| scholarly article | Q13442814 |
| P356 | DOI | 10.1002/CNE.902890314 |
| P698 | PubMed publication ID | 2553783 |
| P2093 | author name string | Yamamoto T | |
| Maler L | |||
| Nagy JI | |||
| Hertzberg EL | |||
| P2860 | cites work | Cloning and characterization of human and rat liver cDNAs coding for a gap junction protein | Q24293511 |
| Connexin43: a protein from rat heart homologous to a gap junction protein from liver | Q24680192 | ||
| Hexagonal array of subunits in intercellular junctions of the mouse heart and liver | Q24682840 | ||
| The use of lead citrate at high pH as an electron-opaque stain in electron microscopy | Q26778439 | ||
| The Structure and Permeability of Isolated Hepatocyte Gap Junctions | Q33311861 | ||
| Physiology and ultrastructure of electrotonic junctions. II. Spinal and medullary electromotor nuclei in mormyrid fish | Q34203532 | ||
| Gap junction protein in rat hippocampus: light microscope immunohistochemical localization | Q35427576 | ||
| Gap junction protein in rat hippocampus: correlative light and electron microscope immunohistochemical localization | Q35427599 | ||
| Molecular cloning of cDNA for rat liver gap junction protein | Q36213087 | ||
| Identification of a rat liver cDNA and mRNA coding for the 28 kDa gap junction protein | Q36425528 | ||
| Reduction of gap junctional conductance by microinjection of antibodies against the 27-kDa liver gap junction polypeptide | Q37684603 | ||
| Antibody probes in the study of gap junctional communication | Q39494115 | ||
| Neuroethology of electric communication | Q39639402 | ||
| Morphological Correlates of Electrical and Other Interactions through Low-Resistance Pathways between Neurons of the Vertebrate Central Nervous System | Q39828778 | ||
| Structural correlates of gap junction permeation | Q40285906 | ||
| Gap junction-ribosome association after autolysis | Q41170229 | ||
| Analysis of the rat liver gap junction protein: clarification of anomalies in its molecular size | Q45028779 | ||
| Two homologous protein components of hepatic gap junctions. | Q45997542 | ||
| Structure and biochemistry of mouse hepatic gap junctions | Q46255432 | ||
| Anatomical and functional organization of the prepacemaker nucleus in gymnotiform electric fish: the accommodation of two behaviors in one nucleus | Q46955693 | ||
| A time-comparison circuit in the electric fish midbrain. II. Functional morphology | Q47949908 | ||
| Reduction of dye coupling in glial cultures by microinjection of antibodies against the liver gap junction polypeptide | Q48122165 | ||
| The organization of afferent input to the caudal lobe of the cerebellum of the gymnotid fish Apteronotus leptorhynchus | Q48241876 | ||
| Cytology and immunocytochemistry of the nucleus extrolateralis anterior of the mormyrid brain: possible role of GABAergic synapses in temporal analysis | Q48247672 | ||
| Morphological correlates of electrotonic coupling in the magnocellular mesencephalic nucleus of the weakly electric fishGymnotus carapo | Q48437980 | ||
| A protein homologous to the 27,000 dalton liver gap junction protein is present in a wide variety of species and tissues | Q48611392 | ||
| The nucleus praeeminentialis: a Golgi study of a feedback center in the electrosensory system of gymnotid fish | Q48708399 | ||
| Electroreception | Q49110838 | ||
| Laminar organization of the afferent and efferent systems of the torus semicircularis of gymnotiform fish: morphological substrates for parallel processing in the electrosensory system | Q49131328 | ||
| Physiology and ultrastructure of electrotonic junctions. IV. Medullary electromotor nuclei in gymnotid fish | Q51217359 | ||
| From distributed sensory processing to discrete motor representations in the diencephalon of the electric fish, Eigenmannia | Q69369055 | ||
| Ultrastructural studies of physiologically identified electrosensory afferent synapses in the gymnotiform fish, Eigenmannia | Q69753811 | ||
| Cytology and immunocytochemistry of the nucleus of the lateral line lobe in the electric fish Gnathonemus petersii (Mormyridae): evidence suggesting that GABAergic synapses mediate an inhibitory corollary discharge | Q69846848 | ||
| The cytology of the posterior lateral line lobe of high-frequency weakly electric fish (Gymnotidae): dendritic differentiation and synaptic specificity in a simple cortex | Q70688087 | ||
| Cell types and synaptic organization of the medullary electromotor nucleus in a constant frequency weakly electric fish, Sternarchus albifrons | Q71332786 | ||
| Secretory processes in follicular cells of the bat thyroid. II. The occurrence of organelle-associated intercellular junctions during late hibernation | Q71838825 | ||
| Biochemical and immunological approaches to the study of gap junctional communication | Q72631613 | ||
| Electrotonic junctions between teleost spinal neurons: electrophysiology and ultrastructure | Q79578072 | ||
| The demonstration of complex gap junctions between the cells of the enamel organ with lanthanum nitrate | Q93726872 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | immunohistochemistry | Q899285 |
| P304 | page(s) | 509-536 | |
| P577 | publication date | 1989-11-01 | |
| P1433 | published in | The Journal of Comparative Neurology | Q3186907 |
| P1476 | title | Gap junction protein in weakly electric fish (Gymnotide): immunohistochemical localization with emphasis on structures of the electrosensory system | |
| P478 | volume | 289 |
| Q72578758 | Commissural neurons of the electrosensory lateral line lobe of Apteronotus leptorhynchus: morphological and physiological characteristics |
| Q71650937 | Correlating gamma‐aminobutyric acidergic circuits and sensory function in the electrosensory lateral line lobe of a gymnotiform fish |
| Q40487674 | Gap junctions in the brain: where, what type, how many and why? |
| Q57984215 | Immunocytochemical characterization of the synaptic innervation of a single spinal neuron, the electric catfish electromotoneuron |
| Q42464621 | Somatostatin-like immunoreactivity in the brain of an electric fish (Ateronotus leptorhynchus) identified with monoclonal antibodies |
| Q35080787 | The cellular basis for parallel neural transmission of a high-frequency stimulus and its low-frequency envelope |
| Q44298193 | The distribution of excitatory amino acid binding sites in the brain of an electric fish, Apteronotus leptorhynchus |
Search more.