Ari Berkowitz to Turtles
This is a "connection" page, showing publications Ari Berkowitz has written about Turtles.
Connection Strength
4.604
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Electrophysiological Activity of Multifunctional and Behaviorally Specialized Spinal Neurons Involved in Swimming, Scratching, and Flexion Reflex in Turtles. eNeuro. 2024 Jul; 11(7).
Score: 0.927
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Turtle Flexion Reflex Motor Patterns Show Windup, Mediated Partly by L-type Calcium Channels. Front Neural Circuits. 2017; 11:83.
Score: 0.581
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Dendritic orientation and branching distinguish a class of multifunctional turtle spinal interneurons. Front Neural Circuits. 2014; 8:136.
Score: 0.473
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Distributions of active spinal cord neurons during swimming and scratching motor patterns. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2012 Dec; 198(12):877-89.
Score: 0.408
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Partly shared spinal cord networks for locomotion and scratching. Integr Comp Biol. 2011 Dec; 51(6):890-902.
Score: 0.374
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Multifunctional and specialized spinal interneurons for turtle limb movements. Ann N Y Acad Sci. 2010 Jun; 1198:119-32.
Score: 0.348
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Both shared and specialized spinal circuitry for scratching and swimming in turtles. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2002 Apr; 188(3):225-34.
Score: 0.197
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Spinal Interneurons With Dual Axon Projections to Knee-Extensor and Hip-Extensor Motor Pools. Front Neural Circuits. 2020; 14:7.
Score: 0.171
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Neurotransmitters and Motoneuron Contacts of Multifunctional and Behaviorally Specialized Turtle Spinal Cord Interneurons. J Neurosci. 2020 03 25; 40(13):2680-2694.
Score: 0.170
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Shared Components of Rhythm Generation for Locomotion and Scratching Exist Prior to Motoneurons. Front Neural Circuits. 2017; 11:54.
Score: 0.143
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Flexion Reflex Can Interrupt and Reset the Swimming Rhythm. J Neurosci. 2016 Mar 02; 36(9):2819-26.
Score: 0.130
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Rostral spinal cord segments are sufficient to generate a rhythm for both locomotion and scratching but affect their hip extensor phases differently. J Neurophysiol. 2014 Jul 01; 112(1):147-55.
Score: 0.114
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Strong interactions between spinal cord networks for locomotion and scratching. J Neurophysiol. 2011 Oct; 106(4):1766-81.
Score: 0.094
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Physiology and morphology of shared and specialized spinal interneurons for locomotion and scratching. J Neurophysiol. 2008 Jun; 99(6):2887-901.
Score: 0.075
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Spinal interneurons that are selectively activated during fictive flexion reflex. J Neurosci. 2007 Apr 25; 27(17):4634-41.
Score: 0.070
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Somato-dendritic morphology predicts physiology for neurons that contribute to several kinds of limb movements. J Neurophysiol. 2006 May; 95(5):2821-31.
Score: 0.064
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Physiology and morphology indicate that individual spinal interneurons contribute to diverse limb movements. J Neurophysiol. 2005 Dec; 94(6):4455-70.
Score: 0.063
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Propriospinal projections to the ventral horn of the rostral and caudal hindlimb enlargement in turtles. Brain Res. 2004 Jul 16; 1014(1-2):164-76.
Score: 0.058
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Endogenous biotin staining in a subset of spinal neuronal cell bodies: a potential confounding factor for neuroanatomical studies. Brain Res. 2002 May 31; 938(1-2):98-102.
Score: 0.050
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Broadly tuned spinal neurons for each form of fictive scratching in spinal turtles. J Neurophysiol. 2001 Aug; 86(2):1017-25.
Score: 0.047
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Rhythmicity of spinal neurons activated during each form of fictive scratching in spinal turtles. J Neurophysiol. 2001 Aug; 86(2):1026-36.
Score: 0.047