| Q40493242 | 10 Regulation of the cell division cycle by inositol trisphosphate and the calcium signaling pathway |
| Q40763852 | A novel recombinant hyperaffinity inositol 1,4,5-trisphosphate (IP(3)) absorbent traps IP(3), resulting in specific inhibition of IP(3)-mediated calcium signaling |
| Q44809216 | Activation and development of porcine oocytes matured in vitro following injection of inositol 1,4,5-trisphosphate |
| Q48745223 | Activation of amphibian oocytes by sperm extracts |
| Q33872409 | Activation of development in mammals: is there a role for a sperm cytosolic factor? |
| Q43954171 | Activation of in vitro matured pig oocytes using activators of inositol triphosphate or ryanodine receptors |
| Q42701602 | All-or-nothing responses to carbachol in single intestinal smooth muscle cells of rat |
| Q27438160 | Alteration of the cortical actin cytoskeleton deregulates Ca2+ signaling, monospermic fertilization, and sperm entry |
| Q36319376 | Alterations of PLCbeta1 in mouse eggs change calcium oscillatory behavior following fertilization. |
| Q36245720 | Amplification of receptor signalling by Ca2+ entry-mediated translocation and activation of PLCgamma2 in B lymphocytes. |
| Q36557262 | An insufficient increase of cytosolic free calcium level results postovulatory aging-induced abortive spontaneous egg activation in rat. |
| Q48894666 | Analysis of zona pellucida modifications due to cortical granule exocytosis in single porcine oocytes, using enhanced chemiluminescence |
| Q78030363 | Are there inositol 1,4,5-triphosphate (IP3) receptors in human sperm? |
| Q34007880 | Attributes and dynamics of the endoplasmic reticulum in mammalian eggs |
| Q33872415 | Biochemical and cellular insights into the temporal window of normal fertilization |
| Q38069249 | Ca(2+) homeostasis and regulation of ER Ca(2+) in mammalian oocytes/eggs |
| Q42521258 | Ca(2+) oscillations promote APC/C-dependent cyclin B1 degradation during metaphase arrest and completion of meiosis in fertilizing mouse eggs. |
| Q36803189 | Ca2+ influx and the store-operated Ca2+ entry pathway undergo regulation during mouse oocyte maturation |
| Q47824626 | Ca2+ oscillation-inducing phospholipase C zeta expressed in mouse eggs is accumulated to the pronucleus during egg activation. |
| Q52006371 | Ca2+ oscillatory pattern in fertilized mouse eggs affects gene expression and development to term. |
| Q34706827 | Ca2+ signaling during mammalian fertilization: requirements, players, and adaptations |
| Q38924178 | Ca2+ transport and signalling in enamel cells |
| Q41762414 | Ca2+ waves in PC12 neurites: a bidirectional, receptor-oriented form of Ca2+ signaling |
| Q48551110 | Calcineurin role in porcine oocyte activation |
| Q40431840 | Calcium Signalling during Mammalian Fertilization |
| Q41890078 | Calcium and cell cycle progression: possible effects of external perturbations on cell proliferation |
| Q57363816 | Calcium and fertilization |
| Q35822230 | Calcium at fertilization and in early development |
| Q34019791 | Calcium oscillations and waves: is the IP3R Ca2+ channel the culprit? |
| Q48502826 | Calcium oscillations in fertilized pig oocytes are associated with repetitive interactions between STIM1 and ORAI1. |
| Q36254813 | Calcium release at fertilization in starfish eggs is mediated by phospholipase Cgamma |
| Q24609479 | Calcium signaling in mammalian egg activation and embryo development: the influence of subcellular localization |
| Q37028940 | Calcium signalling in early embryos |
| Q34169017 | Calcium waves induced by large voltage pulses in fish keratocytes |
| Q79848855 | Calmodulin-dependent protein kinase II triggers mouse egg activation and embryo development in the absence of Ca2+ oscillations |
| Q45050264 | Cell cycle-coupled [Ca(2+)](i) oscillations in mouse zygotes and function of the inositol 1,4,5-trisphosphate receptor-1. |
| Q40215883 | Cell cycle-dependent regulation of store-operated I(CRAC) and Mg2+-nucleotide-regulated MagNuM (TRPM7) currents. |
| Q92101468 | Cellular and molecular aspects of oocyte maturation and fertilization: a perspective from the actin cytoskeleton |
| Q52716227 | Cellular and molecular mechanisms of various types of oocyte aging. |
| Q48797828 | Changes in endoplasmic reticulum structure during mouse oocyte maturation are controlled by the cytoskeleton and cytoplasmic dynein. |
| Q35587588 | Changes in organization of the endoplasmic reticulum during Xenopus oocyte maturation and activation |
| Q59330263 | Chemotactic behavior of egg mitochondria in response to sperm fusion in mice |
| Q41168894 | Control of calcium oscillations by phosphorylation of metabotropic glutamate receptors |
| Q39405031 | Critical intracellular Ca2+ concentration for all-or-none Ca2+ spiking in single smooth muscle cells. |
| Q72756811 | Cyclic ADP-ribose: metabolism and calcium mobilizing function |
| Q52193079 | Developmental expression of the inositol 1,4,5-trisphosphate receptor and localization of inositol 1,4,5-trisphosphate during early embryogenesis in Xenopus laevis. |
| Q42008003 | Different Ca2+-releasing abilities of sperm extracts compared with tissue extracts and phospholipase C isoforms in sea urchin egg homogenate and mouse eggs |
| Q72312534 | Differential expression of type 2 and type 3 inositol 1,4,5-trisphosphate receptor mRNAs in various mouse tissues: in situ hybridization study |
| Q44674172 | Dual regulation of calcium oscillation in astrocytes by growth factors and pro-inflammatory cytokines via the mitogen-activated protein kinase cascade. |
| Q64083081 | Dual-FRET imaging of IP and Ca revealed Ca-induced IP production maintains long lasting Ca oscillations in fertilized mouse eggs |
| Q33547063 | Dynamic regulation of intracellular calcium signals through calcium release channels |
| Q40764549 | Dynamics of the calcium signal that triggers mammalian egg activation |
| Q36244779 | Effect of M-phase kinase phosphorylations on type 1 inositol 1,4,5-trisphosphate receptor-mediated Ca2+ responses in mouse eggs |
| Q34018300 | Effects of rapid buffers on Ca2+ diffusion and Ca2+ oscillations |
| Q39038802 | Egg Activation at Fertilization |
| Q89737512 | Essential Role of Sperm-Specific PLC-Zeta in Egg Activation and Male Factor Infertility: An Update |
| Q42521877 | Evidence for the existence of inositol (1,4,5)-trisphosphate- and ryanodine-sensitive pools in bovine endothelial cells. Ca2+ releases in cells with different basal level of intracellular Ca2+. |
| Q41810995 | Evidence for the involvement of a small subregion of the endoplasmic reticulum in the inositol trisphosphate receptor-induced activation of Ca2+ inflow in rat hepatocytes |
| Q46252510 | Expression analysis of regulatory microRNAs in bovine cumulus oocyte complex and preimplantation embryos |
| Q33954767 | Fertilization signalling and protein-tyrosine kinases |
| Q34656165 | Flipping the switch: how a sperm activates the egg at fertilization |
| Q70501478 | Flunarizine blocks elevation of free cytosolic calcium in synaptosomes following sustained depolarization |
| Q42482615 | Functional, biochemical, and chromatographic characterization of the complete [Ca2+]i oscillation-inducing activity of porcine sperm |
| Q53758971 | Growth of Pollen Tubes of Papaver rhoeas Is Regulated by a Slow-Moving Calcium Wave Propagated by Inositol 1,4,5-Trisphosphate. |
| Q46627362 | Hormone-induced cortical maturation ensures the slow block to polyspermy and does not couple with meiotic maturation in starfish |
| Q33623417 | Human PLCζ exhibits superior fertilization potency over mouse PLCζ in triggering the Ca(2+) oscillations required for mammalian oocyte activation |
| Q50639669 | Inhibition of boar sperm hyaluronidase activity by tannic acid reduces polyspermy during in vitro fertilization of porcine oocytes. |
| Q33912926 | Inhibition of nuclear vesicle fusion by antibodies that block activation of inositol 1,4,5-trisphosphate receptors |
| Q34436610 | Inositol 1,4,5-trisphosphate mass changes from fertilization through first cleavage in Xenopus laevis |
| Q34016645 | Inositol 1,4,5-trisphosphate receptor 1 degradation in mouse eggs and impact on [Ca2+]i oscillations |
| Q36382689 | Inositol 1,4,5-trisphosphate receptors selectively localized to the acrosomes of mammalian sperm |
| Q28262867 | Inositol trisphosphate and calcium signalling |
| Q46316213 | Inositol trisphosphate-mediated Ca2+ influx into Xenopus oocytes triggers Ca2+ liberation from intracellular stores |
| Q36310634 | Intracellular calcium increases with hyperactivation in intact, moving hamster sperm and oscillates with the flagellar beat cycle |
| Q48894424 | Intracellular calcium responses in bovine oocytes induced by spermatozoa and by reagents |
| Q30176067 | Involvement of phospholipase Cgamma1 in mouse egg activation induced by a truncated form of the C-kit tyrosine kinase present in spermatozoa. |
| Q61896835 | Ion Channel Function During Oocyte Maturation and Fertilization |
| Q41096416 | Ion channels: key elements in gamete signaling |
| Q74172490 | Kinetics of Ca2+ release evoked by photolysis of caged InsP3 in rat submandibular cells |
| Q37526318 | Lack of calcium oscillation causes failure of oocyte activation after intracytoplasmic sperm injection in pigs |
| Q44319035 | Maturation-associated increase in IP3 receptor type 1: role in conferring increased IP3 sensitivity and Ca2+ oscillatory behavior in mouse eggs |
| Q40411703 | Mechanisms of calcium regulation in sea urchin eggs and their activities during fertilization |
| Q48556248 | Mechanisms underlying phasic contractions of pregnant rat myometrium stimulated with aluminum fluoride |
| Q42037637 | Model for receptor-controlled cytosolic calcium oscillations and for external influences on the signal pathway |
| Q26750781 | Molecular triggers of egg activation at fertilization in mammals |
| Q35632688 | Morphological, cellular and molecular changes during postovulatory egg aging in mammals |
| Q35879573 | Mouse oocytes fertilised by ICSI during in vitro maturation retain the ability to be activated after refertilisation in metaphase II and can generate Ca2+ oscillations |
| Q42541236 | On the roles of Ca2+ diffusion, Ca2+ buffers, and the endoplasmic reticulum in IP3-induced Ca2+ waves |
| Q36086851 | Oocyte activation and phospholipase C zeta (PLCζ): diagnostic and therapeutic implications for assisted reproductive technology |
| Q72274905 | Pacemaker potentials in lymphatic smooth muscle of the guinea-pig mesentery |
| Q48690425 | Participation of inositol trisphosphate and ryanodine receptors inBufo arenarumoocyte activation |
| Q34520156 | Pharmacological modulation of intracellular Ca(2+) channels at the single-channel level |
| Q90705572 | Phospholipase Cζ (PLCζ) versus postacrosomal sheath WW domain-binding protein (PAWP): Which molecule will survive as a sperm factor? |
| Q34016683 | Phosphorylation of IP3R1 and the regulation of [Ca2+]i responses at fertilization: a role for the MAP kinase pathway. |
| Q33744983 | Plasma membrane inositol 1,4,5-trisphosphate-activated channels mediate signal transduction in lobster olfactory receptor neurons |
| Q33755398 | Portrait of an oocyte: our obscure origin |
| Q34018977 | Properties of intracellular Ca2+ waves generated by a model based on Ca(2+)-induced Ca2+ release |
| Q36477996 | Proteolytic processing of phospholipase Czeta and [Ca2+]i oscillations during mammalian fertilization |
| Q28972346 | Re-starting life: Fertilization and the transition from meiosis to mitosis |
| Q30471968 | Recruitment of individually (all-or-none) responding cells, rather than amplitude enhancement, is the single-cell mechanism subserving the dose-responsive activation of intracellular calcium second messenger signaling by the human luteinizing-hormon |
| Q72575944 | Regenerative and non-regenerative calcium transients in hamster eggs triggered by inositol 1,4,5-trisphosphate |
| Q30559335 | Regulation of endoplasmic reticulum Ca(2+) oscillations in mammalian eggs |
| Q35131871 | Regulation of inositol 1,4,5-trisphosphate receptor function during mouse oocyte maturation. |
| Q36689633 | Regulation of mouse egg activation: presence of ryanodine receptors and effects of microinjected ryanodine and cyclic ADP ribose on uninseminated and inseminated eggs |
| Q57362882 | Release of the Ca2+ oscillation-inducing sperm factor during mouse fertilization |
| Q34211004 | Reorganization of the endoplasmic reticulum and development of Ca2+ release mechanisms during meiotic maturation of human oocytes |
| Q64098739 | Role of Type 1 Inositol 1,4,5-triphosphate Receptors in Mammalian Oocytes |
| Q74505028 | Sequence-specific antibodies to connexins block intercellular calcium signaling through gap junctions |
| Q36427058 | Signal transduction in mammalian oocytes during fertilization |
| Q50761452 | Spatiotemporal analysis of calcium dynamics in the nucleus of hamster oocytes. |
| Q37709068 | Spatiotemporal dynamics of Ca2+ signaling and its physiological roles |
| Q33926634 | Species-specific differences in the activity and nuclear localization of murine and bovine phospholipase C zeta 1 |
| Q52716235 | Structural and functional changes linked to, and factors promoting, cytoplasmic maturation in mammalian oocytes. |
| Q73042675 | Study of protein kinase C antagonists on cortical granule exocytosis and cell-cycle resumption in fertilized mouse eggs |
| Q57465860 | TRPM7 and Ca3.2 channels mediate Ca influx required for egg activation at fertilization |
| Q40981898 | Targeted disruption of the mouse phospholipase C beta3 gene results in early embryonic lethality |
| Q58585851 | The Eggstraordinary Story of How Life Begins |
| Q38302480 | The MEK inhibitor, U0126, alters fertilization-induced [Ca2+]i oscillation parameters and secretion: differential effects associated with in vivo and in vitro meiotic maturation |
| Q50647741 | The asymptotic behavior of solutions of the buffered bistable system. |
| Q28594651 | The biological significance of phospholipase C beta 1 gene mutation in mouse sperm in the acrosome reaction, fertilization, and embryo development |
| Q34332747 | The calcium-dependent ribonuclease XendoU promotes ER network formation through local RNA degradation |
| Q41368224 | The effect of mersalyl on inositol trisphosphate receptor binding and ion channel function |
| Q26782462 | The endoplasmic reticulum: structure, function and response to cellular signaling |
| Q24313145 | The human type 1 inositol 1,4,5-trisphosphate receptor from T lymphocytes. Structure, localization, and tyrosine phosphorylation |
| Q42062069 | The inositol 1,4,5-trisphosphate-gated Ca2+ channel: effect of the protein thiol reagent thimerosal on channel activity |
| Q50642430 | The presence of X- and Y-chromosomes in oocytes leads to impairment in the progression of the second meiotic division. |
| Q30574417 | The role of MATER in endoplasmic reticulum distribution and calcium homeostasis in mouse oocytes |
| Q34769299 | The roles of Ca2+, downstream protein kinases, and oscillatory signaling in regulating fertilization and the activation of development |
| Q72177917 | Thimerosal reveals calcium-induced calcium release in unfertilised sea urchin eggs |
| Q42828218 | Two calcium-binding sites mediate the interconversion of liver inositol 1,4,5-trisphosphate receptors between three conformational states. |
| Q47892523 | Type 1 inositol 1,4,5-trisphosphate receptor is required for induction of long-term depression in cerebellar Purkinje neurons. |
| Q28594466 | Tyr-167/Trp-168 in type 1/3 inositol 1,4,5-trisphosphate receptor mediates functional coupling between ligand binding and channel opening |
| Q48954783 | Unique protein kinase C profile in mouse oocytes: lack of calcium-dependent conventional isoforms suggested by rtPCR and Western blotting |
| Q73405632 | Uptake and incorporation of myo-inositol by bovine preimplantation embryos from two-cell to early blastocyst stages |
| Q38597724 | Vertebrate Reproduction |