scholarly article | Q13442814 |
P2093 | author name string | Hui Ye | |
Hillel J Chiel | |||
Douglas W Morton | |||
P2860 | cites work | Synaptic control of hindlimb motoneurones during three forms of the fictive scratch reflex in the turtle | Q28293936 |
How animals move: an integrative view | Q33884639 | ||
The brain has a body: adaptive behavior emerges from interactions of nervous system, body and environment | Q34450957 | ||
How muscles accommodate movement in different physical environments: aquatic vs. terrestrial locomotion in vertebrates | Q34456795 | ||
Biomechanics and muscle coordination of human walking. Part I: introduction to concepts, power transfer, dynamics and simulations | Q35005391 | ||
The dynamics of standing balance | Q35022105 | ||
Biomechanics and muscle coordination of human walking: part II: lessons from dynamical simulations and clinical implications. | Q35048789 | ||
How introns influence and enhance eukaryotic gene expression | Q35114297 | ||
Neuronal control of turtle hindlimb motor rhythms. | Q35903548 | ||
Tuning the network: modulation of neuronal microcircuits in the spinal cord and hippocampus | Q36236392 | ||
Notch signalling in vertebrate neural development | Q36374960 | ||
The mechanics of swallowing and the muscular control of diverse behaviours in gopher snakes | Q38526043 | ||
Muscle coordination of movement: a perspective | Q40913582 | ||
Neuromuscular organization of the buccal system inAplysia californica | Q41140469 | ||
Cycle-to-cycle variability as an optimal behavioral strategy. | Q41862028 | ||
Neural mechanisms of motor program switching in Aplysia. | Q43732557 | ||
Concerted GABAergic actions of Aplysia feeding interneurons in motor program specification. | Q44495497 | ||
Dopaminergic contributions to modulatory functions of a dual-transmitter interneuron in Aplysia. | Q44796733 | ||
Neurons that form multiple pattern generators: identification and multiple activity patterns of gastric/pyloric neurons in the crab stomatogastric system | Q44912796 | ||
Muscle contributions to specific biomechanical functions do not change in forward versus backward pedaling. | Q46242775 | ||
Motor patterns and kinematics during backward walking in the pacific giant salamander: evidence for novel motor output | Q46302119 | ||
Activity patterns of the B31/B32 pattern initiators innervating the I2 muscle of the buccal mass during normal feeding movements in Aplysia californica | Q47917569 | ||
Switching neurons are integral members of multiple oscillatory networks | Q47924157 | ||
Activity of an identified histaminergic neuron, and its possible role in arousal of feeding behavior in semi-intact Aplysia | Q47949549 | ||
The Relationship of the Central Motor Pattern to the Feeding Cycle of Lymnaea Stagnalis | Q47962308 | ||
Nitric oxide signals that aplysia have attempted to eat, a necessary component of memory formation after learning that food is inedible. | Q48515440 | ||
Neuromechanics of coordination during swallowing in Aplysia californica. | Q51278121 | ||
Neural control exploits changing mechanical advantage and context dependence to generate different feeding responses in Aplysia. | Q51590556 | ||
Passive hinge forces in the feeding apparatus of Aplysia aid retraction during biting but not during swallowing. | Q51686325 | ||
Functional morphology of proximal hindlimb muscles in the frog Rana pipiens. | Q52037640 | ||
Muscular and postural synergies of the human hand. | Q52093390 | ||
Feeding behavior in Aplysia: a simple system for the study of motivation | Q52979616 | ||
Kinematics of the buccal mass during swallowing based on magnetic resonance imaging in intact, behaving Aplysia californica. | Q53876570 | ||
Triggering and gating of motor responses by sensory stimulation: behavioural selection inXenopus embryos | Q68332221 | ||
An identified histaminergic neuron modulates feeding motor circuitry in Aplysia | Q69594952 | ||
In vivo buccal nerve activity that distinguishes ingestion from rejection can be used to predict behavioral transitions in Aplysia | Q70591152 | ||
Bilateral Symmetry and Interneuronal Organization in the Buccal Ganglia of Aplysia | Q71807615 | ||
A new technique for chronic single-unit extracellular recording in freely behaving animals using pipette electrodes | Q71873511 | ||
Activity of multiple identified motor neurons recorded intracellularly during evoked feedinglike motor programs in Aplysia | Q72413306 | ||
The timing of activity in motor neurons that produce radula movements distinguishes ingestion from rejection in Aplysia | Q72664149 | ||
Postural dependence of muscle actions: implications for neural control | Q73101298 | ||
Biomechanical properties and a kinetic simulation model of the smooth muscle I2 in the buccal mass of Aplysia | Q73258070 | ||
Broadly tuned spinal neurons for each form of fictive scratching in spinal turtles | Q74339047 | ||
Interneuronal basis of the generation of related but distinct motor programs in Aplysia: implications for current neuronal models of vertebrate intralimb coordination | Q74472798 | ||
A kinematic model of swallowing in Aplysia californica based on radula/odontophore kinematics and in vivo magnetic resonance images | Q74796229 | ||
Both shared and specialized spinal circuitry for scratching and swimming in turtles | Q78010389 | ||
Functional morphology of the cephalopod buccal mass: a novel joint type | Q81571814 | ||
Mechanical reconfiguration mediates swallowing and rejection in Aplysia californica | Q83061933 | ||
P433 | issue | 42 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | California sea hare | Q1698916 |
P304 | page(s) | 10743-10755 | |
P577 | publication date | 2006-10-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Neuromechanics of multifunctionality during rejection in Aplysia californica | |
P478 | volume | 26 |
Q100945937 | Axonal blockage with microscopic magnetic stimulation |
Q46886523 | Currents contributing to decision making in neurons B31/B32 of Aplysia. |
Q34006636 | Differential activation of an identified motor neuron and neuromodulation provide Aplysia's retractor muscle an additional function |
Q41812999 | Distinct inhibitory neurons exert temporally specific control over activity of a motoneuron receiving concurrent excitation and inhibition. |
Q34620522 | Electrode fabrication and implantation in Aplysia californica for multi-channel neural and muscular recordings in intact, freely behaving animals |
Q35034947 | Motor neuronal activity varies least among individuals when it matters most for behavior |
Q92023473 | Precise timing is ubiquitous, consistent, and coordinated across a comprehensive, spike-resolved flight motor program |
Q21144215 | Predicting adaptive behavior in the environment from central nervous system dynamics |
Q35316271 | Preparing the periphery for a subsequent behavior: motor neuronal activity during biting generates little force but prepares a retractor muscle to generate larger forces during swallowing in Aplysia |
Q37666931 | Robustness, flexibility, and sensitivity in a multifunctional motor control model |
Q43249793 | Selective extracellular stimulation of individual neurons in ganglia |
Q35242561 | Spikes alone do not behavior make: why neuroscience needs biomechanics |
Q93137871 | Successful and unsuccessful attempts to swallow in a reduced Aplysia preparation regulate feeding responses and produce memory at different neural sites |
Q37478377 | The brain in its body: motor control and sensing in a biomechanical context. |
Q39416199 | Use of the Aplysia feeding network to study repetition priming of an episodic behavior. |