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Summary Anatomy Item Literature (811) Expression Attributions Wiki
XB-ANAT-1494

Papers associated with duct

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Identification of a 60-kilodalton stress-related protein, p60, which interacts with hsp90 and hsp70., Smith DF., Mol Cell Biol. February 1, 1993; 13 (2): 869-76.

Changes in contractile properties by androgen hormones in sexually dimorphic muscles of male frogs (Xenopus laevis)., Regnier M., J Physiol. February 1, 1993; 461 565-81.

Cloning, functional analysis and cell localization of a kidney proximal tubule water transporter homologous to CHIP28., Zhang R., J Cell Biol. January 1, 1993; 120 (2): 359-69.

Phosphorylation of Na,K-ATPase alpha-subunits in microsomes and in homogenates of Xenopus oocytes resulting from the stimulation of protein kinase A and protein kinase C., Chibalin AV., J Biol Chem. November 5, 1992; 267 (31): 22378-84.

Differential regulation and polyadenylation of transferrin mRNA in Xenopus liver and oviduct., Pastori RL., J Steroid Biochem Mol Biol. August 1, 1992; 42 (7): 649-57.

Characterization and developmental expression of Xenopus C/EBP gene., Xu Q., Mech Dev. July 1, 1992; 38 (1): 69-81.      

Oviductin. Purification and properties of the oviductal protease that processes the molecular weight 43,000 glycoprotein of the Xenopus laevis egg envelope., Hardy DM., Biochemistry. May 12, 1992; 31 (18): 4466-72.

Xlcaax-1 is localized to the basolateral membrane of kidney tubule and other polarized epithelia during Xenopus development., Cornish JA., Dev Biol. March 1, 1992; 150 (1): 108-20.                  

Hyaluronan as a propellant for epithelial movement: the development of semicircular canals in the inner ear of Xenopus., Haddon CM., Development. June 1, 1991; 112 (2): 541-50.                          

Structure and function of the extracellular matrix of anuran eggs., Hedrick JL., J Electron Microsc Tech. March 1, 1991; 17 (3): 319-35.

The distribution of E-cadherin during Xenopus laevis development., Levi G., Development. January 1, 1991; 111 (1): 159-69.                

Fertilization of cultured Xenopus oocytes and use in studies of maternally inherited molecules., Heasman J., Methods Cell Biol. January 1, 1991; 36 213-30.

Cell migration in the formation of the pronephric duct in Xenopus laevis., Lynch K., Dev Biol. December 1, 1990; 142 (2): 283-92.

Magainin-like immunoreactivity in human submandibular and labial salivary glands., Wolff A., J Histochem Cytochem. November 1, 1990; 38 (11): 1531-4.

Autoinduction of estrogen receptor is associated with FOSP-1 mRNA induction by estrogen in primary cultures of Xenopus oviduct cells., Varriale B., Mol Cell Endocrinol. July 9, 1990; 71 (3): R25-31.

Tissue-specific trans-activation of the rabbit beta-globin promoter in Xenopus oocytes., Rungger D., Differentiation. July 1, 1990; 44 (1): 8-17.

Enzymatic and envelope-converting activities of pars recta oviductal fluid from Xenopus laevis., Bakos MA., Dev Biol. March 1, 1990; 138 (1): 169-76.

Talin and vinculin in the oocytes, eggs, and early embryos of Xenopus laevis: a developmentally regulated change in distribution., Evans JP., Dev Biol. February 1, 1990; 137 (2): 403-13.              

Possible role for salivary gland protein in taste reception indicated by homology to lipophilic-ligand carrier proteins., Schmale H., Nature. January 25, 1990; 343 (6256): 366-9.

Physicochemical characterization of progressive changes in the Xenopus laevis egg envelope following oviductal transport and fertilization., Bakos MA., Biochemistry. January 23, 1990; 29 (3): 609-15.

Immunohistochemical study of a rat membrane protein which induces a selective potassium permeation: its localization in the apical membrane portion of epithelial cells., Sugimoto T., J Membr Biol. January 1, 1990; 113 (1): 39-47.

Ontogeny and tissue distribution of leukocyte-common antigen bearing cells during early development of Xenopus laevis., Ohinata H., Development. November 1, 1989; 107 (3): 445-52.              

XlHbox 8: a novel Xenopus homeo protein restricted to a narrow band of endoderm., Wright CV., Development. April 1, 1989; 105 (4): 787-94.          

The coelomic envelope of Xenopus laevis eggs: a quick-freeze, deep-etch analysis., Larabell CA., Dev Biol. January 1, 1989; 131 (1): 126-35.

A whole-mount immunocytochemical analysis of the expression of the intermediate filament protein vimentin in Xenopus., Dent JA., Development. January 1, 1989; 105 (1): 61-74.                      

FOSP-1 (frog oviduct-specific protein-1) gene: cloning of cDNA and induction by estrogen in primary cultures of Xenopus oviduct cells., Lerivray H., Mol Cell Endocrinol. October 1, 1988; 59 (3): 241-8.

Merkel cells and the mechanosensitivity of normal and regenerating nerves in Xenopus skin., Mearow KM., Neuroscience. August 1, 1988; 26 (2): 695-708.

The distribution of fibronectin and tenascin along migratory pathways of the neural crest in the trunk of amphibian embryos., Epperlein HH., Development. August 1, 1988; 103 (4): 743-56.                  

Establishment and characterization of Xenopus oviduct cells in primary culture., Marsh J., Exp Cell Res. November 1, 1987; 173 (1): 117-28.

Hormonal regulation of RNA synthesis and specific gene expression in Xenopus oviduct cells in primary culture., Marsh J., Mol Cell Endocrinol. September 1, 1987; 53 (1-2): 141-8.

The histone H1(0)/H5 variant and terminal differentiation of cells during development of Xenopus laevis., Moorman AF., Differentiation. January 1, 1987; 35 (2): 100-7.            

Skin peptides in Xenopus laevis: morphological requirements for precursor processing in developing and regenerating granular skin glands., Flucher BE., J Cell Biol. December 1, 1986; 103 (6 Pt 1): 2299-309.                

Conserved sequence motifs upstream from the co-ordinately expressed vitellogenin and apoVLDLII genes of chicken., van het Schip F., Nucleic Acids Res. November 11, 1986; 14 (21): 8669-80.

H-Y antigen expression in heterogametic males (XY) and females (ZW): a factor in reproductive strategy?, Yang TJ., Experientia. February 15, 1986; 42 (2): 190-1.

The coelomic envelope to vitelline envelope conversion in eggs of Xenopus laevis., Gerton GL., J Cell Biochem. January 1, 1986; 30 (4): 341-50.

Biochemical studies of the envelope transformations in Xenopus laevis eggs., Gerton GL., Adv Exp Med Biol. January 1, 1986; 207 133-49.

Sodium entry pathways in renal epithelial cell lines., Saier MH., Miner Electrolyte Metab. January 1, 1986; 12 (1): 42-50.

Specific switching on of silent egg protein genes in vitro by an S-100 fraction in isolated nuclei from male Xenopus., Tata JR., EMBO J. December 1, 1985; 4 (12): 3253-8.

The cytoskeleton of Xenopus oocytes and its role in development., Wylie CC., J Embryol Exp Morphol. November 1, 1985; 89 Suppl 1-15.        

Meiotic maturation in Xenopus oocytes: a link between the cessation of protein secretion and the polarized disappearance of Golgi apparati., Colman A., J Cell Biol. July 1, 1985; 101 (1): 313-8.

Fine structure of oviducal epithelium of Xenopus laevis in relation to its role in secreting egg envelopes., Yoshizaki N., J Morphol. May 1, 1985; 184 (2): 155-169.

Sex- and tissue-specific, but hormonally independent, demethylation at the 3'-end of Xenopus vitellogenin gene B1., Ng WC., FEBS Lett. December 10, 1984; 178 (2): 217-22.

Different modes of pronephric duct origin among vertebrates., Poole TJ., Scan Electron Microsc. January 1, 1984; (Pt 1): 475-82.

Immunoelectron Microscopic Demonstration of the Pre-fertilization Layer in Xenopus eggs: (Xenopus/immunoelectron microscopy/polyspermy block/oviducal pars recta/pre-fertilization layer)., Yoshizaki N., Dev Growth Differ. January 1, 1984; 26 (2): 191-195.

Signal sequences, secondary modification and the turnover of miscompartmentalized secretory proteins in Xenopus oocytes., Lane CD., Eur J Biochem. October 17, 1983; 136 (1): 141-6.

The oocyte as a secretory cell., Colman A., Ciba Found Symp. January 1, 1983; 98 249-67.

The Xenopus oocyte as a surrogate secretory system. The specificity of protein export., Lane CD., Eur J Biochem. October 1, 1980; 111 (1): 225-35.

Similarities of membrane structure in freeze-fractured Xenopus laevis kidney collecting tubule and urinary bladder., Brown D., J Cell Sci. August 1, 1980; 44 353-63.

Subnuclear fractionation by mild micrococcal-nuclease treatment of nuclei of different transcriptional activities causes a partition of expressed and non-expressed genes., Dimitriadis GJ., Biochem J. May 1, 1980; 187 (2): 467-77.

An estrogen receptor from Xenopus laevis liver possibly connected with vitellogenin synthesis., Westley B., Cell. October 1, 1978; 15 (2): 367-74.

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