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Summary Anatomy Item Literature (1359) Expression Attributions Wiki
XB-ANAT-787

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Specificity in deoxyribonucleic acid uptake by transformable Haemophilus influenzae., Scocca JJ., J Bacteriol. May 1, 1974; 118 (2): 369-73.

Origin of the retina from both sides of the embryonic brain: a contribution to the problem of crossing at the optic chiasma., Jacobson M., Science. November 10, 1978; 202 (4368): 637-9.

Further studies of the prospective fates of blastomeres at the 32-cell stage of Xenopus laevis embryos., Nakamura O., Med Biol. December 1, 1978; 56 (6): 355-60.

Photoreceptor outer segment development: light and dark regulate the rate of membrane addition and loss., Hollyfield JG., Invest Ophthalmol Vis Sci. February 1, 1979; 18 (2): 117-32.

Clonal organization of the central nervous system of the frog. II. Clones stemming from individual blastomeres of the 32- and 64-cell stages., Jacobson M., J Neurosci. March 1, 1981; 1 (3): 271-84.

An experimental analysis of the role of bottle cells and the deep marginal zone in gastrulation of Xenopus laevis., Keller RE., J Exp Zool. April 1, 1981; 216 (1): 81-101.

Rohon-Beard neurons arise from a substitute ancestral cell after removal of the cell from which they normally arise in the 16-cell frog embryo., Jacobson M., J Neurosci. August 1, 1981; 1 (8): 923-7.

Retinal protein synthesis in relationship to environmental lighting., Hollyfield JG., Invest Ophthalmol Vis Sci. November 1, 1982; 23 (5): 631-9.

Communicating junctions and calmodulin: inhibition of electrical uncoupling in Xenopus embryo by calmidazolium., Peracchia C., J Membr Biol. January 1, 1984; 81 (1): 49-58.

Pattern regulation in defect embryos of Xenopus laevis., Kageura H., Dev Biol. February 1, 1984; 101 (2): 410-5.

Differentiation of presumptive primordial germ cell (pPGC)-like cells in explants into PGCs in experimental tadpoles., Ikenishi K., Dev Biol. May 1, 1984; 103 (1): 258-62.

Lineage segregation and developmental autonomy in expression of functional muscle acetylcholinesterase mRNA in the ascidian embryo., Meedel TH., Dev Biol. October 1, 1984; 105 (2): 479-87.

Neurite outgrowth traced by means of horseradish peroxidase inherited from neuronal ancestral cells in frog embryos., Jacobson M., Dev Biol. July 1, 1985; 110 (1): 102-13.

Dynamics of the control of body pattern in the development of Xenopus laevis. I. Timing and pattern in the development of dorsoanterior and posterior blastomere pairs, isolated at the 4-cell stage., Cooke J., J Embryol Exp Morphol. August 1, 1985; 88 85-112.

Change of karyoskeleton during spermatogenesis of Xenopus: expression of lamin LIV, a nuclear lamina protein specific for the male germ line., Benavente R., Proc Natl Acad Sci U S A. September 1, 1985; 82 (18): 6176-80.          

The function and mechanism of convergent extension during gastrulation of Xenopus laevis., Keller RE., J Embryol Exp Morphol. November 1, 1985; 89 Suppl 185-209.

Cytoskeletal changes during oogenesis and early development of Xenopus laevis., Wylie CC., J Cell Sci Suppl. January 1, 1986; 5 329-41.          

The direction of cleavage waves and the regional variation in the duration of cleavage cycles on the dorsal side of the Xenopus laevis blastula., Boterenbrood EC., Rouxs Arch Dev Biol. October 1, 1986; 195 (8): 484-488.

Neurites show pathway specificity but lack directional specificity or predetermined lengths in Xenopus embryos., Huang S., J Neurobiol. November 1, 1986; 17 (6): 593-603.

Cell proliferation in the ectoderm of the Xenopus embryo: development of substratum requirements for cytokinesis., Winklbauer R., Dev Biol. November 1, 1986; 118 (1): 70-81.

Fates of the blastomeres of the 16-cell stage Xenopus embryo., Moody SA., Dev Biol. February 1, 1987; 119 (2): 560-78.        

The first cleavage furrow demarcates the dorsal-ventral axis in Xenopus embryos., Klein SL., Dev Biol. March 1, 1987; 120 (1): 299-304.

Fate map for the 32-cell stage of Xenopus laevis., Dale L., Development. April 1, 1987; 99 (4): 527-51.                

Regional specification within the mesoderm of early embryos of Xenopus laevis., Dale L., Development. June 1, 1987; 100 (2): 279-95.

Polar asymmetry in the organization of the cortical cytokeratin system of Xenopus laevis oocytes and embryos., Klymkowsky MW., Development. July 1, 1987; 100 (3): 543-57.              

Fates of the blastomeres of the 32-cell-stage Xenopus embryo., Moody SA., Dev Biol. August 1, 1987; 122 (2): 300-19.      

The Xenopus animal pole blastomere., Smith JC., Bioessays. November 1, 1987; 7 (5): 229-34.

The organization of mesodermal pattern in Xenopus laevis: experiments using a Xenopus mesoderm-inducing factor., Cooke J., Development. December 1, 1987; 101 (4): 893-908.            

The behaviour and function of bottle cells during gastrulation of Xenopus laevis., Hardin J., Development. May 1, 1988; 103 (1): 211-30.

An M-phase-specific protein kinase of Xenopus oocytes: partial purification and possible mechanism of its periodic activation., Labbé JC., Dev Biol. May 1, 1988; 127 (1): 157-69.

Mapping of neural crest pathways in Xenopus laevis using inter- and intra-specific cell markers., Krotoski DM., Dev Biol. May 1, 1988; 127 (1): 119-32.

Vimentin expression in oocytes, eggs and early embryos of Xenopus laevis., Tang P., Development. June 1, 1988; 103 (2): 279-87.              

Microinjection of synthetic Xhox-1A homeobox mRNA disrupts somite formation in developing Xenopus embryos., Harvey RP., Cell. June 3, 1988; 53 (5): 687-97.              

The first cleavage plane and the embryonic axis are determined by separate mechanisms in Xenopus laevis. I. Independence in undisturbed embryos., Danilchik MV., Dev Biol. July 1, 1988; 128 (1): 58-64.

Localization of c-myc expression during oogenesis and embryonic development in Xenopus laevis., Hourdry J., Development. December 1, 1988; 104 (4): 631-41.          

Slow intermixing of cells during Xenopus embryogenesis contributes to the consistency of the blastomere fate map., Wetts R., Development. January 1, 1989; 105 (1): 9-15.

[Role of c-myc protein in the early embryonic development of Xenopus]., Méchali M., C R Acad Sci III. January 1, 1989; 308 (8): 213-8.

Cyclin synthesis drives the early embryonic cell cycle., Murray AW., Nature. May 25, 1989; 339 (6222): 275-80.

Specification and Establishment of Dorsal-Ventral Polarity in Eggs and Embryos of Xenopus laevis: (body plan specification/dorsal-ventral polarity/Xenopus laevis/"antero-dorsal structure-forming activity")., Wakahara M., Dev Growth Differ. June 1, 1989; 31 (3): 197-207.

Quantitative lineage analysis of the origin of frog primary motor and sensory neurons from cleavage stage blastomeres., Moody SA., J Neurosci. August 1, 1989; 9 (8): 2919-30.

Cytostatic factor (CSF) in the eggs of Xenopus laevis., Moses RM., Exp Cell Res. November 1, 1989; 185 (1): 271-6.

Segregation of fate during cleavage of frog (Xenopus laevis) blastomeres., Moody SA., Anat Embryol (Berl). January 1, 1990; 182 (4): 347-62.

Cdc2 H1 kinase is negatively regulated by a type 2A phosphatase in the Xenopus early embryonic cell cycle: evidence from the effects of okadaic acid., Félix MA., EMBO J. March 1, 1990; 9 (3): 675-83.

Fibronectin-rich fibrillar extracellular matrix controls cell migration during amphibian gastrulation., Boucaut JC., Int J Dev Biol. March 1, 1990; 34 (1): 139-47.              

Cytological effects of the microinjection of antibody to ras p21 in early cleavage Xenopus embryos., Miron MJ., Mol Reprod Dev. April 1, 1990; 25 (4): 317-27.

Targeted degradation of mRNA in Xenopus oocytes and embryos directed by modified oligonucleotides: studies of An2 and cyclin in embryogenesis., Dagle JM., Nucleic Acids Res. August 25, 1990; 18 (16): 4751-7.

Ectopic expression of N-cadherin perturbs histogenesis in Xenopus embryos., Fujimori T., Development. September 1, 1990; 110 (1): 97-104.

Identification of vimentin and novel vimentin-related proteins in Xenopus oocytes and early embryos., Torpey NP., Development. December 1, 1990; 110 (4): 1185-95.            

Xwnt-8, a Xenopus Wnt-1/int-1-related gene responsive to mesoderm-inducing growth factors, may play a role in ventral mesodermal patterning during embryogenesis., Christian JL., Development. April 1, 1991; 111 (4): 1045-55.    

Cyclin B mRNA depletion only transiently inhibits the Xenopus embryonic cell cycle., Weeks DL., Development. April 1, 1991; 111 (4): 1173-8.

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