Publications

PUBLICATIONS:

Zandt BJ, Losnegård A, Hodneland E, Veruki ML, Lundervold A, Hartveit E. (2017). Semi-automatic 3D morphological reconstruction of neurons with densely branching morphology: Application to retinal AII amacrine cells imaged with multi-photon excitation microscopy. J Neurosci Methods. 279:101-118.

Zandt BJ, Liu JH, Veruki ML, Hartveit E. (2017). AII amacrine cells: quantitative reconstruction and morphometric analysis of electrophysiologically identified cells in live rat retinal slices imaged with multi-photon excitation microscopy. Brain Struct Funct. 222(1):151-182. 

Zhou Y, Tencerová B, Hartveit E, Veruki ML. (2016). Functional NMDA receptors are expressed by both AII and A17 amacrine cells in the rod pathway of the mammalian retina. J Neurophysiol. 115:389-403. 

Castilho Á, Madsen E, Ambrósio AF, Veruki ML, Hartveit E (2015). Diabetic hyperglycemia reduces Ca2+ permeability of extrasynaptic AMPA receptors in AII amacrine cells. Journal of Neurophysiology 2015114(3):1545-53.

Castilho Á, Ambrósio AF, Hartveit E, Veruki ML (2015).
Disruption of a neural microcircuit in the rod pathway of the mammalian retina by diabetes mellitus. Journal of Neuroscience. 5422-33.

Hartveit E & Veruki ML (2012). Electrical synapses between AII amacrine cells in the retina: Function and modulation. Brain Research. 1487:160-72.

Freeman DK, Jeng JS, Kelly SK, Hartveit E, Fried SI (2011). Calcium channel dynamics limit synaptic release in response to prosthetic stimulation with sinusoidal waveforms. Journal of Neural Engineering. 8:046005

Wang X, Veruki ML, Bukoreshtliev NV, Hartveit E, Gerdes HH (2010). Animal cells connected by nanotubes can be electrically coupled through interposed gap-junction channels. Proceedings of the National Academy of Sciences U S A. 107: 17194-9.

Oltedal L, Hartveit E (2010). Transient release kinetics of rod bipolar cells revealed by capacitance measurement of exocytosis from axon terminals in rat retinal slices. Journal of Physiology. 2010 May 1; 588: 1469-87.

Veruki ML, Oltedal L & Hartveit E (2010). Electrical coupling and passive membrane properties of AII amacrine cells. Journal of Neurophysiology 103: 1456-66.

Hartveit E & Veruki ML (2010). Accurate measurement of junctional conductance between electrically coupled cells with whole-cell voltage-clamp under conditions of high series resistance. Journal of Neuroscience Methods 187: 13-25.

Mørkve SH, Hartveit E (2009). Properties of glycine receptors underlying synaptic currents in presynaptic axon terminals of rod bipolar cells in the rat retina. Journal of Physiology 587:3813-30.

Veruki ML & Hartveit E (2009). Meclofenamic acid blocks electrical synapses of retinal AII amacrine and ON-cone bipolar cells. Journal of Neurophysiology 101: 2339-47.

Oltedal L, Veruki ML & Hartveit E (2009). Passive membrane properties and electrotonic signal processing in retinal rod bipolar cells. Journal of Physiology587: 829-849.

Veruki ML, Oltedal L & Hartveit E (2008). Electrical synapses between AII amacrine cells: dynamic range and functional consequences of variation in junctional conductance. Journal of Neurophysiology 100: 3305-22.

Veruki ML, Gill SB & Hartveit E (2007). Spontaneous IPSCs and glycine receptors with slow kinetics in wide-field amacrine cells in the adult retina. Journal of Physiology 581: 203-19.

Hartveit E & Veruki ML (2007). Studying properties of neurotransmitter receptors by non-stationary noise analysis of spontaneous postsynaptic currents and agonist-evoked responses in outside-out patches. Nature Protocols 2: 434-48.

Oltedal L, Mørkve SH, Veruki ML & Hartveit E (2007). Patch clamp recordings from axon terminals of rod bipolar cells in an in vitro thin slice preparation of the mammalian retina. Journal of Neurophysiology 97: 1171-87.

Veruki ML, Mørkve SH & Hartveit E (2006). Activation of a presynaptic glutamate transporter regulates synaptic transmission through electrical signalling. Nature Neuroscience 9: 1388-1396.

Gill SB, Veruki ML & Hartveit E (2006). Functional properties of spontaneous IPSCs and glycine receptors in rod amacrine (AII) cells in the rat retina. Journal of Physiology 575: 739-759.

Hartveit E. & Veruki ML (2006). Studying properties of neurotransmitter receptors by non-stationary noise analysis of spontaneous synaptic currents. Journal of Physiology 574: 751-785.

Veruki ML, Mørkve SH & Hartveit E (2003). Functional properties of spontaneous EPSCs and non-NMDA receptors in rod (AII) amacrine cells of the rat retina. Journal of Physiology 549: 759-774.

Veruki ML & Hartveit E (2002). Electrical synapses mediate signal transmission in the rod pathway of the mammalian retina. Journal of Neuroscience 22: 10558-10566.

Veruki ML & Hartveit E (2002). AII (rod) amacrine cells form a network of electrically coupled interneurons in the mammalian retina. Neuron 33: 935-946.

Mørkve SH, Veruki ML & Hartveit E (2002). Functional characteristics of non-NMDA-type ionotropic glutamate receptor channels in AII amacrine cells in rat retina. Journal of Physiology542: 147-165.