Handbook of Brain Microcircuits

Authors:

Brand: OUP USA

ISBN: 9780190636111

1,123.20 zł

1,010.88 zł Save 112.32 zł Tax included

Lowest price within 30 days before promotion: 1,010.88 zł

Quantity

Available in 4-6 weeks

Delivery policy

Choose Paczkomat Inpost, Orlen Paczka, DPD or Poczta Polska. Click for more details

Security policy

Pay with a quick bank transfer, payment card or cash on delivery. Click for more details

Return policy

If you are a consumer, you can return the goods within 14 days. Click for more details

Description

Updated and revised, the second edition of Handbook of Brain Microcircuits covers the functional organization of 50 brain regions. This now-classic text uses an interdisciplinary approach to examine the integration of structure, function, electrophysiology, pharmacology, brain imaging, and behavior. Through uniquely concise and authoritative chapters by leaders in their fields, the Handbook of Brain Microcircuits synthesizes many of the new principles ofmicrocircuit organization that are defining a new era in understanding the brain connectome, integrating the major neuronal pathways and essential microcircuits with brain function. New to the Second Edition::· Insights into new regions of the brain through canonical microcircuit diagrams for each region· Latest methodology in optogenetics, neurotransmitter uncaging, computational models of neurons and microcircuits, serial ultrastructure reconstructions, cellular and regional imaging· Extrapolated data from new genetic tools and understandings applied to microcircuits in the mouse and Drosophila· Common principles across vertebrate and invertebrate microcircuit systems, one of the key goals of modern neuroscience

Product Details

Brand OUP USA

Reference 87884

EAN13 9780190636111

ISBN 9780190636111

Data sheet

Publication date: 2018
Issue number: 1
Cover: hard cover
Pages count: 626
Dimensions (mm): 178 x 254
Weight (g): 1474

Contributors List; Introduction; Section 1. Neocortex; 1. Neocortical Microcircuits.; Javier DeFelipe and Bernardo Rudy; 2. Canonical Cortical Circuits.; Rodney J. Douglas and Kevan A.C. Martin; 3. Microcircuitry of the Neocortex.; Srikanth Ramaswamy, Eilif Muller, Michael Reimann, and Henry Markram; 4. The Cortical Microcircuit as a Recurrent Neural Network.; Rafael Yuste; 5. Barrel Cortex.; Karel Svoboda and Jianing Yu; 6. Inhibitory Mechanisms in the Motor Cortical Circuit (MCC).; Hugo Merchanta and Apostolos P. Georgopoulos; 7. Prefrontal Cortex.; Xiao-Jing Wang; Section 2. Thalamus; 8. Circuitry of the Lateral Geniculate Nucleus.; S. Murray Sherman; 9. Thalamus.; David A. McCormick; Section 3. Circadian System; 10. The Suprachiasmatic Nucleus.; Gabriella Lundkvist and Gene Block; Section 4. Basal Ganglia; 11. Microcircuits of the Striatum.; Natalie M. Doig and J. Paul Bolam; 12. Templates for Neural Dynamics in the Striatum: Striosomes and Matrisomes.; Ann M.Graybiel; 13. Subthalamo-Pallidal Circuit.; Charles J. Wilson; Section 5. Limbic System and Memory; 14. Mesolimbic Dopamine and the Circuitry of Reward.; A. J. Robison and Eric J. Nestler; 15. The Cholinergic Multicompartmental Basal Forebrain Microcircuit.; Laszlo Zaborsky and Peter Gombkoto; 16. Amygdala Microcircuits.; Luke R Johnson and Joseph E LeDoux; 17. Hippocampus - Intrinsic Organization.; Peter Somogyi and Thomas Klausberger; 18. Hippocampus: Network Physiology.; György Buzsaki and Antonio Fernandez-Ruiz; 19. Entorhinal Cortex.; Edvard I. Moser, Menno P. Witter, and May-Britt Moser; 20. The Neuronal Circuit for Simple Forms of Learning in Aplysia.; Robert D. Hawkins, Craig H. Bailey, and Eric R. Kandel; Section 6. Visual System; 21. Retina: Microcircuits for Daylight, Twilight, and Starlight Vision.; Jonathan B. Demb and Joshua H. Singer; 22. Understanding Retinal Microcircuitry: Then to Now.; Frank S. Werblin and John E. Dowling; 23. Fly Optic Lamina as a Guide to Neural Circuit Design.; Simon B. Laughlin; 24. The Insect-Crustacean Visual System: Correspondence with Vertebrates and with Olfaction.; Nicholas Strausfeld.; Section 7. Olfactory System; 25. Olfactory Bulb.; Gordon M. Shepherd, Michele Migliore, and Francesco Cavarretta; 26. Olfactory Cortex.; Donald A. Wilson and Edi Barkai; 27. Antennal Lobe Manduca.; Hong Lei, Lynne A. Oland, Jeffery A. Riffell, Aaron Beyerlein, and John G. Hildebrand; 28. Antennal Lobe of the Honeybee.; Juergen Rybak and Randolf Menzel; 29. Mushroom Body of the Honeybee.; Juergen Rybak and Randolf Menzel; 30. Drosophila.; Juergen Rybak and Bill Hansson; 31. C. Elegans.; Cornelia Bargmann; Section 8. Taste System; 32. Taste Coding and Feedforward/Feedback Signalling in Taste Buds.; Stephen D. Roper and Nirupa Chaudhari; 33. Microcircuitry of the Rostral Nucleus of the Solitary Tract.; Joseph B. Travers and Susan P. Travers; Section 9. Auditory System; 34. Cochlear Microcircuits.; P. A. Fuchs, J.S. Wu, P. Vyas and S.P. Zachary; 35. Cochlear Nucleus.; Eric D. Young and Donata Oertel; 36. Nucleus Laminaris.; Jason T. Sanchez, Yan Wang, Yong Lu, R. Michael Burger, Armin Seidi, and Edwin W. Rubel; Section 10. Cerebellum; 37. Cerebellar Cortex.; Masao Ito; 38. Olivocerebellar System.; Rodolfo R. Llinas; Section 11. Motor Systems; 39. The Superior Colliculus.; Tadashi Isa, Masatoshi Kasai, and Richard Veale; 40. Circuitry of the Lamprey Optic Tectum.; Andreas A. Kardamakis, Juan Perez Fernandez, and Sten Grillner; 41. Respiratory Central Pattern Generator: Microcircuit Generation of the Rhythms; and Patterns of Breathing.; Kaiwen Kam and Jack L. Feldman; 42. The Mammalian Brainstem Chewing Circuitry.; Arlette Kolta and James P. Lund; 43. The Crustacean Stomatogastric Nervous System.; Eve Marder; 44. The Mauthner cell microcircuits: sensory integration, decision-making and motor functions.; Donald S. Faber and Henri Korn; 45. Spinal Circuit for Escape in Goldfish and Zebrafish.; Joseph R. Fetcho; 46. The Lamprey Postural Circuit.; Tatiana G. Deliagina, Pavel V. Zelenin, and Grigiri N. Orlovsky; 47. The Lamprey Locomotor Central Pattern Generator.; Sten Grillner, Elham Jalalvand, and Peter Wallen; 48. Modularity and modulation of locomotor circuits in adult vertebrates.; Abdeljabbar El Manira; 49. Tadpole Swimming Network.; Keith T. Sillar and Wenchang Li; 50. Neuronal Circuits that Generate Swimming Movements in Leeches.; Wolfgang Otto Friesen; 51. The Tritonia Swim Central Pattern Generator.; Paul S. Katz; 52. The Swimming Circuit in the Pteropod Mollusk Clione Limacine.; Yuri I. Arshavsky, Tatiana G. Deliagina, and Grigori N. Orlovsky; 53. The Heartbeat Neural Control System of the Leech.; Ronald L. Calabrese; Index;

Comments (0)

Frequently purchased together

No products available

Cookie name	Provider	Purpose	Expiry
cookiesplus	https://medbook.com.pl	Stores your cookie preferences.	1 year
PHP_SESSID	https://medbook.com.pl	This cookie is native to PHP and enables websites to store serialised state data. It is used to establish a user session and to pass state data via a temporary cookie, which is commonly referred to as a session cookie.	Session
PrestaShop-#	https://medbook.com.pl	This cookie helps keep user sessions open while they are visiting a website, and help them make orders and many more operations such as: cookie add date, selected language, used currency, last product category visited, last seen products, client identification, name, first name, encrypted password, email linked to the account, shopping cart identification.	480 hours

Cookie name	Provider	Purpose	Expiry
fr	Facebook	Used by Facebook to deliver a series of advertisement products such as real time bidding from third party advertisers.	3 months
tr	Facebook	Used by Facebook to deliver a series of advertisement products such as real time bidding from third party advertisers.	Session
_fbp	Facebook	Used by Facebook to deliver a series of advertisement products such as real time bidding from third party advertisers.	3 months

Handbook of Brain Microcircuits

Frequently purchased together