| scholarly article | Q13442814 |
| P2093 | author name string | G T Reynolds | |
| L F Jaffe | |||
| E B Ridgway | |||
| J C Gilkey | |||
| P2860 | cites work | Calcium release from the sarcoplasmic reticulum | Q28181335 |
| The electric potential change of internal membrane during propagation of contraction in skinned fibre of toad skeletal muscle | Q36738002 | ||
| Free calcium increases explosively in activating medaka eggs | Q37582105 | ||
| Image intensification applied to biological problems | Q38589203 | ||
| Ionophore A23187: the effect of proton concentration on complex formation with divalent and monovalent cations and the demonstration of potassium(1+) ion transport in mitochondria mediated by A23187 | Q39080468 | ||
| Intracellular pH and activation of sea urchin eggs after fertilisation | Q39109787 | ||
| Cortical Granule Release in Human Follicular Oocytes1 | Q40038004 | ||
| Photoproteins as biological calcium indicators | Q40566584 | ||
| Cortical granule distribution and cell surface characteristics in mouse eggs | Q43426802 | ||
| Aequorin luminescence: relation of light emission to calcium concentration--a calcium-independent component | Q43851079 | ||
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| The cortical response in Xenopus laevis ova. | Q52722103 | ||
| The cortical granule reaction in living eggs of the toad, Xenopus laevis | Q52725809 | ||
| Propagation of the fertilization-wave on the once-activated surface of the sea urchin egg | Q52748585 | ||
| Calcium Induced Release of Calcium from the Sarcoplasmic Reticulum of Skinned Skeletal Muscle Fibres | Q59063633 | ||
| Is calcium ionophore a universal activator for unfertilised eggs? | Q59065060 | ||
| Activation of hamster eggs by pricking | Q67010997 | ||
| The efflux of magnesium from single crustacean muscle fibres | Q69379047 | ||
| Formation and structure of the fertilization envelope in Xenopus laevis | Q69752612 | ||
| Fertilization-associated light-scattering changes in eggs of the sea urchin Strongylocentrotus purpuratus | Q70556535 | ||
| An estimate of calcium concentration changes during the contraction of single muscle fibres | Q71654898 | ||
| Development of cortical granules and the cortical reaction in rat and Hamster eggs | Q71993848 | ||
| Physiological studies on fertilization and activation of fish eggs. V. The role of calcium ions in activation of Oryzias eggs | Q73437343 | ||
| Physiology of fertilization in fish eggs | Q76425401 | ||
| The fertilization reaction in the sea-urchin egg; a propagated response to sperm attachment | Q80623733 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Japanese rice fish | Q1142975 |
| P304 | page(s) | 448-466 | |
| P577 | publication date | 1978-02-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | A free calcium wave traverses the activating egg of the medaka, Oryzias latipes | |
| P478 | volume | 76 |
| Q36790045 | 1 How do Sperm Activate Eggs? |
| Q39830493 | A Comparative Survey of the Function, Mechanism and Control of Cellular Oscillators |
| Q36352644 | A cytoplasmic clock with the same period as the division cycle in Xenopus eggs |
| Q36212519 | A transient rise in cytosolic calcium follows stimulation of quiescent cells with growth factors and is inhibitable with phorbol myristate acetate |
| Q37904892 | Actin, more than just a housekeeping protein at the scene of fertilization |
| Q36212503 | Activation of frog (Xenopus laevis) eggs by inositol trisphosphate. I. Characterization of Ca2+ release from intracellular stores |
| Q36219978 | Activators of protein kinase C trigger cortical granule exocytosis, cortical contraction, and cleavage furrow formation in Xenopus laevis oocytes and eggs |
| Q33425895 | An electron-microscope and freeze-fracture study of the egg cortex of Brachydanio rerio |
| Q72119191 | Anuran fertilization: a morphological reinvestigation of some early events |
| Q34007880 | Attributes and dynamics of the endoplasmic reticulum in mammalian eggs |
| Q67901078 | Biochemical characterization of a calcium ion stimulated-ATPase from goat spermatozoa |
| Q44673089 | Bioluminescence and chemiluminescence |
| Q47863796 | Ca(2+)-induced Ca(2+) release in sensory neurons: low gain amplification confers intrinsic stability |
| Q42436892 | Ca2+ phase waves: a basis for cellular pacemaking and long-range synchronicity in the guinea-pig gastric pylorus |
| Q37118161 | Ca2+ signaling, genes and the cell cycle |
| Q54735682 | Ca2+-Binding Proteins in Nuclei |
| Q40431840 | Calcium Signalling during Mammalian Fertilization |
| Q40431857 | Calcium Waves and Development |
| Q57363816 | Calcium and fertilization |
| Q35822230 | Calcium at fertilization and in early development |
| Q42077888 | Calcium content and distribution in egg vesicles of Galleria mellonella (Lepidoptera) as determined by X-ray microanalysis |
| Q40287022 | Calcium explosions as triggers of development |
| Q35969871 | Calcium imaging. |
| Q36651062 | Calcium pathway machinery at fertilization in echinoderms |
| Q37028940 | Calcium signalling in early embryos |
| Q61796301 | Calcium signals are necessary to establish auxin transporter polarity in a plant stem cell niche |
| Q47930215 | Calcium transients accompany ooplasmic segregation in zebrafish embryos |
| Q36211174 | Calcium transients during early development in single starfish (Asterias forbesi) oocytes |
| Q36215239 | Calcium uptake and release by isolated cortices and microsomes from the unfertilized egg of the sea urchin Strongylocentrotus droebachiensis |
| Q52400305 | Calcium wave propagation by calcium-induced calcium release: an unusual excitable system. |
| Q37028929 | Calcium waves |
| Q37406078 | Calcium waves initiating from the anomalous subdiffusive calcium sparks. |
| Q30619305 | Calcium waves occur as Drosophila oocytes activate |
| Q41186359 | Calcium, BOBs, QEDs, microdomains and a cellular decision: control of mitotic cell division in sand dollar blastomeres |
| Q71615562 | Calcium-dependence of catecholamine release from bovine adrenal medullary cells after exposure to intense electric fields |
| Q36215408 | Calcium: a central regulator of plant growth and development |
| Q38065639 | Ca²⁺ waves in the heart |
| Q51320284 | Cell biology solves mysteries of reproduction. |
| Q92101468 | Cellular and molecular aspects of oocyte maturation and fertilization: a perspective from the actin cytoskeleton |
| Q34040294 | Cellular calcium imaging: so, what's new? |
| Q56864056 | Changes of free calcium levels with stages of the cell division cycle |
| Q42800803 | Characterization of a calsequestrin-like protein from sea-urchin eggs |
| Q89559748 | Cinematographic observation of an "activation wave" (AW) on the locally inseminated egg ofXenopus laevis |
| Q38125408 | Comparative biology of sperm factors and fertilization-induced calcium signals across the animal kingdom |
| Q36203622 | Contractile basis of ameboid movement. VII. Aequorin luminescence during ameboid movement, endocytosis, and capping. |
| Q52282583 | Control of regeneration and morphogenesis by divalent cations in Acetabularia mediterranea. |
| Q72402295 | Coordinated regulation of free Ca2+ by isolated organelles from a rat insulinoma |
| Q41463621 | Cortical activity in vertebrate eggs. I: The activation waves |
| Q39257414 | Cytoplasmic Structure and Contractility in Amoeboid Cells |
| Q36431491 | Defending the zygote: search for the ancestral animal block to polyspermy |
| Q36532940 | Demonstration of calcium uptake and release by sea urchin egg cortical endoplasmic reticulum |
| Q30541610 | Diffusion of small molecules into medaka embryos improved by electroporation |
| Q36205541 | Direct measurement of intracellular pH changes in Xenopus eggs at fertilization and cleavage |
| Q36201222 | Distribution of tubulin-containing structures in the egg of the sea urchin Strongylocentrotus purpuratus from fertilization through first cleavage |
| Q35238700 | Do astrocytes process neural information? |
| Q33547063 | Dynamic regulation of intracellular calcium signals through calcium release channels |
| Q60915929 | Dynamics expression of during embryonic early development of |
| Q89559576 | Effects of A23187 upon cortical granule exocytosis in eggs of Brachydanio |
| Q71833305 | Effects of altered extracellular and intracellular calcium concentration on hyperpolarizing responses of the hamster egg |
| Q39038802 | Egg Activation at Fertilization |
| Q36200816 | Electrically mediated fast polyspermy block in eggs of the marine worm, Urechis caupo |
| Q41138388 | Estimation of intracellular [Ca2+] by nonlinear indicators. A quantitative analysis |
| Q42446836 | Evoked transient intracellular free Ca 2+ changes and secretion in isolated bovine adrenal medullary cells |
| Q70806896 | Exocytosis in vitro: ultrastructure of the isolated sea urchin egg cortex as seen in platinum replicas |
| Q37795211 | Fast calcium waves |
| Q39693430 | Fluorescence and bioluminescence measurement of cytoplasmic free calcium |
| Q70192162 | Fluorescent localization of calcium at sites of cell attachment and spreading |
| Q59092897 | Free Ca2+ increases in exponential phases during mouse oocyte activation |
| Q68266504 | Freeze-fracture analysis of structural reorganization during meiotic maturation in oocytes of Xenopus laevis |
| Q49063429 | Function and characteristics of repetitive calcium waves associated with meiosis |
| Q41964161 | Genetically encoded probes for measurement of intracellular calcium |
| Q53758971 | Growth of Pollen Tubes of Papaver rhoeas Is Regulated by a Slow-Moving Calcium Wave Propagated by Inositol 1,4,5-Trisphosphate. |
| Q41942614 | Identification and characterization of a Mg2+-dependent and an independent Ca+2-ATPase in microsomal membranes of rat testis |
| Q43481131 | Identification and functional analysis of an ovarian form of the egg activation factor phospholipase C zeta (PLCζ) in pufferfish |
| Q37388379 | Imaging Calcium in Drosophila at Egg Activation |
| Q36778799 | Imaging calcium dynamics in living plants using semi-synthetic recombinant aequorins |
| Q50205564 | Imaging early embryonic calcium activity with GCaMP6s transgenic zebrafish |
| Q30483567 | Imaging of echinoderm fertilization |
| Q33913406 | In and out of the postsynaptic region: signalling proteins on the move |
| Q36222790 | Inositol 1,4,5-trisphosphate-induced calcium release in the organelle layers of the stratified, intact egg of Xenopus laevis |
| Q29615042 | Inositol phosphates and cell signalling |
| Q39397836 | Intracellular calcium regulation and the measurement of free calcium in 2H3 cells and synaptosomes |
| Q36201706 | Intracellular pH in single motile cells |
| Q41096416 | Ion channels: key elements in gamete signaling |
| Q70669461 | Ion-dependent stages of the cortical reaction in surface complexes isolated from Arbacia punctulata eggs |
| Q40267733 | Ionic regulation of egg activation |
| Q36209174 | Isolation and characterization of sea urchin egg cortical granules |
| Q36772602 | Latency correlates with period in a model for signal-induced Ca2+ oscillations based on Ca2(+)-induced Ca2+ release |
| Q36498026 | Local cytoplasmic calcium gradients in living mitotic cells |
| Q41900553 | Local positive feedback by calcium in the propagation of intracellular calcium waves |
| Q36219604 | Long-lasting and rapid calcium changes during mitosis |
| Q34086493 | Male-female communication triggers calcium signatures during fertilization in Arabidopsis |
| Q34119923 | Measurement of single-cell dynamics. |
| Q36531395 | Meiosis, egg activation, and nuclear envelope breakdown are differentially reliant on Ca2+, whereas germinal vesicle breakdown is Ca2+ independent in the mouse oocyte |
| Q36200787 | Membrane fusion during secretion: cortical granule exocytosis in sex urchin eggs as studied by quick-freezing and freeze-fracture |
| Q36206843 | Membrane junctions in Xenopus eggs: their distribution suggests a role in calcium regulation |
| Q40192961 | Membranes in the mitotic apparatus: their structure and function. |
| Q36210079 | Microspectrofluorometry by digital image processing: measurement of cytoplasmic pH. |
| Q36204740 | Microtubule assembly and disassembly at alkaline pH |
| Q34618263 | Modeling calcium wave based on anomalous subdiffusion of calcium sparks in cardiac myocytes |
| Q35048799 | Monitoring of free calcium in the neuronal endoplasmic reticulum: an overview of modern approaches |
| Q41131501 | Non-propagated cortical reactions induced by the divalent ionophore A23187 in eggs of the sea urchin, Lytechinus variegatus |
| Q77481532 | On the conservation of calcium wave speeds |
| Q57125801 | On the conservation of fast calcium wave speeds |
| Q47559855 | Oocyte viability and cortical activation under different salt solutions in Prochilodus lineatus (Teleostei: Prochilodontidae). |
| Q36392907 | Organization of intracellular calcium signals generated by inositol lipid-dependent hormones |
| Q70445638 | Periodic hyperpolarizing responses in hamster and mouse eggs fertilized with mouse sperm |
| Q42487551 | Periodic increase of cytoplasmic free calcium in fertilized hamster eggs measured with calcium-sensitive electrodes |
| Q77910511 | Phospholipid vesicle binding and aggregation by four novel fish annexins are differently regulated by Ca2+ |
| Q86912577 | Phytochrome-mediated uptake of calcium in Mougeotia cells |
| Q40129200 | Plant and fungal calmodulin: Ca2+-dependent regulation of plant NAD kinase |
| Q70526305 | Plasma membrane bound Ca2+-ATPase activity in bull sperm |
| Q45965163 | Preloading of micromolar intracellular Ca2+ during capacitation of Sicyonia ingentis sperm, and the role of the pHi decrease during the acrosome reaction |
| Q36428236 | Progress in video microscopy |
| Q40728762 | Properties of a cytostatic factor from Xenopus laevis eggs |
| Q36735545 | Protein kinase C acts downstream of calcium at entry into the first mitotic interphase of Xenopus laevis |
| Q36231879 | Protein phosphorylation changes reveal new candidates in the regulation of egg activation and early embryogenesis in D. melanogaster |
| Q56838103 | Reading the patterns in living cells —the physics of ca2+signaling |
| Q72575944 | Regenerative and non-regenerative calcium transients in hamster eggs triggered by inositol 1,4,5-trisphosphate |
| Q38175111 | Retrospective on the development of aequorin and aequorin-based imaging to visualize changes in intracellular free [Ca(2+) ]. |
| Q36207874 | Roles of calcium and pH in activation of eggs of the medaka fish, Oryzias latipes |
| Q28534374 | Ryanodine Receptors Selectively Interact with L Type Calcium Channels in Mouse Taste Cells |
| Q36427058 | Signal transduction in mammalian oocytes during fertilization |
| Q36396563 | Signal-induced Ca2+ oscillations: Properties of a model based on Ca2+-induced Ca2+ release |
| Q36530608 | Slow calcium waves accompany cytokinesis in medaka fish eggs |
| Q36213441 | Source and sinks for the calcium released during fertilization of single sea urchin eggs |
| Q40157995 | Sources of calcium in egg activation: A review and hypothesis |
| Q46467681 | Spatial characteristics to calcium signalling; the calcium wave as a basic unit in plant cell calcium signalling |
| Q34504177 | Spatial trigger waves: positive feedback gets you a long way. |
| Q45284292 | Spatiotemporal characteristics and mechanisms of intracellular Ca(2+) increases at fertilization in eggs of jellyfish (Phylum Cnidaria, Class Hydrozoa). |
| Q40130009 | Sperm-egg binding events during sea urchin fertilization |
| Q41580694 | Spontaneous calcium oscillations and mechanically and chemically induced calcium responses in mammary epithelial cells. |
| Q36736391 | Stretch-activated calcium channels relay fast calcium waves propagated by calcium-induced calcium influx |
| Q40082485 | Structure And Evolution Of Calcium-Modulated Protein |
| Q40431823 | Subcellular Organization of Calcium Signalling in Hepatocytes and the Intact Liver |
| Q36306201 | Synexin facilitates fusion of specific phospholipid membranes at divalent cation concentrations found intracellularly |
| Q44439715 | Teleost fish spermatozoa contain a cytosolic protein factor that induces calcium release in sea urchin egg homogenates and triggers calcium oscillations when injected into mouse oocytes |
| Q36211094 | Temporal sequence and spatial distribution of early events of fertilization in single sea urchin eggs |
| Q39808924 | The Control of Microtubule Assembly in Vivo |
| Q36383439 | The activation wave of calcium in the ascidian egg and its role in ooplasmic segregation |
| Q34332747 | The calcium-dependent ribonuclease XendoU promotes ER network formation through local RNA degradation |
| Q26782462 | The endoplasmic reticulum: structure, function and response to cellular signaling |
| Q36216813 | The part played by inositol trisphosphate and calcium in the propagation of the fertilization wave in sea urchin eggs |
| Q37615179 | The path of calcium in cytosolic calcium oscillations: a unifying hypothesis |
| Q48886104 | The polo-like kinase Plx1 prevents premature inactivation of the APC(Fizzy)-dependent pathway in the early Xenopus cell cycle |
| Q34769299 | The roles of Ca2+, downstream protein kinases, and oscillatory signaling in regulating fertilization and the activation of development |
| Q89558660 | The temporal and spatial relationships between cortical contraction, sperm trail formation, and pronuclear migration in fertilizedXenopus eggs |
| Q99710999 | The zinc transporter ZIP9 (Slc39a9) regulates zinc dynamics essential to egg activation in zebrafish |
| Q33285001 | Time course and pattern of cortical granule breakdown in hamster eggs after sperm fusion |
| Q36207614 | Transient increase in calcium efflux accompanies fertilization in Chlamydomonas |
| Q37081123 | Transitioning from egg to embryo: triggers and mechanisms of egg activation |
| Q26863278 | Transmembrane signal transduction in oocyte maturation and fertilization: focusing on Xenopus laevis as a model animal |
| Q36204354 | Video image processing greatly enhances contrast, quality, and speed in polarization-based microscopy |
| Q69746149 | Wave of cortical actin polymerization in the sea urchin egg |
| Q68344233 | Wave of free calcium at fertilization in the sea urchin egg visualized with fura-2 |
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