scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1007/BF00232638 |
P698 | PubMed publication ID | 7529321 |
P2093 | author name string | J O Bustamante | |
P2860 | cites work | Nuclear envelope permeability | Q22122423 |
A STUDY OF THE NUCLEUS AND CELL MEMBRANES OF OOCYTES WITH AN INTRA-CELLULAR ELECTRODE | Q76500391 | ||
Requirement of GTP Hydrolysis for Dissociation of the Signal Recognition Particle from Its Receptor | Q28282286 | ||
Correlation between structure and mass distribution of the nuclear pore complex and of distinct pore complex components | Q29620113 | ||
The GTP-binding protein Ran/TC4 is required for protein import into the nucleus | Q29620192 | ||
Nuclear protein import in permeabilized mammalian cells requires soluble cytoplasmic factors | Q29620194 | ||
Architecture and design of the nuclear pore complex | Q29622853 | ||
Differences in regulation between nuclear and cytoplasmic Ca2+ in cultured smooth muscle cells | Q30991284 | ||
Nuclear calcium gradients in cultured rat hepatocytes | Q33347641 | ||
Stimulated rise in neuronal calcium is faster and greater in the nucleus than the cytosol. | Q33521671 | ||
Subcellular calcium transients visualized by confocal microscopy in a voltage-clamped vertebrate neuron | Q33891301 | ||
Stereospecific inositol 1,4,5-[32P]trisphosphate binding to isolated rat liver nuclei: evidence for inositol trisphosphate receptor-mediated calcium release from the nucleus | Q33913373 | ||
Microscopic spiral waves reveal positive feedback in subcellular calcium signaling | Q34020114 | ||
Signal transduction and nuclear targeting: regulation of transcription factor activity by subcellular localisation | Q34350208 | ||
Calcium ion homeostasis in smooth muscle | Q35220152 | ||
The nuclear pore: at the crossroads | Q35225810 | ||
Molecular trafficking across the nuclear pore complex | Q35234715 | ||
Are the cytosolic components of the nuclear, ER, and mitochondrial import apparatus functionally related? | Q35261012 | ||
Control of nucleocytoplasmic transport | Q35330894 | ||
Nuclear protein phosphorylation and growth control | Q35450130 | ||
The nuclear membrane | Q35532347 | ||
Nuclear envelope structure | Q35673456 | ||
Calcium and calmodulin function in the cell nucleus | Q35756738 | ||
The electrical conductance and potential across the membrane of some cell nuclei | Q36185623 | ||
Ultrastructure and permeability of nuclear membranes | Q36187442 | ||
Analysis of sodium transport in the amphibian oocyte by extractive and radioautographic techniques | Q36193248 | ||
Nucleocytoplasmic movement of fluorescent tracers microinjected into living salivary gland cells | Q36197097 | ||
The electrophysiological mapping of compartments within a mammalian cell | Q36202569 | ||
Architecture of the Xenopus nuclear pore complex revealed by three-dimensional cryo-electron microscopy. | Q36232581 | ||
SOME ELECTRICAL PROPERTIES OF A NUCLEAR MEMBRANE EXAMINED WITH A MICROELECTRODE. | Q36374413 | ||
Transport across the nuclear envelope: enigmas and explanations | Q36422564 | ||
Is the Cell Membrane a Universal Rate-Limiting Barrier to the Movement of Water between the Living Cell and Its Surrounding Medium? | Q36427625 | ||
Nuclear pore complex: structure, function, and regulation | Q36658789 | ||
Nuclear import-export: in search of signals and mechanisms. | Q36663596 | ||
Staurosporine induced Ca2+ increase in DDT1MF-2 smooth muscle cells | Q36779022 | ||
Ratiometric confocal Ca(2+)-measurements with visible wavelength indicators in isolated cardiac myocytes | Q36785966 | ||
Chapter 18 In Vitro Nuclear Protein Import Using Permeabilized Mammalian Cells | Q36930440 | ||
Nuclear mRNA export | Q37042999 | ||
Signal transduction and gene control | Q37104142 | ||
Ion channels in transit: voltage-gated Na and K channels in axoplasmic organelles of the squid Loligo pealei | Q37513969 | ||
How proteins enter the nucleus | Q37632736 | ||
The nuclear envelope and nuclear transport | Q37944407 | ||
Toward a more complete 3-D structure of the nuclear pore complex | Q39244460 | ||
Spatial and temporal resolution of serotonin-induced changes in intracellular calcium in a cultured arterial smooth muscle cell line | Q39254074 | ||
High temporal resolution video imaging of intracellular calcium | Q39268484 | ||
Role of H+ ions in volume and voltage of epithelial cell nuclei | Q41563297 | ||
Kinetics of nucleocytoplasmic Ca2+ transients in DDT1 MF-2 smooth muscle cells | Q41595320 | ||
Fluorescence ratio imaging of cyclic AMP in single cells | Q41695021 | ||
Differential control of free calcium and free zinc levels in isolated bovine liver nuclei | Q41819449 | ||
Restricted ion flow at the nuclear envelope of cardiac myocytes | Q42128750 | ||
The nuclear-cytoplasmic [Ca2+] gradient in single mammalian vascular smooth muscle cells | Q42484099 | ||
Signal peptides open protein-conducting channels in E. coli | Q42602564 | ||
Stimulus-induced nuclear Ca2+ signals in fura-2-loaded amphibian neurons | Q43888007 | ||
A large conductance ion channel in the nuclear envelope of a higher plant cell | Q43992757 | ||
Detection of a large cation-selective channel in nuclear envelopes of avian erythrocytes. | Q44168021 | ||
Alteration of intracellular Fura-2 fluorescence by viscosity: a simple correction | Q44434955 | ||
Spatially Resolved Dynamics of cAMP and Protein Kinase A Subunits in Aplysia Sensory Neurons | Q45964672 | ||
NF-kappa B activation by ultraviolet light not dependent on a nuclear signal. | Q45971622 | ||
A protein-conducting channel in the endoplasmic reticulum | Q49486564 | ||
Ion channels in murine nuclei during early development and in fully differentiated adult cells. | Q50800600 | ||
Distribution of Na+, K+ and Cl- between nucleus and cytoplasm in Chironomus salivary gland cells | Q52433985 | ||
Permeability of nuclear membranes | Q52493255 | ||
Differential effects of K+ and Na+ on specific bands of isolated polytene chromosomes of Chironomus tentans. | Q52497559 | ||
Permeability of a Nuclear Membrane: Changes during Normal Development and Changes Induced by Growth Hormone | Q52507843 | ||
CHEMICAL NATURE OF THE SYSTEM CONTROLLING GENE ACTIVITIES IN INSECT CELLS. | Q52630186 | ||
Nucleus and cell membrane conductance in marine oocytes. | Q54001368 | ||
Open states of nuclear envelope ion channels in cardiac myocytes. | Q54034600 | ||
Role of ion flux in the control of c-fos expression | Q57963317 | ||
Identification of a nucleo-cytoplasmic ionic pathway by osmotic shock in isolated mouse liver nuclei | Q57980176 | ||
Chloride channels in the nuclear membrane | Q57980184 | ||
Ion channels in the nuclear envelope | Q57980190 | ||
Plugging the nuclear pore | Q59009816 | ||
Some Electrical Properties of the Membrane of a Cell Nucleus | Q59067066 | ||
Cytoplasmic exclusion as a basis for asymmetric nucleocytoplasmic solute distributions | Q66882584 | ||
Nuclear ion channels in cardiac myocytes | Q67465549 | ||
Can we see living structure in a cell? | Q67962633 | ||
Effect of calcium-binding protein regucalcin on Ca2+ transport system in rat liver nuclei: stimulation of Ca2+ release | Q68228449 | ||
Thapsigargin, a novel molecular probe for studying intracellular calcium release and storage | Q69741696 | ||
Effect of cations on the condensation of hen erythrocyte nuclei and its relation to gene activation | Q70457809 | ||
The cell's nucleus shapes up | Q70594210 | ||
Forging a path to the nucleus | Q70739978 | ||
The nuclear pore complex | Q70767301 | ||
The Concentrations of Water, Sodium and Potassium in the Nucleus and Cytoplasm of Amphibian Oocytes | Q71584927 | ||
Bioinorganic chemistry: a maturing frontier | Q72858705 | ||
The nuclear pore complex | Q72887679 | ||
P433 | issue | 2 | |
P921 | main subject | electrophysiology | Q1154774 |
P1104 | number of pages | 8 | |
P304 | page(s) | 105-112 | |
P577 | publication date | 1994-03-01 | |
P1433 | published in | Journal of Membrane Biology | Q6295550 |
P1476 | title | Nuclear electrophysiology | |
P478 | volume | 138 |
Q71440819 | Aldosterone activates the nuclear pore transporter in cultured kidney cells imaged with atomic force microscopy |
Q71440821 | Atomic force microscopy visualizes ATP-dependent dissociation of multimeric TATA-binding protein before translocation into the cell nucleus |
Q35449083 | Calcium, ATP and nuclear pore channel gating |
Q26851654 | Endogenous voltage gradients as mediators of cell-cell communication: strategies for investigating bioelectrical signals during pattern formation |
Q35812379 | Imaging nuclear pores of aldosterone-sensitive kidney cells by atomic force microscopy |
Q30482126 | Nuclear hourglass technique: an approach that detects electrically open nuclear pores in Xenopus laevis oocyte |
Q54034600 | Open states of nuclear envelope ion channels in cardiac myocytes. |
Q42626449 | Patch clamp and atomic force microscopy demonstrate TATA-binding protein (TBP) interactions with the nuclear pore complex |
Q70918081 | Patch clamp detection of transcription factor translocation along the nuclear pore complex channel |
Q47708129 | Patch-clamp detection of macromolecular translocation along nuclear pores |
Q42637583 | Reconstitution of ionic channels from inner and outer membranes of mammalian cardiac nuclei |
Q32012116 | Regulation of cytosol-nucleus pH gradients by K+/H+ exchange mechanism in the nuclear envelope of neonatal rat astrocytes |
Q40976203 | The ion channel behavior of the nuclear pore complex |
Q38752612 | Vacuolar H+-ATPase in the nuclear membranes regulates nucleo-cytosolic proton gradients |
Q36791838 | Visualizing life on biomembranes by atomic force microscopy |
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