| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Wulfram Gerstner | Q49264318 |
| P2093 | author name string | Friedemann Zenke | |
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| Hebb and homeostasis in neuronal plasticity | Q33905421 | ||
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| A new form of cerebellar long-term potentiation is postsynaptic and depends on nitric oxide but not cAMP. | Q34032867 | ||
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| Too many cooks? Intrinsic and synaptic homeostatic mechanisms in cortical circuit refinement | Q37857840 | ||
| Homeostatic signaling and the stabilization of neural function | Q38158726 | ||
| Computational implications of biophysical diversity and multiple timescales in neurons and synapses for circuit performance | Q38698951 | ||
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| Unified pre- and postsynaptic long-term plasticity enables reliable and flexible learning | Q42586745 | ||
| Pyramidal neuron conductance state gates spike-timing-dependent plasticity. | Q42792589 | ||
| Synaptic plasticity in neural networks needs homeostasis with a fast rate detector | Q42906956 | ||
| Inhibitory interneurons decorrelate excitatory cells to drive sparse code formation in a spiking model of V1. | Q43635335 | ||
| The influence of prior synaptic activity on the induction of long-term potentiation | Q44155909 | ||
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| Reversal and stabilization of synaptic modifications in a developing visual system | Q44484618 | ||
| Intrinsic stabilization of output rates by spike-based Hebbian learning | Q46124130 | ||
| Is heterosynaptic modulation essential for stabilizing Hebbian plasticity and memory? | Q34185462 | ||
| Temporal contiguity requirements for long-term associative potentiation/depression in the hippocampus | Q34254681 | ||
| Theory for the development of neuron selectivity: orientation specificity and binocular interaction in visual cortex | Q34277494 | ||
| Long-term plasticity of intrinsic excitability: learning rules and mechanisms | Q34281361 | ||
| Emergence of simple-cell receptive field properties by learning a sparse code for natural images | Q34380659 | ||
| Cascade models of synaptically stored memories | Q34396014 | ||
| Synaptic tagging and long-term potentiation | Q34415413 | ||
| Modeling the dynamic interaction of Hebbian and homeostatic plasticity | Q34469264 | ||
| Variability, compensation and homeostasis in neuron and network function | Q34540735 | ||
| Voltage and Spike Timing Interact in STDP - A Unified Model | Q34689720 | ||
| Rapid synaptic scaling induced by changes in postsynaptic firing | Q34764655 | ||
| Heterosynaptic structural plasticity on local dendritic segments of hippocampal CA1 neurons | Q34964343 | ||
| Mathematical formulations of Hebbian learning | Q35014138 | ||
| The Convallis rule for unsupervised learning in cortical networks | Q35034106 | ||
| Long-term potentiation: outstanding questions and attempted synthesis | Q35124845 | ||
| A triplet spike-timing-dependent plasticity model generalizes the Bienenstock-Cooper-Munro rule to higher-order spatiotemporal correlations | Q35585654 | ||
| A Hebbian/Anti-Hebbian Neural Network for Linear Subspace Learning: A Derivation from Multidimensional Scaling of Streaming Data. | Q35631313 | ||
| Stability of Neuronal Networks with Homeostatic Regulation. | Q35685984 | ||
| A Diffusive Homeostatic Signal Maintains Neural Heterogeneity and Responsiveness in Cortical Networks | Q35687027 | ||
| Calcium-based plasticity model explains sensitivity of synaptic changes to spike pattern, rate, and dendritic location | Q35844992 | ||
| Cross-modal regulation of synaptic AMPA receptors in primary sensory cortices by visual experience | Q35866951 | ||
| Stability and Competition in Multi-spike Models of Spike-Timing Dependent Plasticity | Q35944926 | ||
| The neural code between neocortical pyramidal neurons depends on neurotransmitter release probability | Q35961345 | ||
| Nonlinear Hebbian Learning as a Unifying Principle in Receptive Field Formation | Q36149986 | ||
| Neural network dynamics | Q36196548 | ||
| Inferring learning rules from distributions of firing rates in cortical neurons | Q36338447 | ||
| The late maintenance of hippocampal LTP: requirements, phases, 'synaptic tagging', 'late-associativity' and implications | Q36571268 | ||
| Heterosynaptic plasticity: multiple mechanisms and multiple roles | Q37046902 | ||
| Phenomenological models of synaptic plasticity based on spike timing | Q37168294 | ||
| Partial Breakdown of Input Specificity of STDP at Individual Synapses Promotes New Learning | Q37198397 | ||
| Heterosynaptic plasticity prevents runaway synaptic dynamics | Q37208494 | ||
| Inhibitory plasticity dictates the sign of plasticity at excitatory synapses | Q37502437 | ||
| Rapid homeostasis by disinhibition during whisker map plasticity. | Q37543674 | ||
| Making memories last: the synaptic tagging and capture hypothesis | Q37822273 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1715 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | memory | Q492 |
| neuroplasticity | Q849491 | ||
| P577 | publication date | 2017-03-01 | |
| 2017-03-05 | |||
| P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
| P1476 | title | Hebbian plasticity requires compensatory processes on multiple timescales | |
| P478 | volume | 372 |
| Q33683546 | A Model of Fast Hebbian Spike Latency Normalization |
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| Q41952767 | Emergent Dynamical Properties of the BCM Learning Rule |
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| Q38769764 | Integrating Hebbian and homeostatic plasticity: the current state of the field and future research directions |
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| Q90286013 | The self-organized learning of noisy environmental stimuli requires distinct phases of plasticity |
| Q57491095 | Theoretical Models of Neural Development |
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| Q50461350 | Tumour necrosis factor-mediated homeostatic synaptic plasticity in behavioural models: testing a role in maternal immune activation. |
| Q89493995 | Unsupervised Learning of Persistent and Sequential Activity |
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