 1992; 151 (1): 145-53.                

Regulation of embryonic cell adhesion by the cadherin cytoplasmic domain., Kintner C., Cell. April 17, 1992; 69 (2): 225-36.          

Development of the ectoderm in Xenopus: tissue specification and the role of cell association and division., Jones EA., Cell. January 31, 1986; 44 (2): 345-55.                

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