Vyshedskiy, A. and Lin, J.-W. (2000) Presynaptic calcium influx at the inhibitor of the crayfish neuromuscular junction: A photometric study at a high time resolution. J. Neurophysiol. 83:552-562
Vyshedskiy, A., Allana , T. and Lin, J.W. (2000) Analysis of presynaptic Ca2+ influx and transmitter release kinetics during facilitation at the inhibitor of the crayfish neuromuscular junction. J. Neuroscience 20:6326-6332
Lin, J.-W. and Faber, D. S. (2002) Modulation of synaptic delay during synaptic plasticity. Trends in Neurosciences, 25: 449-455
Allana, T. N., Lin, J.-W. (2004) Relative distribution of Ca2+ channels at the crayfish inhibitory neuromuscular junction. J Neurophysiol. 92:1491-1500
Lin, J.-W. and Fu, Q. (2005) Modulation of available vesicles and release kinetics at the inhibitor of the crayfish neuromuscular junction. Neuroscience 130:889-895.
Lin, J.-W., Fu, Q. and Allana, T. (2005) Probing the endogenous Ca2+ buffers at the presynaptic terminals of the crayfish neuromuscular junction. J. Neurophysiol. 94:377-386.
Allana, T and Lin, J.-W. (2008) Effects of increasing Ca2+ channel-vesicle separation on facilitation at the crayfish inhibitory neuromuscular junction. Neuroscience 154:1242-1254.
J.-W. Lin (2008) Electrophysiological events recorded at presynaptic terminals of the crayfish neuromuscular junction with a voltage indicator J. Physiology 586: 4935-4950.
Lin JW. (2012) Spatial variation in membrane excitability modulated by 4-AP-sensitive K+ channels in the axons of the crayfish neuromuscular junction. J Neurophysiol 107: 2692-2702, 2012
Lin JW. (2013) Spatial gradient in the TTX sensitivity of axons at the crayfish opener neuromuscular junction. J Neurophysio 109:162-179.
Inam ZS, Nelamangala SK, and Lin J-W. (2014) Application of a spike sorting procedure to analyze recordings in the crayfish ventral superficial flexor preparation: A high resolution approach to the study of neuromodulators on axons and synapses. The Journal of Undergraduate Neuroscience Education 12:140-149.
Lin JW. (2016) Na+ current in presynaptic terminals of the crayfish opener cannot initiate action potentials. J Neurophysiol. 115:617-621.
Lin, J. -W., Yu, F., Müller, W. S., Ehnholm, G., & Okada, Y. (2019). Focused ultrasound transiently increases membrane conductance in isolated crayfish axon. J Neurophysiol, 121:480-489