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21. Decker AR, McNeill MS, Lambert AM, Overton JD, Chen YC, Lorca RA, Johnson NA, Brockerhoff SE, Mohapatra DP, Macarthur H, Panula P, Masino MA, Runnels LW, Cornell RA. Abnormal differentiation of dopaminergic neurons in zebrafish trpm7 mutant larvae impairs development of the motor pattern. Dev Biol., 386(2):428-39, 2014.

20. Ingebretson JJ, Masino MA. Quantification of locomotor activity in larval zebrafish: considerations for the design of high-throughput behavioral studies. Front. Neural Circuits., 7:109, 2013.

19. Puhl JG, Masino MA, Mesce KA. Necessary, sufficient and permissive: a single locomotor command neuron important for intersegmental coordination. J. Neurosci., 32(49):17646-57, 2012.

18. Lambert AM, Bonkowsky JL, Masino MA. The conserved dopaminergic diencephalospinal tract mediates vertebrate locomotor development in zebrafish larvae. J. Neurosci., 32(39):13488-500, 2012.

17. Wiggin TD, Anderson TM, Eian J, Peck JH, Masino MA. Episodic swimming in the larval zebrafish is generated by a spatially distributed spinal network with modular functional organization. J. Neurophysiol., 108(3):925-34, 2012.

16. Freidrich T, Lambert AM, Masino MA, Downes GB. Mutation of zebrafish dihydrolipoamide branched-chain transacylase E2 results in motor dysfunction and models maple syrup urine disease. Dis. Model Mech., 5(2):248-58, 2012.

15. Masino MA, Abbinanti MD, Eian J, Harris-Warrick RM. TTX-resistant NMDA receptor-mediated membrane potential oscillations in neonatal mouse Hb9 interneurons. PLoS One, 7(10):e47940, 2012.

14. Anderson TM, Abbinanti MD, Peck JH, Gilmour M, Brownstone RM, Masino MA. Low-threshold calcium currents contribute to locomotor-like activity in neonatal mice. J. Neurophysiol., 107(1):103-13, 2012.

13. McLean DL, Masino MA, Koh IY, Lindquist WB and Fetcho JR. Continuous shifts in the active set of spinal interneurons during changes in locomotor speed. Nat Neurosci., 11(12): 1419-29, 2008.

12. Mongeon R, Gleason MR, Masino MA, Fetcho JR, Mandel G, Brehm P, Dallman JE. Synaptic homeostasis in a glial glycine transporter mutant. J Neurophysiol., 100(4):1716-23, 2008.

11. Zhong, G., Masino MA and Harrish-Warrick R.M. Persistent sodium currents participate in fictive locomotion generation in neonatal mouse spinal cord. J. Neurosci., 27: 4507-18, 2007.

10. Masino, MA and Fetcho J.R. Fictive swimming motor patterns in wild type and mutant larval zebrafish. J. Neurophysiol., 93: 3177-88, 2005.

9. Higashijima, S., Masino MA, G. Mandel and Fetcho J.R. Engrailed-1 expression marks primitive class of inhibitory spinal interneuron. J. Neurosci., 24: 5827-39, 2004.

8. Higashijima, S., Masino MA Mandel G. and Fetcho J.R. Imaging neuronal activity during zebrafish behavior with a genetically encoded calcium indicator. J. Neurosci., 24: 5827-39, 2004.

7. Hill A.A, Masino MA and Calabrese R.L. Intersegmental coordination of rhythmic motor patters. J. Neurophysiol., 90: 531-8, 2003.

6. Cymbalyuk G.S., Gaudry Q., Masino MA and Calabrese R.L. Bursting in leech heart interneurons: cell-autonomous and network-based mechanisms. J. Neurosci., 22: 10580-92, 2002.

5. Masino MA and Calabrese R.L. A functional assymetry in the Leech Heartbeat Timing Network is revealed by driving the network across various cycle periods. J. Neurosci., 22: 4418-27, 2002.

4. Masino MA and Calabrese R.L. Period differences between segmental oscillators produce intersegmental phase differnces in the leech heratbeat timing network. J. Neurophysiol., 87: 1603-15, 2002.

3. Hill A.A., Masino MA and Calabrese R.L. Model of intersegmental coordination in the leech heartbeat neuronal network. J. Neurophysiol., 87: 1586-602, 2002.

2. Masino, MA and Calabrese R.L. Phase relationships between segmentally organized oscillators in the leech heartbeat pattern generating network. J. Neurophysiol., 87: 1572-85, 2002.

1. Hill, A.A., Lu J., Masino MA, Olsen O.H. and Calabrese R.L. A model of a segmental oscillator in the leech heartbeat neuronal network. J. Comput Neurosci., 10: 281-302, 2001.