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- 1From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Kerstin Krieglstein (corresponding author) [1]; Sandra Richter [2]; Lilla Farkas [2]; Norbert Schuster [1]; Nicole Dünker [1]; Ronald W. Oppenheim [3]; Klaus Unsicker [2] Transforming growth factors β are...
- 2From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): V. Y. Bolshakov [1]; L. Carboni [2]; M.H. Cobb [3]; S. A. Siegelbaum (corresponding author) [4]; F. Belardetti [2] Mitogen-activated protein kinase (MAPK) signaling pathways are important in regulating a...
- 3From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Richard J. Miller [1]; Clifton W. Ragsdale [1] Of all the known growth factors, those in the transforming growth factor-β (TGF-β) superfamily are among the most prolific, producing a multitude of effects on...
- 4From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedSince the identification of leptin in 1994, great progress has been made in unraveling the pathways that regulate fat accumulation in mammals. On the one hand, this offers the hope of new treatments for obesity, a large...
- 5From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Andrew J. Calder (corresponding author) [1]; Jill Keane [1]; Facundo Manes [1]; Nagui Antoun [2]; Andrew W. Young [3] Huntington's disease can particularly affect people's recognition of disgust from facial...
- 6From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Cynthia A. Erickson (corresponding author) [1]; Bharathi Jagadeesh [2]; Robert Desimone [1] Much of the functional organization of early visual areas develops or is modified by experience early in life and...
- 7From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): J. Julius Zhu [1, 3]; José A. Esteban [1, 3]; Yasunori Hayashi [2]; Roberto Malinow (corresponding author) [1] The proper formation of synaptic circuits is an outstanding biological problem [1]. It is...
- 8From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Michael B. Orger [1]; Matthew C. Smear [1]; Stuart M. Anstis [2]; Herwig Baier (corresponding author) [1, 3] Zebrafish larvae innately begin responding to moving stimuli shortly after hatching. In their...
- 9From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Earl K. Miller [1] In at least one respect, our brains are like tables or chairs-- structure and function are intimately related. Take, for example, the so-called primary visual area, where the visual...
- 10From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Alex Polonsky [1]; Randolph Blake [2]; Jochen Braun [3]; David J. Heeger (corresponding author) [1] When dissimilar images are shown to the two eyes, one experiences binocular rivalry: one eye's view...
- 11From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Y. Kikuchi-Yorioka [1, 3]; T. Sawaguchi (corresponding author) [2] The dorsolateral area of the prefrontal cortex (PFC) in primates is involved in visuospatial working memory [1, 2], but the cellular basis...
- 12From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Joanne C. Conover (corresponding author) [1, 2, 5]; Fiona Doetsch [1]; Jose-Manuel Garcia-Verdugo [3]; Nicholas W. Gale [4]; George D. Yancopoulos [4]; Arturo Alvarez-Buylla [1] Neurogenesis persists in the...
- 13From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): David G. Wells [1]; Justin R. Fallon [1] The stable, bidirectional modification of synaptic strength is important for learning and memory. A particular requirement for information storage and memory is that...
- 14From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Lidija Ivic [1]; Martina M. Pyrski [2]; Joyce W. Margolis [2]; Linda J. Richards [2]; Stuart Firestein (corresponding author) [1]; Frank L. Margolis [2] Olfactory marker protein (OMP) is a small (19 kDa)...
- 15From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Yasutake Mori (corresponding author) [1, 3]; Kazunori Imaizumi [1, 2, 3]; Taiichi Katayama [1, 2, 3]; Takunari Yoneda [1, 3]; Masaya Tohyama [1, 3] Memory formation and long-lasting storage requires...
- 16From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Randy L. Buckner [1] A forty-year journey to understand the neural basis of human declarative memory began with the report of amnesic patient H.M. [1]. Ever since he had surgery to treat intractable epilepsy...
- 17From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Wataru Tokuyama [1, 4]; Hiroyuki Okuno [1, 4]; Takanori Hashimoto [2]; Yue Xin Li [2]; Yasushi Miyashita (corresponding author) [1, 2, 3] Memory engrams of declarative knowledge or experience are ultimately...
- 18From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Laura L. Eldridge (corresponding author) [1]; Barbara J. Knowlton [1]; Christopher S. Furmanski [1]; Susan Y. Bookheimer [2]; Stephen A. Engel [1] Studies of neuropsychological patients have revealed that...
- 19From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): Gianluigi Tanda [1, 2, 3, 4]; Patrik Munzar [1, 4]; Steven R. Goldberg (corresponding author) [1] Many attempts to obtain reliable self-administration behavior by laboratory animals with...
- 20From: Nature Neuroscience. (Vol. 3, Issue 11) Peer-ReviewedAuthor(s): You-Wei Peng [1, 2]; Ying Hao [1]; Robert M. Petters [3]; Fulton Wong (corresponding author) [1, 2, 4] In the past decade, many mutations that cause hereditary retinal degeneration have been identified [1]....