scholarly article | Q13442814 |
P356 | DOI | 10.1523/JNEUROSCI.0999-14.2014 |
P8608 | Fatcat ID | release_fezwp3zsujbernr3x5hnyagqqq |
P3181 | OpenCitations bibliographic resource ID | 1100498 |
P932 | PMC publication ID | 4160768 |
P698 | PubMed publication ID | 25209271 |
P50 | author | Thomas C. Südhof | Q97270 |
Changliang Liu | Q56902087 | ||
Pascal S Kaeser | Q87912637 | ||
P2093 | author name string | Richard G Held | |
Hajnalka Nyitrai | |||
Lydia S Bickford | |||
P2860 | cites work | Activation of transcription factor NF-kappaB requires ELKS, an IkappaB kinase regulatory subunit | Q24297861 |
ELKS1 and Ca(2+) channel subunit β4 interact and colocalize at cerebellar synapses | Q24298132 | ||
A family of RIM-binding proteins regulated by alternative splicing: Implications for the genesis of synaptic active zones | Q24312023 | ||
Cast: a novel protein of the cytomatrix at the active zone of synapses that forms a ternary complex with RIM1 and munc13-1 | Q24671839 | ||
The presynaptic active zone | Q26269863 | ||
RIM genes differentially contribute to organizing presynaptic release sites | Q26269874 | ||
A dual-Ca2+-sensor model for neurotransmitter release in a central synapse | Q26269875 | ||
RIM determines Ca²+ channel density and vesicle docking at the presynaptic active zone | Q26269881 | ||
Piccolo and bassoon maintain synaptic vesicle clustering without directly participating in vesicle exocytosis | Q26269909 | ||
RIM proteins activate vesicle priming by reversing autoinhibitory homodimerization of Munc13 | Q26269920 | ||
RIM proteins tether Ca2+ channels to presynaptic active zones via a direct PDZ-domain interaction | Q26269921 | ||
ELKS2alpha/CAST deletion selectively increases neurotransmitter release at inhibitory synapses | Q26269927 | ||
RIM1alpha and RIM1beta are synthesized from distinct promoters of the RIM1 gene to mediate differential but overlapping synaptic functions | Q26269937 | ||
Examining synaptotagmin 1 function in dense core vesicle exocytosis under direct control of Ca2+ | Q26269939 | ||
Redundant functions of RIM1alpha and RIM2alpha in Ca(2+)-triggered neurotransmitter release | Q26269947 | ||
Munc13-1 is essential for fusion competence of glutamatergic synaptic vesicles | Q27863297 | ||
Synaptotagmin I functions as a calcium regulator of release probability | Q28204147 | ||
RIM1alpha forms a protein scaffold for regulating neurotransmitter release at the active zone | Q28215837 | ||
CAST2: identification and characterization of a protein structurally related to the presynaptic cytomatrix protein CAST | Q28238737 | ||
International Union of Pharmacology. XLVIII. Nomenclature and structure-function relationships of voltage-gated calcium channels | Q28289138 | ||
Differential expression of active zone proteins in neuromuscular junctions suggests functional diversification | Q28571292 | ||
Genetic analysis of Mint/X11 proteins: essential presynaptic functions of a neuronal adaptor protein family | Q28589218 | ||
Characterization of novel Rab6-interacting proteins involved in endosome-to-TGN transport | Q28592027 | ||
Differential control of vesicle priming and short-term plasticity by Munc13 isoforms | Q28592163 | ||
Protamine-Cre recombinase transgenes efficiently recombine target sequences in the male germ line of mice, but not in embryonic stem cells | Q29618298 | ||
Synaptic assembly of the brain in the absence of neurotransmitter secretion | Q29618899 | ||
Definition of the readily releasable pool of vesicles at hippocampal synapses | Q29620402 | ||
Bassoon and the synaptic ribbon organize Ca²+ channels and vesicles to add release sites and promote refilling | Q30497701 | ||
The Bruchpilot cytomatrix determines the size of the readily releasable pool of synaptic vesicles | Q30543185 | ||
The architecture of active zone material at the frog's neuromuscular junction | Q30981051 | ||
Fusion of a novel gene, ELKS, to RET due to translocation t(10;12)(q11;p13) in a papillary thyroid carcinoma | Q33862909 | ||
Homo- and heterodimerization of synapsins | Q33864060 | ||
Active zone protein Bassoon co-localizes with presynaptic calcium channel, modifies channel function, and recovers from aging related loss by exercise | Q34305261 | ||
Short-term synaptic plasticity is altered in mice lacking synapsin I. | Q34321716 | ||
Beta subunits of voltage-gated calcium channels | Q35682310 | ||
Activity-dependent regulation of inhibition via GAD67 | Q36073372 | ||
RIM controls homeostatic plasticity through modulation of the readily-releasable vesicle pool | Q36469214 | ||
Maturation of active zone assembly by Drosophila Bruchpilot | Q37267704 | ||
UNC-13 and UNC-10/rim localize synaptic vesicles to specific membrane domains. | Q37417587 | ||
Flp recombinase promotes site-specific DNA recombination in embryonic stem cells and transgenic mice | Q37577945 | ||
Molecular organization and plasticity of the cytomatrix at the active zone | Q37949766 | ||
New insights into molecular players involved in neurotransmitter release. | Q37982009 | ||
Molecular mechanisms for synchronous, asynchronous, and spontaneous neurotransmitter release | Q38166028 | ||
Pushing synaptic vesicles over the RIM. | Q38437297 | ||
Bassoon specifically controls presynaptic P/Q-type Ca(2+) channels via RIM-binding protein | Q39008473 | ||
RIM-binding protein, a central part of the active zone, is essential for neurotransmitter release | Q39754475 | ||
Rab6 regulates transport and targeting of exocytotic carriers | Q40097541 | ||
Presynaptic Ca2+ channels compete for channel type-preferring slots in altered neurotransmission arising from Ca2+ channelopathy | Q40528552 | ||
RIM1 confers sustained activity and neurotransmitter vesicle anchoring to presynaptic Ca2+ channels. | Q41770497 | ||
Mechanisms of short-term plasticity at neuromuscular active zones of Drosophila | Q41788883 | ||
A post-docking role for active zone protein Rim. | Q41977207 | ||
Naked dense bodies provoke depression. | Q42478978 | ||
RIM binding proteins (RBPs) couple Rab3-interacting molecules (RIMs) to voltage-gated Ca(2+) channels | Q42861890 | ||
Direct interactions between C. elegans RAB-3 and Rim provide a mechanism to target vesicles to the presynaptic density | Q43241214 | ||
Development of vesicle pools during maturation of hippocampal synapses. | Q43875561 | ||
Two forms of the gamma-aminobutyric acid synthetic enzyme glutamate decarboxylase have distinct intraneuronal distributions and cofactor interactions. | Q45935043 | ||
SYD-2 Liprin-alpha organizes presynaptic active zone formation through ELKS. | Q45958930 | ||
Extensive remodeling of the presynaptic cytomatrix upon homeostatic adaptation to network activity silencing. | Q45970083 | ||
Redundant localization mechanisms of RIM and ELKS in Caenorhabditis elegans. | Q46564659 | ||
Bruchpilot promotes active zone assembly, Ca2+ channel clustering, and vesicle release | Q47070593 | ||
Bruchpilot, a protein with homology to ELKS/CAST, is required for structural integrity and function of synaptic active zones in Drosophila | Q47072025 | ||
Deletion of the presynaptic scaffold CAST reduces active zone size in rod photoreceptors and impairs visual processing. | Q47288747 | ||
Monitoring synaptic transmission in primary neuronal cultures using local extracellular stimulation | Q48363143 | ||
Physical and functional interaction of the active zone protein CAST/ERC2 and the β-subunit of the voltage-dependent Ca(2+) channel | Q48519130 | ||
On the relationship between calcium concentration and the amplitude of the end-plate potential | Q72241711 | ||
Rab6, Rab8, and MICAL3 cooperate in controlling docking and fusion of exocytotic carriers | Q84149697 | ||
[Synaptic vesicles and pouches at the level of "active zones" of the neuromuscular junction] | Q93821507 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 37 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | protein family | Q417841 |
ELKS/RAB6-interacting/CAST family member 1 | Q21987948 | ||
P304 | page(s) | 12289-303 | |
P577 | publication date | 2014-09-10 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | The active zone protein family ELKS supports Ca2+ influx at nerve terminals of inhibitory hippocampal neurons | |
P478 | volume | 34 |
Q89568534 | CAST/ELKS Proteins Control Voltage-Gated Ca2+ Channel Density and Synaptic Release Probability at a Mammalian Central Synapse |
Q58553974 | Coupling the Structural and Functional Assembly of Synaptic Release Sites |
Q60238537 | Cytomatrix proteins CAST and ELKS regulate retinal photoreceptor development and maintenance |
Q49344579 | Dopamine Secretion Is Mediated by Sparse Active Zone-like Release Sites. |
Q53840590 | ELKS active zone proteins as multitasking scaffolds for secretion. |
Q37071725 | ELKS controls the pool of readily releasable vesicles at excitatory synapses through its N-terminal coiled-coil domains. |
Q38713426 | ELKS1 localizes the synaptic vesicle priming protein bMunc13-2 to a specific subset of active zones. |
Q47852140 | Efficient stimulus-secretion coupling at ribbon synapses requires RIM-binding protein tethering of L-type Ca2+ channels |
Q39756941 | Fusion Competent Synaptic Vesicles Persist upon Active Zone Disruption and Loss of Vesicle Docking |
Q64109077 | Imaging and Analysis of Presynaptic Calcium Influx in Cultured Neurons Using synGCaMP6f |
Q91595167 | Impaired experience-dependent maternal care in presynaptic active zone protein CAST-deficient dams |
Q26766019 | Molecular Machines Regulating the Release Probability of Synaptic Vesicles at the Active Zone |
Q38373274 | Plasma membrane-associated platforms: dynamic scaffolds that organize membrane-associated events. |
Q90246164 | Presynaptic calcium channels: specialized control of synaptic neurotransmitter release |
Q89999397 | Role of the active zone protein, ELKS, in insulin secretion from pancreatic β-cells |
Q33810200 | Routing of the RAB6 secretory pathway towards the lysosome related organelle of melanocytes |
Q89569478 | Spatiotemporal dynamics of multi-vesicular release is determined by heterogeneity of release sites within central synapses |
Q90053610 | Targeting the cholinergic system in Parkinson's disease |
Q91063338 | The control of release probability at nerve terminals |
Q38365576 | The presynaptic active zone: A dynamic scaffold that regulates synaptic efficacy |
Q47990307 | Transcellular Nanoalignment of Synaptic Function |
Q39420011 | Vertebrate Presynaptic Active Zone Assembly: a Role Accomplished by Diverse Molecular and Cellular Mechanisms |
Q90685525 | Voltage-Gated Calcium Channels: Key Players in Sensory Coding in the Retina and the Inner Ear |
Search more.