Aberra AS, Peterchev AV, Grill WM. (2018). Biophysically realistic neuron models for simulation of cortical stimulation. Journal of neural engineering. 15 [PubMed]
Barlow BSM, Longtin A, Joós B. (2024). Impact on backpropagation of the spatial heterogeneity of sodium channel kinetics in the axon initial segment. PLoS computational biology. 20 [PubMed]
Brette R. (2013). Sharpness of spike initiation in neurons explained by compartmentalization. PLoS computational biology. 9 [PubMed]
Dover K et al. (2016). FHF-independent conduction of action potentials along the leak-resistant cerebellar granule cell axon. Nature communications. 7 [PubMed]
Feng B, Zhu Y, La JH, Wills ZP, Gebhart GF. (2015). Experimental and computational evidence for an essential role of NaV1.6 in spike initiation at stretch-sensitive colorectal afferent endings. Journal of neurophysiology. 113 [PubMed]
Hay E, Schürmann F, Markram H, Segev I. (2013). Preserving axosomatic spiking features despite diverse dendritic morphology. Journal of neurophysiology. 109 [PubMed]
Lezmy J et al. (2017). M-current inhibition rapidly induces a unique CK2-dependent plasticity of the axon initial segment. Proceedings of the National Academy of Sciences of the United States of America. 114 [PubMed]
Michalikova M, Remme MW, Kempter R. (2017). Spikelets in Pyramidal Neurons: Action Potentials Initiated in the Axon Initial Segment That Do Not Activate the Soma. PLoS computational biology. 13 [PubMed]
Singh C, Levy WB. (2017). A consensus layer V pyramidal neuron can sustain interpulse-interval coding. PloS one. 12 [PubMed]