Invertebrate Neuroscience: Contributions from Model and Non-Model Species

Invertebrate Neuroscience: Contributions from Model and Non-Model Species
Title Invertebrate Neuroscience: Contributions from Model and Non-Model Species PDF eBook
Author Jimena A. Sierralta
Publisher Frontiers Media SA
Pages 169
Release 2021-09-14
Genre Science
ISBN 2889713202

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The Oxford Handbook of Invertebrate Neurobiology

The Oxford Handbook of Invertebrate Neurobiology
Title The Oxford Handbook of Invertebrate Neurobiology PDF eBook
Author John H. Byrne
Publisher Oxford University Press
Pages 1304
Release 2019-01-29
Genre Science
ISBN 0190456787

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Invertebrates have proven to be extremely useful model systems for gaining insights into the neural and molecular mechanisms of sensory processing, motor control and higher functions such as feeding behavior, learning and memory, navigation, and social behavior. A major factor in their enormous contributions to neuroscience is the relative simplicity of invertebrate nervous systems. In addition, some invertebrates, primarily the molluscs, have large cells, which allow analyses to take place at the level of individually identified neurons. Individual neurons can be surgically removed and assayed for expression of membrane channels, levels of second messengers, protein phosphorylation, and RNA and protein synthesis. Moreover, peptides and nucleotides can be injected into individual neurons. Other invertebrate model systems such as Drosophila and Caenorhabditis elegans offer tremendous advantages for obtaining insights into the neuronal bases of behavior through the application of genetic approaches. The Oxford Handbook of Invertebrate Neurobiology reviews the many neurobiological principles that have emerged from invertebrate analyses, such as motor pattern generation, mechanisms of synaptic transmission, and learning and memory. It also covers general features of the neurobiology of invertebrate circadian rhythms, development, and regeneration and reproduction. Some neurobiological phenomena are species-specific and diverse, especially in the domain of the neuronal control of locomotion and camouflage. Thus, separate chapters are provided on the control of swimming in annelids, crustaea and molluscs, locomotion in hexapods, and camouflage in cephalopods. Unique features of the handbook include chapters that review social behavior and intentionality in invertebrates. A chapter is devoted to summarizing past contributions of invertebrates to the understanding of nervous systems and identifying areas for future studies that will continue to advance that understanding.

Model Systems to Study the Mechanisms of Neural Development and Disease

Model Systems to Study the Mechanisms of Neural Development and Disease
Title Model Systems to Study the Mechanisms of Neural Development and Disease PDF eBook
Author Parthiv Haldipur
Publisher Frontiers Media SA
Pages 167
Release
Genre Science
ISBN 2889767078

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Divided Brains

Divided Brains
Title Divided Brains PDF eBook
Author Lesley J. Rogers
Publisher Cambridge University Press
Pages 241
Release 2013-01-17
Genre Medical
ISBN 1107005353

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Discusses brain asymmetry from four perspectives - function, evolution, development and causation - covering a wide range of species, including humans.

Invertebrate Neurophysiology - of Currents, Cells, and Circuits

Invertebrate Neurophysiology - of Currents, Cells, and Circuits
Title Invertebrate Neurophysiology - of Currents, Cells, and Circuits PDF eBook
Author Edgar Buhl
Publisher Frontiers Media SA
Pages 230
Release 2023-11-02
Genre Science
ISBN 2832538088

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Guide to Research Techniques in Neuroscience

Guide to Research Techniques in Neuroscience
Title Guide to Research Techniques in Neuroscience PDF eBook
Author Matt Carter
Publisher Academic Press
Pages 416
Release 2022-03-26
Genre Medical
ISBN 0323915612

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Modern neuroscience research is inherently multidisciplinary, with a wide variety of cutting edge new techniques to explore multiple levels of investigation. This Third Edition of Guide to Research Techniques in Neuroscience provides a comprehensive overview of classical and cutting edge methods including their utility, limitations, and how data are presented in the literature. This book can be used as an introduction to neuroscience techniques for anyone new to the field or as a reference for any neuroscientist while reading papers or attending talks. - Nearly 200 updated full-color illustrations to clearly convey the theory and practice of neuroscience methods - Expands on techniques from previous editions and covers many new techniques including in vivo calcium imaging, fiber photometry, RNA-Seq, brain spheroids, CRISPR-Cas9 genome editing, and more - Clear, straightforward explanations of each technique for anyone new to the field - A broad scope of methods, from noninvasive brain imaging in human subjects, to electrophysiology in animal models, to recombinant DNA technology in test tubes, to transfection of neurons in cell culture - Detailed recommendations on where to find protocols and other resources for specific techniques - "Walk-through" boxes that guide readers through experiments step-by-step

Neuro-motor control and feed-forward models of locomotion in humans

Neuro-motor control and feed-forward models of locomotion in humans
Title Neuro-motor control and feed-forward models of locomotion in humans PDF eBook
Author Marco Iosa
Publisher Frontiers Media SA
Pages 192
Release 2015-07-29
Genre Human locomotion
ISBN 2889196143

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Locomotion involves many different muscles and the need of controlling several degrees of freedom. Despite the Central Nervous System can finely control the contraction of individual muscles, emerging evidences indicate that strategies for the reduction of the complexity of movement and for compensating the sensorimotor delays may be adopted. Experimental evidences in animal and lately human model led to the concept of a central pattern generator (CPG) which suggests that circuitry within the distal part of CNS, i.e. spinal cord, can generate the basic locomotor patterns, even in the absence of sensory information. Different studies pointed out the role of CPG in the control of locomotion as well as others investigated the neuroplasticity of CPG allowing for gait recovery after spinal cord lesion. Literature was also focused on muscle synergies, i.e. the combination of (locomotor) functional modules, implemented in neuronal networks of the spinal cord, generating specific motor output by imposing a specific timing structure and appropriate weightings to muscle activations. Despite the great interest that this approach generated in the last years in the Scientific Community, large areas of investigations remain available for further improvement (e.g. the influence of afferent feedback and environmental constrains) for both experimental and simulated models. However, also supraspinal structures are involved during locomotion, and it has been shown that they are responsible for initiating and modifying the features of this basic rhythm, for stabilising the upright walking, and for coordinating movements in a dynamic changing environment. Furthermore, specific damages into spinal and supraspinal structures result in specific alterations of human locomotion, as evident in subjects with brain injuries such as stroke, brain trauma, or people with cerebral palsy, in people with death of dopaminergic neurons in the substantia nigra due to Parkinson’s disease, or in subjects with cerebellar dysfunctions, such as patients with ataxia. The role of cerebellum during locomotion has been shown to be related to coordination and adaptation of movements. Cerebellum is the structure of CNS where are conceivably located the internal models, that are neural representations miming meaningful aspects of our body, such as input/output characteristics of sensorimotor system. Internal model control has been shown to be at the basis of motor strategies for compensating delays or lacks in sensorimotor feedbacks, and some aspects of locomotion need predictive internal control, especially for improving gait dynamic stability, for avoiding obstacles or when sensory feedback is altered or lacking. Furthermore, despite internal model concepts are widespread in neuroscience and neurocognitive science, neurorehabilitation paid far too little attention to the potential role of internal model control on gait recovery. Many important scientists have contributed to this Research Topic with original studies, computational studies, and review articles focused on neural circuits and internal models involved in the control of human locomotion, aiming at understanding the role played in control of locomotion of different neural circuits located at brain, cerebellum, and spinal cord levels.