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Summary Anatomy Item Literature (14672) Expression Attributions Wiki
XB-ANAT-213

Papers associated with central nervous system

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[The spatial-temporal distribution of the mRNA of the Na+-K+-ATPase alpha-subunit in the early development of the clawed toad studied by hybridization in situ]., Zaraĭskiĭ AG., Ontogenez. January 1, 1989; 20 (2): 128-34.

Is the capacity for optic nerve regeneration related to continued retinal ganglion cell production in the frog?, Taylor JS., Eur J Neurosci. January 1, 1989; 1 (6): 626-38.

Roles of Glycinergic Inhibition and N-Methyl-D-Aspartate Receptor Mediated Excitation in the Locomotor Rhythmicity of One Half of the Xenopus Embryo Central Nervous System., Soffe SR., Eur J Neurosci. January 1, 1989; 1 (6): 561-571.

Melatonin analogues induce pigment granule condensation in isolated Xenopus laevis melanophores in tissue culture., Sugden D., J Endocrinol. January 1, 1989; 120 (1): R1-3.

Structural and functional properties of reticulospinal neurons in the early-swimming stage Xenopus embryo., van Mier P., J Neurosci. January 1, 1989; 9 (1): 25-37.

Primary structure of the brain alpha-spectrin., Wasenius VM., J Cell Biol. January 1, 1989; 108 (1): 79-93.

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.                      

Teratogenic effects of some calcium channel blocking agents in Xenopus embryos., Burgess AM., Pharmacol Toxicol. January 1, 1989; 64 (1): 78-82.

In vitro synthesis of vertebrate U1 snRNA., Lund E., EMBO J. January 1, 1989; 8 (1): 287-92.

Changing patterns of binocular visual connections in the intertectal system during development of the frog, Xenopus laevis. I. Normal maturational changes in response to changing binocular geometry., Grant S., Exp Brain Res. January 1, 1989; 75 (1): 99-116.

Changing patterns of binocular visual connections in the intertectal system during development of the frog, Xenopus laevis. II. Abnormalities following early visual deprivation., Grant S., Exp Brain Res. January 1, 1989; 75 (1): 117-32.

An analog of Xenopus N1N2 protein in Pleurodeles waltl., Moreau N., Biol Cell. January 1, 1989; 67 (1): 19-26.

Fibronectin distribution during cell type conversion in newt lens regeneration., Elgert KL., Anat Embryol (Berl). January 1, 1989; 180 (2): 131-42.

Cholinoceptive properties of human primordial, preantral, and antral oocytes: in situ hybridization and biochemical evidence for expression of cholinesterase genes., Malinger G., J Mol Neurosci. January 1, 1989; 1 (2): 77-84.

The anatomical substrate for telencephalic function., Veenman CL., Adv Anat Embryol Cell Biol. January 1, 1989; 117 1-110.

The internal horizontal cell of the frog: spatial summation., Mascetti GG., Acta Physiol Pharmacol Latinoam. January 1, 1989; 39 (2): 165-72.

Erythroid heterokaryons: a system for investigating the functional role of trans-acting factors in developmental hemoglobin switching., Broyles RH., Prog Clin Biol Res. January 1, 1989; 316B 83-96.

Characterisation of the nuclear location sequence of Xenopus nucleoplasmin., Dingwall C., J Cell Sci Suppl. January 1, 1989; 11 243-8.

Nuclear transport in vitro., Finlay DR., J Cell Sci Suppl. January 1, 1989; 11 225-42.

Development of early swimming in Xenopus laevis embryos: myotomal musculature, its innervation and activation., van Mier P., Neuroscience. January 1, 1989; 32 (1): 113-26.

DNA replication and cell cycle control in Xenopus egg extracts., Hutchison CJ., J Cell Sci Suppl. January 1, 1989; 12 197-212.

Development of the nucleus isthmi in Xenopus, II: Branching patterns of contralaterally projecting isthmotectal axons during maturation of binocular maps., Udin SB., Vis Neurosci. January 1, 1989; 2 (2): 153-63.

Quantal charge redistributions accompanying the structural transitions of sodium channels., Conti F., Eur Biophys J. January 1, 1989; 17 (2): 53-9.

Expression of functional sodium channels in stage II-III Xenopus oocytes., Krafte DS., J Neurosci Methods. January 1, 1989; 26 (3): 211-5.

Kainate receptors in Xenopus central nervous system: solubilisation with n-octyl-beta-D-glucopyranoside., Henley JM., J Neurochem. January 1, 1989; 52 (1): 31-7.

Central projections of the nervus terminalis in four species of amphibians., Hofmann MH., Brain Behav Evol. January 1, 1989; 34 (5): 301-7.

Two calcium-activated chloride conductances in Xenopus laevis oocytes permeabilized with the ionophore A23187., Boton R., J Physiol. January 1, 1989; 408 511-34.

Retinal ganglion cell death induced by unilateral tectal ablation in Xenopus., Straznicky C., Vis Neurosci. January 1, 1989; 2 (4): 339-47.

Rat brain glutamate receptors activate chloride channels in Xenopus oocytes coupled by inositol trisphosphate and Ca2+., Oosawa Y., J Physiol. January 1, 1989; 408 223-32.

Morphological characterization of substance P-like immunoreactive amacrine cells in the anuran retina., Hiscock J., Vision Res. January 1, 1989; 29 (3): 293-301.

Further evidence demonstrating that N-methyl-D-aspartate and kainate activate distinct ion channels., Fong TM., Synapse. January 1, 1989; 4 (1): 88-95.

GABA and the regulation of serotonin N-acetyltransferase activity in amphibian retina-II. The role of dopamine., Boatright JH., Neurochem Int. January 1, 1989; 15 (4): 549-54.

GABA and the regulation of serotonin N-acetyltransferase activity in amphibian retina-I. Effects of GABA agonists and antagonists., Boatright JH., Neurochem Int. January 1, 1989; 15 (4): 541-7.

Targeting of a chromosomal protein to the nucleus and to lampbrush chromosome loops., Roth MB., Proc Natl Acad Sci U S A. February 1, 1989; 86 (4): 1269-72.

Simple three-dimensional imaging of HRP-labelled neurons with the aid of an image processor., van der Linden JA., J Microsc. February 1, 1989; 153 (Pt 2): 223-9.

Outer segment growth and periciliary vesicle turnover in developing photoreceptors of Xenopus laevis., Eckmiller MS., Cell Tissue Res. February 1, 1989; 255 (2): 283-92.

Retinal melatonin is metabolized within the eye of xenopus laevis., Cahill GM., Proc Natl Acad Sci U S A. February 1, 1989; 86 (3): 1098-102.

Steady-state levels of pro-dynorphin-related end-products from the brain of the amphibian, Xenopus laevis., Sei CA., Brain Res. February 6, 1989; 479 (1): 162-6.

Major nucleolar proteins shuttle between nucleus and cytoplasm., Borer RA., Cell. February 10, 1989; 56 (3): 379-90.

Gradual appearance of a regulated retinotectal projection pattern in Xenopus laevis., O'Rourke NA., Dev Biol. March 1, 1989; 132 (1): 251-65.

Nucleolin from Xenopus laevis: cDNA cloning and expression during development., Caizergues-Ferrer M., Genes Dev. March 1, 1989; 3 (3): 324-33.                  

Nucleocytoplasmic transport of ribosomes in a eukaryotic system: is there a facilitated transport process?, Khanna-Gupta A., Proc Natl Acad Sci U S A. March 1, 1989; 86 (6): 1791-5.

N-methyl-D-aspartate/glycine and quisqualate/kainate receptors expressed in Xenopus oocytes: antagonist pharmacology., Verdoorn TA., Mol Pharmacol. March 1, 1989; 35 (3): 360-8.

The tremorigen aflatrem is a positive allosteric modulator of the gamma-aminobutyric acidA receptor channel expressed in Xenopus oocytes., Yao Y., Mol Pharmacol. March 1, 1989; 35 (3): 319-23.

mRNA from NCB-20 cells encodes the N-methyl-D-aspartate/phencyclidine receptor: a Xenopus oocyte expression study., Lerma J., Proc Natl Acad Sci U S A. March 1, 1989; 86 (5): 1708-11.

Activators of protein kinase C trigger cortical granule exocytosis, cortical contraction, and cleavage furrow formation in Xenopus laevis oocytes and eggs., Bement WM., J Cell Biol. March 1, 1989; 108 (3): 885-92.

Functional expression in Xenopus oocytes of the strychnine binding 48 kd subunit of the glycine receptor., Schmieden V., EMBO J. March 1, 1989; 8 (3): 695-700.

N-methyl-D-aspartate activates different channels than do kainate and quisqualate., Lerma J., Proc Natl Acad Sci U S A. March 1, 1989; 86 (6): 2083-7.

Prothymosin alpha is a nuclear protein., Watts JD., FEBS Lett. March 13, 1989; 245 (1-2): 17-20.

Stimulation of endogenous dopamine release and metabolism in amphibian retina by light- and K+-evoked depolarization., Boatright JH., Dev Biol. March 13, 1989; 482 (1): 164-8.

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