Brennan EKW, Sudhakar SK, Jedrasiak-Cape I, John TT, Ahmed OJ. (2020). Hyperexcitable Neurons Enable Precise and Persistent Information Encoding in the Superficial Retrosplenial Cortex. Cell reports. 30 [PubMed]

• Two populations of excitatory neurons in the superficial retrosplenial cortex (Brennan et al 2020) [Model]

Jercog PE, Svirskis G, Kotak VC, Sanes DH, Rinzel J. (2010). Asymmetric excitatory synaptic dynamics underlie interaural time difference processing in the auditory system. PLoS biology. 8 [PubMed]

• Two Models for synaptic input statistics for the MSO neuron model (Jercog et al. 2010) [Model]

Kotaleski JH et al. (2011). Striatal fast-spiking interneurons: from firing patterns to postsynaptic impact Front. Syst. Neurosci.. 5:57

• Firing patterns in stuttering fast-spiking interneurons (Klaus et al. 2011) [Model]

Ovsepian SV et al. (2013). A defined heteromeric KV1 channel stabilizes the intrinsic pacemaking and regulates the output of deep cerebellar nuclear neurons to thalamic targets. The Journal of physiology. 591 [PubMed]

• KV1 channel governs cerebellar output to thalamus (Ovsepian et al. 2013) [Model]

Platkiewicz J, Brette R. (2010). A threshold equation for action potential initiation. PLoS computational biology. 6 [PubMed]

• A threshold equation for action potential initiation (Platkiewicz & Brette 2010) [Model]

Platkiewicz J, Brette R. (2011). Impact of fast sodium channel inactivation on spike threshold dynamics and synaptic integration. PLoS computational biology. 7 [PubMed]

• Impact of fast Na channel inact. on AP threshold & synaptic integration (Platkiewicz & Brette 2011) [Model]

Podlaski WF et al. (2017). Mapping the function of neuronal ion channels in model and experiment. eLife. 6 [PubMed]