-
1
-
-
0030756351
-
Drug abuse: Hedonic homeostatic dysregulation
-
Koob GF, Le Moal M. 1997 Drug abuse: hedonic homeostatic dysregulation. Science 278, 52–58. (doi:10.1126/science.278.5335.52)
-
(1997)
Science
, vol.278
, pp. 52-58
-
-
Koob, G.F.1
Le Moal, M.2
-
2
-
-
0021412983
-
Role of unconditioned and conditioned drug effects in the self-administration of opiates and stimulants
-
Stewart J, de Wit H, Eikelboom R. 1984 Role of unconditioned and conditioned drug effects in the self-administration of opiates and stimulants. Psychol. Rev. 91, 251–268. (doi:10.1037/0033-295X.91.2.251)
-
(1984)
Psychol. Rev
, vol.91
, pp. 251-268
-
-
Stewart, J.1
De Wit, H.2
Eikelboom, R.3
-
3
-
-
0023426876
-
A psychomotor stimulant theory of addiction
-
Wise RA, Bozarth MA. 1987 A psychomotor stimulant theory of addiction. Psychol. Rev. 94, 469. (doi:10.1037/0033-295X.94.4.469)
-
(1987)
Psychol. Rev
, vol.94
-
-
Wise, R.A.1
Bozarth, M.A.2
-
4
-
-
10344225664
-
Addiction as a computational process gone awry
-
Redish A. 2004 Addiction as a computational process gone awry. Science 306, 1944–1947. (doi:10.1126/science.1102384)
-
(2004)
Science
, vol.306
, pp. 1944-1947
-
-
Redish, A.1
-
5
-
-
0030896968
-
A neural substrate of prediction and reward
-
Schultz W, Dayan P, Montague PR. 1997 A neural substrate of prediction and reward. Science 275, 1593–1599. (doi:10.1126/science.275.5306.1593)
-
(1997)
Science
, vol.275
, pp. 1593-1599
-
-
Schultz, W.1
Dayan, P.2
Montague, P.R.3
-
6
-
-
27644454882
-
Neural systems of reinforcement for drug addiction: From actions to habits to compulsion
-
Everitt BJ, Robbins TW. 2005 Neural systems of reinforcement for drug addiction: from actions to habits to compulsion. Nat. Neurosci. 8, 1481–1489. (doi:10.1038/nn1579)
-
(2005)
Nat. Neurosci
, vol.8
, pp. 1481-1489
-
-
Everitt, B.J.1
Robbins, T.W.2
-
7
-
-
0032693376
-
Impulsivity resulting from frontostriatal dysfunction in drug abuse: Implications for the control of behavior by rewardrelated stimuli
-
Jentsch JD, Taylor JR. 1999 Impulsivity resulting from frontostriatal dysfunction in drug abuse: implications for the control of behavior by rewardrelated stimuli. Psychopharmacology (Berl.) 146, 373–390. (doi:10.1007/PL00005483)
-
(1999)
Psychopharmacology (Berl.)
, vol.146
, pp. 373-390
-
-
Jentsch, J.D.1
Taylor, J.R.2
-
8
-
-
0027305458
-
The neural basis of drug craving: An incentive-sensitization theory of addiction
-
Robinson TE, Berridge KC. 1993 The neural basis of drug craving: an incentive-sensitization theory of addiction. Brain Res. Rev. 18, 247–291. (doi:10.1016/0165-0173(93)90013-P)
-
(1993)
Brain Res. Rev
, vol.18
, pp. 247-291
-
-
Robinson, T.E.1
Berridge, K.C.2
-
9
-
-
84887041146
-
New insights into the specificity and plasticity of reward and aversion encoding in the mesolimbic system
-
Volman SF, Lammel S, Margolis EB, Kim Y, Richard JM, Roitman MF, Lobo MK. 2013 New insights into the specificity and plasticity of reward and aversion encoding in the mesolimbic system. J. Neurosci. 33, 17 569–17 576. (doi:10.1523/JNEUROSCI.3250-13.2013)
-
(2013)
J. Neurosci
, vol.33
-
-
Volman, S.F.1
Lammel, S.2
Margolis, E.B.3
Kim, Y.4
Richard, J.M.5
Roitman, M.F.6
Lobo, M.K.7
-
10
-
-
84897454748
-
Designer receptors show role for ventral pallidum input to ventral tegmental area in cocaine seeking
-
Mahler SV et al. 2014 Designer receptors show role for ventral pallidum input to ventral tegmental area in cocaine seeking. Nat. Neurosci. 17, 577–585. (doi:10.1038/nn.3664)
-
(2014)
Nat. Neurosci
, vol.17
, pp. 577-585
-
-
Mahler, S.V.1
-
11
-
-
84887992703
-
Mapping brain circuits of reward and motivation: In the footsteps of Ann Kelley
-
Richard JM, Castro DC, DiFeliceantonio AG, Robinson MJ, Berridge KC. 2013 Mapping brain circuits of reward and motivation: in the footsteps of Ann Kelley. Neurosci. Biobehav. Rev. 37, 1919–1931. (doi:10.1016/j.neubiorev.2012.12.008)
-
(2013)
Neurosci. Biobehav. Rev
, vol.37
, pp. 1919-1931
-
-
Richard, J.M.1
Castro, D.C.2
Difeliceantonio, A.G.3
Robinson, M.J.4
Berridge, K.C.5
-
12
-
-
54049129747
-
Midbrain dopamine neurons: Projection target determines action potential duration and dopamine D2 receptor inhibition
-
Margolis EB, Mitchell JM, Ishikawa J, Hjelmstad GO, Fields HL. 2008 Midbrain dopamine neurons: projection target determines action potential duration and dopamine D2 receptor inhibition. J. Neurosci. 28, 8908–8913. (doi:10.1523/JNEUROSCI.1526-08.2008)
-
(2008)
J. Neurosci
, vol.28
, pp. 8908-8913
-
-
Margolis, E.B.1
Mitchell, J.M.2
Ishikawa, J.3
Hjelmstad, G.O.4
Fields, H.L.5
-
13
-
-
79958055503
-
Projection-specific modulation of dopamine neuron synapses by aversive and rewarding stimuli
-
Lammel S, Ion DI, Roeper J, Malenka RC. 2011 Projection-specific modulation of dopamine neuron synapses by aversive and rewarding stimuli. Neuron 70, 855–862. (doi:10.1016/j.neuron.2011.03.025)
-
(2011)
Neuron
, vol.70
, pp. 855-862
-
-
Lammel, S.1
Ion, D.I.2
Roeper, J.3
Malenka, R.C.4
-
14
-
-
84859924817
-
Optogenetic stimulation of a hippocampal engram activates fear memory recall
-
Liu X, Ramirez S, Pang PT, Puryear CB, Govindarajan A, Deisseroth K, Tonegawa S. 2012 Optogenetic stimulation of a hippocampal engram activates fear memory recall. Nature 484, 381–385. (doi:10.1038/nature11028)
-
(2012)
Nature
, vol.484
, pp. 381-385
-
-
Liu, X.1
Ramirez, S.2
Pang, P.T.3
Puryear, C.B.4
Govindarajan, A.5
Deisseroth, K.6
Tonegawa, S.7
-
15
-
-
84906093616
-
Glutamate neurons within the midbrain dopamine regions
-
Morales M, Root D. 2014 Glutamate neurons within the midbrain dopamine regions. Neuroscience 282, 60–68. (doi:10.1016/j.neuroscience.2014.05.032)
-
(2014)
Neuroscience
, vol.282
, pp. 60-68
-
-
Morales, M.1
Root, D.2
-
16
-
-
84881115602
-
Cocaine-induced adaptations in D1 and D2 accumbens projection neurons (A dichotomy not necessarily synonymous with direct and indirect pathways)
-
Smith RJ, Lobo MK, Spencer S, Kalivas PW. 2013 Cocaine-induced adaptations in D1 and D2 accumbens projection neurons (a dichotomy not necessarily synonymous with direct and indirect pathways). Curr. Opin. Neurobiol. 23, 546–552. (doi:10.1016/j.conb.2013.01.026)
-
(2013)
Curr. Opin. Neurobiol
, vol.23
, pp. 546-552
-
-
Smith, R.J.1
Lobo, M.K.2
Spencer, S.3
Kalivas, P.W.4
-
17
-
-
84892597413
-
Circuit dynamics of adaptive and maladaptive behaviour
-
Deisseroth K. 2014 Circuit dynamics of adaptive and maladaptive behaviour. Nature 505, 309–317. (doi:10.1038/nature12982)
-
(2014)
Nature
, vol.505
, pp. 309-317
-
-
Deisseroth, K.1
-
18
-
-
33749020262
-
Channelrhodopsin-2 and optical control of excitable cells
-
Zhang F, Wang L-P, Boyden ES, Deisseroth K. 2006 Channelrhodopsin-2 and optical control of excitable cells. Nat. Methods 3, 785–792. (doi:10.1038/nmeth936)
-
(2006)
Nat. Methods
, vol.3
, pp. 785-792
-
-
Zhang, F.1
Wang, L.-P.2
Boyden, E.S.3
Deisseroth, K.4
-
19
-
-
26444621497
-
Millisecond-timescale, genetically targeted optical control of neural activity
-
Boyden ES, Zhang F, Bamberg E, Nagel G, Deisseroth K. 2005 Millisecond-timescale, genetically targeted optical control of neural activity. Nat. Neurosci. 8, 1263–1268. (doi:10.1038/nn1525)
-
(2005)
Nat. Neurosci
, vol.8
, pp. 1263-1268
-
-
Boyden, E.S.1
Zhang, F.2
Bamberg, E.3
Nagel, G.4
Deisseroth, K.5
-
20
-
-
0345133280
-
Channelrhodopsin-2, a directly light-gated cationselective membrane channel
-
Nagel G, Szellas T, Huhn W, Kateriya S, Adeishvili N, Berthold P, Ollig D, Hegemann P, Bamberg E. 2003 Channelrhodopsin-2, a directly light-gated cationselective membrane channel. Proc. Natl Acad. Sci. 100, 13 940–13 945. (doi:10.1073/pnas.1936192100)
-
(2003)
Proc. Natl Acad. Sci
, vol.100
-
-
Nagel, G.1
Szellas, T.2
Huhn, W.3
Kateriya, S.4
Adeishvili, N.5
Berthold, P.6
Ollig, D.7
Hegemann, P.8
Bamberg, E.9
-
21
-
-
77950930288
-
Molecular and cellular approaches for diversifying and extending optogenetics
-
Gradinaru V, Zhang F, Ramakrishnan C, Mattis J, Prakash R, Diester I, Goshen I, Thompson KR, Deisseroth K. 2010 Molecular and cellular approaches for diversifying and extending optogenetics. Cell 141, 154–165. (doi:10.1016/j.cell.2010.02.037)
-
(2010)
Cell
, vol.141
, pp. 154-165
-
-
Gradinaru, V.1
Zhang, F.2
Ramakrishnan, C.3
Mattis, J.4
Prakash, R.5
Diester, I.6
Goshen, I.7
Thompson, K.R.8
Deisseroth, K.9
-
22
-
-
84856502824
-
Principles for applying optogenetic tools derived from direct comparative analysis of microbial opsins
-
Mattis J et al. 2012 Principles for applying optogenetic tools derived from direct comparative analysis of microbial opsins. Nat. Methods 9, 159–172. (doi:10.1038/nmeth.1808)
-
(2012)
Nat. Methods
, vol.9
, pp. 159-172
-
-
Mattis, J.1
-
23
-
-
79952006344
-
An optogenetic toolbox designed for primates
-
Diester I, Kaufman MT, Mogri M, Pashaie R, Goo W, Yizhar O, Ramakrishnan C, Deisseroth K, Shenoy KV. 2011 An optogenetic toolbox designed for primates. Nat. Neurosci. 14, 387–397. (doi:10.1038/nn.2749)
-
(2011)
Nat. Neurosci
, vol.14
, pp. 387-397
-
-
Diester, I.1
Kaufman, M.T.2
Mogri, M.3
Pashaie, R.4
Goo, W.5
Yizhar, O.6
Ramakrishnan, C.7
Deisseroth, K.8
Shenoy, K.V.9
-
24
-
-
84865444922
-
Optogenetic approaches to characterize the longrange synaptic pathways from the hypothalamus to brain stem autonomic nuclei
-
Piñol RA, Bateman R, Mendelowitz D. 2012 Optogenetic approaches to characterize the longrange synaptic pathways from the hypothalamus to brain stem autonomic nuclei. J. Neurosci. Methods 210, 238–246. (doi:10.1016/j.jneumeth.2012.07.022)
-
(2012)
J. Neurosci. Methods
, vol.210
, pp. 238-246
-
-
Piñol, R.A.1
Bateman, R.2
Mendelowitz, D.3
-
25
-
-
83255194583
-
Recombinase-driver rat lines: Tools, techniques, and optogenetic application to dopamine-mediated reinforcement
-
Witten IB et al. 2011 Recombinase-driver rat lines: tools, techniques, and optogenetic application to dopamine-mediated reinforcement. Neuron 72, 721–733. (doi:10.1016/j.neuron.2011.10.028)
-
(2011)
Neuron
, vol.72
, pp. 721-733
-
-
Witten, I.B.1
-
26
-
-
84887008084
-
GENSAT BAC Cre-recombinase driver lines to study the functional organization of cerebral cortical and basal ganglia circuits
-
Gerfen CR, Paletzki R, Heintz N. 2013 GENSAT BAC Cre-recombinase driver lines to study the functional organization of cerebral cortical and basal ganglia circuits. Neuron 80, 1368–1383. (doi:10.1016/j.neuron.2013.10.016)
-
(2013)
Neuron
, vol.80
, pp. 1368-1383
-
-
Gerfen, C.R.1
Paletzki, R.2
Heintz, N.3
-
27
-
-
84884173653
-
Transgene expression in target-defined neuron populations mediated by retrograde infection with adeno-associated viral vectors
-
Rothermel M, Brunert D, Zabawa C, Díaz-Quesada M, Wachowiak M. 2013 Transgene expression in target-defined neuron populations mediated by retrograde infection with adeno-associated viral vectors. J. Neurosci. 33, 15195–15206. (doi:10.1523/JNEUROSCI.1618-13.2013)
-
(2013)
J. Neurosci
, vol.33
, pp. 15195-15206
-
-
Rothermel, M.1
Brunert, D.2
Zabawa, C.3
Díaz-Quesada, M.4
Wachowiak, M.5
-
28
-
-
84896376672
-
Manipulating gene expression in projection-specific neuronal populations using combinatorial viral approaches
-
Gore BB, Soden ME, Zweifel LS. 2013 Manipulating gene expression in projection-specific neuronal populations using combinatorial viral approaches. In Curr. Protoc. Neurosci. 4, 4.35.1–4.35.20.
-
(2013)
In Curr. Protoc. Neurosci
, vol.4
-
-
Gore, B.B.1
Soden, M.E.2
Zweifel, L.S.3
-
29
-
-
84861936797
-
Whole-brain mapping of direct inputs to midbrain dopamine neurons
-
Watabe-Uchida M, Zhu L, Ogawa SK, Vamanrao A, Uchida N. 2012 Whole-brain mapping of direct inputs to midbrain dopamine neurons. Neuron 74, 858–873. (doi:10.1016/j.neuron.2012.03.017)
-
(2012)
Neuron
, vol.74
, pp. 858-873
-
-
Watabe-Uchida, M.1
Zhu, L.2
Ogawa, S.K.3
Vamanrao, A.4
Uchida, N.5
-
30
-
-
84880697888
-
Differential innervation of direct- and indirectpathway striatal projection neurons
-
Wall NR, De La Parra M, Callaway EM, Kreitzer AC. 2013 Differential innervation of direct- and indirectpathway striatal projection neurons. Neuron 79, 347–360. (doi:10.1016/j.neuron.2013.05.014)
-
(2013)
Neuron
, vol.79
, pp. 347-360
-
-
Wall, N.R.1
De La Parra, M.2
Callaway, E.M.3
Kreitzer, A.C.4
-
31
-
-
84901395265
-
Role of nucleus accumbens shell neuronal ensembles in contextinduced reinstatement of cocaine-seeking
-
Cruz FC, Babin KR, Leao RM, Goldart EM, Bossert JM, Shaham Y, Hope BT. 2014 Role of nucleus accumbens shell neuronal ensembles in contextinduced reinstatement of cocaine-seeking. J. Neurosci. 34, 7437–7446. (doi:10.1523/JNEUROSCI.0238-14.2014)
-
(2014)
J. Neurosci
, vol.34
, pp. 7437-7446
-
-
Cruz, F.C.1
Babin, K.R.2
Leao, R.M.3
Goldart, E.M.4
Bossert, J.M.5
Shaham, Y.6
Hope, B.T.7
-
32
-
-
84876310253
-
Injectable, cellular-scale optoelectronics with applications for wireless optogenetics
-
Kim T-i et al. 2013 Injectable, cellular-scale optoelectronics with applications for wireless optogenetics. Science 340, 211–216. (doi:10.1126/science.1232437)
-
(2013)
Science
, vol.340
, pp. 211-216
-
-
T-I, K.1
-
33
-
-
84860294289
-
A toolbox of Cre-dependent optogenetic transgenic mice for light-induced activation and silencing
-
Madisen L et al. 2012 A toolbox of Cre-dependent optogenetic transgenic mice for light-induced activation and silencing. Nat. Neurosci. 15, 793–802. (doi:10.1038/nn.3078)
-
(2012)
Nat. Neurosci
, vol.15
, pp. 793-802
-
-
Madisen, L.1
-
34
-
-
49049099862
-
A FLEX switch targets Channelrhodopsin-2 to multiple cell types for imaging and long-range circuit mapping
-
Atasoy D, Aponte Y, Su HH, Sternson SM. 2008 A FLEX switch targets Channelrhodopsin-2 to multiple cell types for imaging and long-range circuit mapping. J. Neurosci. 28, 7025–7030. (doi:10.1523/JNEUROSCI.1954-08.2008)
-
(2008)
J. Neurosci
, vol.28
, pp. 7025-7030
-
-
Atasoy, D.1
Aponte, Y.2
Su, H.H.3
Sternson, S.M.4
-
35
-
-
84878037012
-
Next-generation transgenic mice for optogenetic analysis of neural circuits
-
Asrican B et al. 2013 Next-generation transgenic mice for optogenetic analysis of neural circuits. Front. Neural Circuits 7, 160. (doi:10.3389/fncir.2013.00160)
-
(2013)
Front. Neural Circuits
, vol.7
-
-
Asrican, B.1
-
36
-
-
77955172369
-
Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry
-
Kravitz AV, Freeze BS, Parker PR, Kay K, Thwin MT, Deisseroth K, Kreitzer AC. 2010 Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry. Nature 466, 622–626. (doi:10.1038/nature09159)
-
(2010)
Nature
, vol.466
, pp. 622-626
-
-
Kravitz, A.V.1
Freeze, B.S.2
Parker, P.R.3
Kay, K.4
Thwin, M.T.5
Deisseroth, K.6
Kreitzer, A.C.7
-
37
-
-
79952814389
-
Amygdala circuitry mediating reversible and bidirectional control of anxiety
-
Tye KM et al. 2011 Amygdala circuitry mediating reversible and bidirectional control of anxiety. Nature 471, 358–362. (doi:10.1038/nature09820)
-
(2011)
Nature
, vol.471
, pp. 358-362
-
-
Tye, K.M.1
-
38
-
-
84891681994
-
A causal link between prediction errors, dopamine neurons and learning
-
Steinberg EE, Keiflin R, Boivin JR, Witten IB, Deisseroth K, Janak PH. 2013 A causal link between prediction errors, dopamine neurons and learning. Nat. Neurosci. 16, 966–973. (doi:10.1038/nn.3413)
-
(2013)
Nat. Neurosci
, vol.16
, pp. 966-973
-
-
Steinberg, E.E.1
Keiflin, R.2
Boivin, J.R.3
Witten, I.B.4
Deisseroth, K.5
Janak, P.H.6
-
39
-
-
79955768829
-
Remote control of neuronal signaling
-
Rogan SC, Roth BL. 2011 Remote control of neuronal signaling. Pharmacol. Rev. 63, 291–315. (doi:10.1124/pr.110.003020)
-
(2011)
Pharmacol. Rev
, vol.63
, pp. 291-315
-
-
Rogan, S.C.1
Roth, B.L.2
-
40
-
-
77749320196
-
Directed molecular evolution of DREADDs: A generic approach to creating next-generation RASSLs
-
Dong S, Rogan SC, Roth BL. 2010 Directed molecular evolution of DREADDs: a generic approach to creating next-generation RASSLs. Nat. Protocol. 5, 561–573. (doi:10.1038/nprot.2009.239)
-
(2010)
Nat. Protocol
, vol.5
, pp. 561-573
-
-
Dong, S.1
Rogan, S.C.2
Roth, B.L.3
-
41
-
-
0031940393
-
Controlling signaling with a specifically designed Gi-coupled receptor
-
Coward P, Wada HG, Falk MS, Chan SD, Meng F, Akil H, Conklin BR. 1998 Controlling signaling with a specifically designed Gi-coupled receptor. Proc. Natl Acad. Sci. USA 95, 352–357. (doi:10.1073/pnas.95.1.352)
-
(1998)
Proc. Natl Acad. Sci. USA
, vol.95
, pp. 352-357
-
-
Coward, P.1
Wada, H.G.2
Falk, M.S.3
Chan, S.D.4
Meng, F.5
Akil, H.6
Conklin, B.R.7
-
42
-
-
34247640671
-
Evolving the lock to fit the key to create a family of G protein-coupled receptors potently activated by an inert ligand
-
Armbruster BN, Li X, Pausch MH, Herlitze S, Roth BL. 2007 Evolving the lock to fit the key to create a family of G protein-coupled receptors potently activated by an inert ligand. Proc. Natl Acad. Sci. USA 104, 5163–5168. (doi:10.1073/pnas.0700293104)
-
(2007)
Proc. Natl Acad. Sci. USA
, vol.104
, pp. 5163-5168
-
-
Armbruster, B.N.1
Li, X.2
Pausch, M.H.3
Herlitze, S.4
Roth, B.L.5
-
43
-
-
78650679270
-
Transient neuronal inhibition reveals opposing roles of indirect and direct pathways in sensitization
-
Ferguson SM, Eskenazi D, Ishikawa M, Wanat MJ, Phillips PE, Dong Y, Roth BL, Neumaier JF. 2011 Transient neuronal inhibition reveals opposing roles of indirect and direct pathways in sensitization. Nat. Neurosci. 14, 22–24. (doi:10.1038/nn.2703)
-
(2011)
Nat. Neurosci
, vol.14
, pp. 22-24
-
-
Ferguson, S.M.1
Eskenazi, D.2
Ishikawa, M.3
Wanat, M.J.4
Phillips, P.E.5
Dong, Y.6
Roth, B.L.7
Neumaier, J.F.8
-
44
-
-
68349103200
-
Remote control of neuronal activity in transgenic mice expressing evolved G protein-coupled receptors
-
Alexander GM et al. 2009 Remote control of neuronal activity in transgenic mice expressing evolved G protein-coupled receptors. Neuron 63, 27–39. (doi:10.1016/j.neuron.2009.06.014)
-
(2009)
Neuron
, vol.63
, pp. 27-39
-
-
Alexander, G.M.1
-
45
-
-
84896317618
-
An excitatory paraventricular nucleus to AgRP neuron circuit that drives hunger
-
Krashes MJ et al. 2014 An excitatory paraventricular nucleus to AgRP neuron circuit that drives hunger. Nature 507, 238–242. (doi:10.1038/nature12956)
-
(2014)
Nature
, vol.507
, pp. 238-242
-
-
Krashes, M.J.1
-
46
-
-
84930244375
-
A new DREADD facilitates the multiplexed chemogenetic interrogation of behavior
-
Vardy E et al. 2015 A new DREADD facilitates the multiplexed chemogenetic interrogation of behavior. Neuron 86, 936–946. (doi:10.1016/j.neuron.2015.03.065)
-
(2015)
Neuron
, vol.86
, pp. 936-946
-
-
Vardy, E.1
-
47
-
-
79953307878
-
Rapid, reversible activation of AgRP neurons drives feeding behavior in mice
-
Krashes MJ, Koda S, Ye C, Rogan SC, Adams AC, Cusher DS, Maratos-Flier E, Roth BL, Lowell BB. 2011 Rapid, reversible activation of AgRP neurons drives feeding behavior in mice. J. Clin. Invest. 121, 1424. (doi:10.1172/JCI46229)
-
(2011)
J. Clin. Invest
, vol.121
-
-
Krashes, M.J.1
Koda, S.2
Ye, C.3
Rogan, S.C.4
Adams, A.C.5
Cusher, D.S.6
Maratos-Flier, E.7
Roth, B.L.8
Lowell, B.B.9
-
48
-
-
84891808217
-
Tools for resolving functional activity and connectivity within intact neural circuits
-
Jennings JH, Stuber GD. 2014 Tools for resolving functional activity and connectivity within intact neural circuits. Curr. Biol. 24, R41–R50. (doi:10.1016/j.cub.2013.11.042)
-
(2014)
Curr. Biol
, vol.24
-
-
Jennings, J.H.1
Stuber, G.D.2
-
49
-
-
84920073051
-
Optogenetics: The age of light
-
Häusser M. 2014 Optogenetics: the age of light. Nat. Methods 11, 1012–1014. (doi:10.1038/nmeth.3111)
-
(2014)
Nat. Methods
, vol.11
, pp. 1012-1014
-
-
Häusser, M.1
-
50
-
-
84928169029
-
Principles of designing interpretable optogenetic behavior experiments
-
Allen BD, Singer AC, Boyden ES. 2015 Principles of designing interpretable optogenetic behavior experiments. Learn. Mem. 22, 232–238. (doi:10.1101/lm.038026.114)
-
(2015)
Learn. Mem
, vol.22
, pp. 232-238
-
-
Allen, B.D.1
Singer, A.C.2
Boyden, E.S.3
-
51
-
-
84901441064
-
Achieving high-frequency optical control of synaptic transmission
-
Jackman SL, Beneduce BM, Drew IR, Regehr WG. 2014 Achieving high-frequency optical control of synaptic transmission. J. Neurosci. 34, 7704–7714. (doi:10.1523/JNEUROSCI.4694-13.2014)
-
(2014)
J. Neurosci
, vol.34
, pp. 7704-7714
-
-
Jackman, S.L.1
Beneduce, B.M.2
Drew, I.R.3
Regehr, W.G.4
-
52
-
-
84875039623
-
Long-term channelrhodopsin-2 (ChR2) expression can induce abnormal axonal morphology and targeting in cerebral cortex
-
Miyashita T, Shao YR, Chung J, Pourzia O, Feldman DE. 2013 Long-term channelrhodopsin-2 (ChR2) expression can induce abnormal axonal morphology and targeting in cerebral cortex. Front. Neural Circuits 7, 8. (doi:10.3389/fncir.2013.00008)
-
(2013)
Front. Neural Circuits
, vol.7
-
-
Miyashita, T.1
Shao, Y.R.2
Chung, J.3
Pourzia, O.4
Feldman, D.E.5
-
53
-
-
84928957119
-
Closedloop and activity-guided optogenetic control
-
Grosenick L, Marshel JH, Deisseroth K. 2015 Closedloop and activity-guided optogenetic control. Neuron 86, 106–139. (doi:10.1016/j.neuron.2015.03.034)
-
(2015)
Neuron
, vol.86
, pp. 106-139
-
-
Grosenick, L.1
Marshel, J.H.2
Deisseroth, K.3
-
54
-
-
84855445081
-
Reversal of cocaine-evoked synaptic potentiation resets druginduced adaptive behaviour
-
Pascoli V, Turiault M, Lüscher C. 2012 Reversal of cocaine-evoked synaptic potentiation resets druginduced adaptive behaviour. Nature 481, 71–75. (doi:10.1038/nature10709)
-
(2012)
Nature
, vol.481
, pp. 71-75
-
-
Pascoli, V.1
Turiault, M.2
Lüscher, C.3
-
55
-
-
84875990681
-
Opioid modulation of ventral pallidal afferents to ventral tegmental area neurons
-
Hjelmstad GO, Xia Y, Margolis EB, Fields HL. 2013 Opioid modulation of ventral pallidal afferents to ventral tegmental area neurons. J. Neurosci. 33, 6454–6459. (doi:10.1523/JNEUROSCI.0178-13.2013)
-
(2013)
J. Neurosci
, vol.33
, pp. 6454-6459
-
-
Hjelmstad, G.O.1
Xia, Y.2
Margolis, E.B.3
Fields, H.L.4
-
56
-
-
79957643721
-
Nucleus accumbens medium spiny neurons target non-dopaminergic neurons in the ventral tegmental area
-
Xia Y, Driscoll JR, Wilbrecht L, Margolis EB, Fields HL, Hjelmstad GO. 2011 Nucleus accumbens medium spiny neurons target non-dopaminergic neurons in the ventral tegmental area. J. Neurosci. 31, 7811–7816. (doi:10.1523/JNEUROSCI.1504-11.2011)
-
(2011)
J. Neurosci
, vol.31
, pp. 7811-7816
-
-
Xia, Y.1
Driscoll, J.R.2
Wilbrecht, L.3
Margolis, E.B.4
Fields, H.L.5
Hjelmstad, G.O.6
-
57
-
-
84892698652
-
Long-range connectivity defines behavioral specificity of amygdala neurons
-
Senn V et al. 2014 Long-range connectivity defines behavioral specificity of amygdala neurons. Neuron 81, 428–437. (doi:10.1016/j.neuron.2013.11.006)
-
(2014)
Neuron
, vol.81
, pp. 428-437
-
-
Senn, V.1
-
58
-
-
79960254976
-
Optogenetic manipulation of neural circuitry in vivo
-
Kravitz AV, Kreitzer AC. 2011 Optogenetic manipulation of neural circuitry in vivo. Curr. Opin. Neurobiol. 21, 433–439. (doi:10.1016/j.conb.2011.02.010)
-
(2011)
Curr. Opin. Neurobiol
, vol.21
, pp. 433-439
-
-
Kravitz, A.V.1
Kreitzer, A.C.2
-
59
-
-
34547133175
-
An optical neural interface: In vivo control of rodent motor cortex with integrated fiberoptic and optogenetic technology
-
Aravanis AM, Wang L-P, Zhang F, Meltzer LA, Mogri MZ, Schneider MB, Deisseroth K. 2007 An optical neural interface: in vivo control of rodent motor cortex with integrated fiberoptic and optogenetic technology. J. Neural Eng. 4, S143. (doi:10.1088/1741-2560/4/3/S02)
-
(2007)
J. Neural Eng
, vol.4
-
-
Aravanis, A.M.1
Wang, L.-P.2
Zhang, F.3
Meltzer, L.A.4
Mogri, M.Z.5
Schneider, M.B.6
Deisseroth, K.7
-
60
-
-
84921664006
-
Cocaine exposure reorganizes cell type- and input-specific connectivity in the nucleus accumbens
-
MacAskill AF, Cassel JM, Carter AG. 2014 Cocaine exposure reorganizes cell type- and input-specific connectivity in the nucleus accumbens. Nat. Neurosci. 17, 1198–1207. (doi:10.1038/nn.3783)
-
(2014)
Nat. Neurosci
, vol.17
, pp. 1198-1207
-
-
Macaskill, A.F.1
Cassel, J.M.2
Carter, A.G.3
-
61
-
-
84925859543
-
Decoding neural circuits that control compulsive sucrose seeking
-
Nieh EH, Matthews GA, Allsop SA, Presbrey KN, Leppla CA, Wichmann R, Neve R, Wildes CP, Tye KM. 2015 Decoding neural circuits that control compulsive sucrose seeking. Cell 160, 528–541. (doi:10.1016/j.cell.2015.01.003)
-
(2015)
Cell
, vol.160
, pp. 528-541
-
-
Nieh, E.H.1
Matthews, G.A.2
Allsop, S.A.3
Presbrey, K.N.4
Leppla, C.A.5
Wichmann, R.6
Neve, R.7
Wildes, C.P.8
Tye, K.M.9
-
62
-
-
84869767566
-
Synaptic and behavioral profile of multiple glutamatergic inputs to the nucleus accumbens
-
Britt JP, Benaliouad F, McDevitt RA, Stuber GD, Wise RA, Bonci A. 2012 Synaptic and behavioral profile of multiple glutamatergic inputs to the nucleus accumbens. Neuron 76, 790–803. (doi:10.1016/j.neuron.2012.09.040)
-
(2012)
Neuron
, vol.76
, pp. 790-803
-
-
Britt, J.P.1
Benaliouad, F.2
McDevitt, R.A.3
Stuber, G.D.4
Wise, R.A.5
Bonci, A.6
-
63
-
-
84879845450
-
Optogenetic identification of striatal projection neuron subtypes during in vivo recordings
-
Kravitz AV, Owen SF, Kreitzer AC. 2013 Optogenetic identification of striatal projection neuron subtypes during in vivo recordings. Brain Res. 1511, 21–32. (doi:10.1016/j.brainres.2012.11.018)
-
(2013)
Brain Res
, vol.1511
, pp. 21-32
-
-
Kravitz, A.V.1
Owen, S.F.2
Kreitzer, A.C.3
-
64
-
-
84901285980
-
Amygdala interneuron subtypes control fear learning through disinhibition
-
Wolff SBE et al. 2014 Amygdala interneuron subtypes control fear learning through disinhibition. Nature 509, 453–458. (doi:10.1038/nature13258)
-
(2014)
Nature
, vol.509
, pp. 453-458
-
-
Wolff, S.1
-
65
-
-
84856431209
-
Neuron-type-specific signals for reward and punishment in the ventral tegmental area
-
Cohen JY, Haesler S, Vong L, Lowell BB, Uchida N. 2012 Neuron-type-specific signals for reward and punishment in the ventral tegmental area. Nature 482, 85–88. (doi:10.1038/nature10754)
-
(2012)
Nature
, vol.482
, pp. 85-88
-
-
Cohen, J.Y.1
Haesler, S.2
Vong, L.3
Lowell, B.B.4
Uchida, N.5
-
66
-
-
84887837955
-
Control of basal ganglia output by direct and indirect pathway projection neurons
-
Freeze BS, Kravitz AV, Hammack N, Berke JD, Kreitzer AC. 2013 Control of basal ganglia output by direct and indirect pathway projection neurons. J. Neurosci. 33, 18 531–18 539. (doi:10.1523/JNEUROSCI.1278-13.2013)
-
(2013)
J. Neurosci
, vol.33
-
-
Freeze, B.S.1
Kravitz, A.V.2
Hammack, N.3
Berke, J.D.4
Kreitzer, A.C.5
-
67
-
-
84872937372
-
Dopamine neurons modulate neural encoding and expression of depressionrelated behaviour
-
Tye KM et al. 2013 Dopamine neurons modulate neural encoding and expression of depressionrelated behaviour. Nature 493, 537–541. (doi:10.1152/jn.00234.2004)
-
(2013)
Nature
, vol.493
, pp. 537-541
-
-
Tye, K.M.1
-
68
-
-
84892469186
-
In vivo optogenetic identification and manipulation of GABAergic interneuron subtypes
-
Roux L, Stark E, Sjulson L, Buzsáki G. 2014 In vivo optogenetic identification and manipulation of GABAergic interneuron subtypes. Curr. Opin. Neurobiol. 26, 88–95. (doi:10.1016/j.conb.2013.12.013)
-
(2014)
Curr. Opin. Neurobiol
, vol.26
, pp. 88-95
-
-
Roux, L.1
Stark, E.2
Sjulson, L.3
Buzsáki, G.4
-
69
-
-
65249104510
-
Millisecond-timescale optical control of neural dynamics in the nonhuman primate brain
-
Han X et al. 2009 Millisecond-timescale optical control of neural dynamics in the nonhuman primate brain. Neuron 62, 191–198. (doi:10.1016/j.neuron.2009.03.011)
-
(2009)
Neuron
, vol.62
, pp. 191-198
-
-
Han, X.1
-
70
-
-
76649096687
-
Targeted optogenetic stimulation and recording of neurons in vivo using cell-type-specific expression of Channelrhodopsin-2
-
Cardin JA, Carlén M, Meletis K, Knoblich U, Zhang F, Deisseroth K, Tsai L-H, Moore CI. 2010 Targeted optogenetic stimulation and recording of neurons in vivo using cell-type-specific expression of Channelrhodopsin-2. Nat. Protocol. 5, 247–254. (doi:10.1038/nprot.2009.228)
-
(2010)
Nat. Protocol
, vol.5
, pp. 247-254
-
-
Cardin, J.A.1
Carlén, M.2
Meletis, K.3
Knoblich, U.4
Zhang, F.5
Deisseroth, K.6
Tsai, L.-H.7
Moore, C.I.8
-
71
-
-
77953796826
-
Multi-array silicon probes with integrated optical fibers: Light-assisted perturbation and recording of local neural circuits in the behaving animal
-
Royer S, Zemelman BV, Barbic M, Losonczy A, Buzsáki G, Magee JC. 2010 Multi-array silicon probes with integrated optical fibers: light-assisted perturbation and recording of local neural circuits in the behaving animal. Eur. J. Neurosci. 31, 2279–2291. (doi:10.1111/j.1460-9568.2010.07250.x)
-
(2010)
Eur. J. Neurosci
, vol.31
, pp. 2279-2291
-
-
Royer, S.1
Zemelman, B.V.2
Barbic, M.3
Losonczy, A.4
Buzsáki, G.5
Magee, J.C.6
-
72
-
-
84935417451
-
Monitoring activity in neural circuits with genetically encoded indicators
-
Broussard GJ, Liang R, Tian L. 2014 Monitoring activity in neural circuits with genetically encoded indicators. Front. Mol. Neurosci. 7, 97. (doi:10.3389/fnmol.2014.00097)
-
(2014)
Front. Mol. Neurosci
, vol.7
-
-
Broussard, G.J.1
Liang, R.2
Tian, L.3
-
73
-
-
84880427381
-
Ultrasensitive fluorescent proteins for imaging neuronal activity
-
Chen T-W et al. 2013 Ultrasensitive fluorescent proteins for imaging neuronal activity. Nature 499, 295–300. (doi:10.1038/nature12354)
-
(2013)
Nature
, vol.499
, pp. 295-300
-
-
Chen, T.-W.1
-
74
-
-
84866536647
-
Genetically encoded optical indicators for the analysis of neuronal circuits
-
Knöpfel T. 2012 Genetically encoded optical indicators for the analysis of neuronal circuits. Nat. Rev. Neurosci. 13, 687–700. (doi:10.1038/nrn3293)
-
(2012)
Nat. Rev. Neurosci
, vol.13
, pp. 687-700
-
-
Knöpfel, T.1
-
75
-
-
84927164590
-
A cellular resolution map of barrel cortex activity during tactile behavior
-
Peron SP, Freeman J, Iyer V, Guo C, Svoboda K. 2015 A cellular resolution map of barrel cortex activity during tactile behavior. Neuron 86, 783–799. (doi:10.1016/j.neuron.2015.03.027)
-
(2015)
Neuron
, vol.86
, pp. 783-799
-
-
Peron, S.P.1
Freeman, J.2
Iyer, V.3
Guo, C.4
Svoboda, K.5
-
76
-
-
84860237326
-
Multiple dynamic representations in the motor cortex during sensorimotor learning
-
Huber D, Gutnisky D, Peron S, O’Connor D, Wiegert J, Tian L, Oertner T, Looger L, Svoboda K. 2012 Multiple dynamic representations in the motor cortex during sensorimotor learning. Nature 484, 473–478. (doi:10.1038/nature11039)
-
(2012)
Nature
, vol.484
, pp. 473-478
-
-
Huber, D.1
Gutnisky, D.2
Peron, S.3
O’connor, D.4
Wiegert, J.5
Tian, L.6
Oertner, T.7
Looger, L.8
Svoboda, K.9
-
77
-
-
76649121846
-
Thinned-skull cranial window technique for long-term imaging of the cortex in live mice
-
Yang G, Pan F, Parkhurst CN, Grutzendler J, Gan WB. 2010 Thinned-skull cranial window technique for long-term imaging of the cortex in live mice. Nat. Protocol. 5, 201–208. (doi:10.1038/nprot.2009.222)
-
(2010)
Nat. Protocol
, vol.5
, pp. 201-208
-
-
Yang, G.1
Pan, F.2
Parkhurst, C.N.3
Grutzendler, J.4
Gan, W.B.5
-
78
-
-
84873733797
-
Concurrent activation of striatal direct and indirect pathways during action initiation
-
Cui G, Jun SB, Jin X, Pham MD, Vogel SS, Lovinger DM, Costa RM. 2013 Concurrent activation of striatal direct and indirect pathways during action initiation. Nature 494, 238–242. (doi:10.1038/nature11846)
-
(2013)
Nature
, vol.494
, pp. 238-242
-
-
Cui, G.1
Jun, S.B.2
Jin, X.3
Pham, M.D.4
Vogel, S.S.5
Lovinger, D.M.6
Costa, R.M.7
-
79
-
-
84903204587
-
Natural neural projection dynamics underlying social behavior
-
Gunaydin LA et al. 2014 Natural neural projection dynamics underlying social behavior. Cell 157, 1535–1551. (doi:10.1016/j.cell.2014.05.017)
-
(2014)
Cell
, vol.157
, pp. 1535-1551
-
-
Gunaydin, L.A.1
-
80
-
-
56149125567
-
High-speed, miniaturized fluorescence microscopy in freely moving mice
-
Flusberg BA, Nimmerjahn A, Cocker ED, Mukamel EA, Barretto RP, Ko TH, Burns LD, Jung JC, Schnitzer MJ. 2008 High-speed, miniaturized fluorescence microscopy in freely moving mice. Nat. Methods 5, 935. (doi:10.1038/nmeth.1256)
-
(2008)
Nat. Methods
, vol.5
-
-
Flusberg, B.A.1
Nimmerjahn, A.2
Cocker, E.D.3
Mukamel, E.A.4
Barretto, R.P.5
Ko, T.H.6
Burns, L.D.7
Jung, J.C.8
Schnitzer, M.J.9
-
81
-
-
5344269487
-
In vivo mammalian brain imaging using one- and two-photon fluorescence microendoscopy
-
Jung JC, Mehta AD, Aksay E, Stepnoski R, Schnitzer MJ. 2004 In vivo mammalian brain imaging using one- and two-photon fluorescence microendoscopy. J. Neurophysiol. 5, 3121–3133. (doi:10.1152/jn.00234.2004)
-
(2004)
J. Neurophysiol
, vol.5
, pp. 3121-3133
-
-
Jung, J.C.1
Mehta, A.D.2
Aksay, E.3
Stepnoski, R.4
Schnitzer, M.J.5
-
82
-
-
84875904735
-
Long-term dynamics of CA1 hippocampal place codes
-
Ziv Y, Burns LD, Cocker ED, Hamel EO, Ghosh KK, Kitch LJ, Gamal AE, Schnitzer MJ. 2013 Long-term dynamics of CA1 hippocampal place codes. Nat. Neurosci. 16, 264–266. (doi:10.1038/nn.3329)
-
(2013)
Nat. Neurosci
, vol.16
, pp. 264-266
-
-
Ziv, Y.1
Burns, L.D.2
Cocker, E.D.3
Hamel, E.O.4
Ghosh, K.K.5
Kitch, L.J.6
Gamal, A.E.7
Schnitzer, M.J.8
-
83
-
-
84936943320
-
Miniature microscopes for large-scale imaging of neuronal activity in freely behaving rodents
-
Ziv Y, Ghosh KK. 2015 Miniature microscopes for large-scale imaging of neuronal activity in freely behaving rodents. Curr. Opin. Neurobiol. 32, 141–147. (doi:10.1016/j.conb.2015.04.001)
-
(2015)
Curr. Opin. Neurobiol
, vol.32
, pp. 141-147
-
-
Ziv, Y.1
Ghosh, K.K.2
-
84
-
-
80053368673
-
Miniaturized integration of a fluorescence microscope
-
Ghosh KK, Burns LD, Cocker ED, Nimmerjahn A, Ziv Y, Gamal AE, Schnitzer MJ. 2011 Miniaturized integration of a fluorescence microscope. Nat. Methods 8, 871–878. (doi:10.1038/nmeth.1694)
-
(2011)
Nat. Methods
, vol.8
, pp. 871-878
-
-
Ghosh, K.K.1
Burns, L.D.2
Cocker, E.D.3
Nimmerjahn, A.4
Ziv, Y.5
Gamal, A.E.6
Schnitzer, M.J.7
-
85
-
-
84922224310
-
Visualizing hypothalamic network dynamics for appetitive and consummatory behaviors
-
Jennings JH et al. 2015 Visualizing hypothalamic network dynamics for appetitive and consummatory behaviors. Cell 160, 516–527. (doi:10.1016/j.cell.2014.12.026)
-
(2015)
Cell
, vol.160
, pp. 516-527
-
-
Jennings, J.H.1
-
86
-
-
84929359280
-
Neurons for hunger and thirst transmit a negative-valence teaching signal
-
Betley JN, Xu S, Cao ZFH, Gong R, Magnus CJ, Yu Y, Sternson SM. 2015 Neurons for hunger and thirst transmit a negative-valence teaching signal. Nature 521, 180–185. (doi:10.1038/nature14416)
-
(2015)
Nature
, vol.521
, pp. 180-185
-
-
Betley, J.N.1
Xu, S.2
Cao, Z.3
Gong, R.4
Magnus, C.J.5
Yu, Y.6
Sternson, S.M.7
-
87
-
-
78650902662
-
Optogenetics
-
Deisseroth K. 2011 Optogenetics. Nat. Methods 8, 26–29. (doi:10.1038/nmeth.f.324)
-
(2011)
Nat. Methods
, vol.8
, pp. 26-29
-
-
Deisseroth, K.1
-
88
-
-
84858662491
-
Optogenetic investigation of neural circuits underlying brain disease in animal models
-
Tye KM, Deisseroth K. 2012 Optogenetic investigation of neural circuits underlying brain disease in animal models. Nat. Rev. Neurosci. 13, 251–266. (doi:10.1038/nrn3171)
-
(2012)
Nat. Rev. Neurosci
, vol.13
, pp. 251-266
-
-
Tye, K.M.1
Deisseroth, K.2
-
89
-
-
84879845446
-
Establishing causality for dopamine in neural function and behavior with optogenetics
-
Steinberg EE, Janak PH. 2013 Establishing causality for dopamine in neural function and behavior with optogenetics. Brain Res. 1511, 46–64. (doi:10.1016/j.brainres.2012.09.036)
-
(2013)
Brain Res
, vol.1511
, pp. 46-64
-
-
Steinberg, E.E.1
Janak, P.H.2
-
90
-
-
84907452552
-
Illuminating circuitry relevant to psychiatric disorders with optogenetics
-
Steinberg EE, Christoffel DJ, Deisseroth K, Malenka RC. 2015 Illuminating circuitry relevant to psychiatric disorders with optogenetics. Curr. Opin. Neurobiol. 30, 9–16. (doi:10.1016/j.conb.2014.08.004)
-
(2015)
Curr. Opin. Neurobiol
, vol.30
, pp. 9-16
-
-
Steinberg, E.E.1
Christoffel, D.J.2
Deisseroth, K.3
Malenka, R.C.4
-
91
-
-
0032423613
-
What is the role of dopamine in reward: Hedonic impact, reward learning, or incentive salience?
-
Berridge KC, Robinson TE. 1998 What is the role of dopamine in reward: hedonic impact, reward learning, or incentive salience? Brain Res. Rev. 28, 309–369. (doi:10.1016/S0165-0173(98)00019-8)
-
(1998)
Brain Res. Rev
, vol.28
, pp. 309-369
-
-
Berridge, K.C.1
Robinson, T.E.2
-
92
-
-
0036114221
-
Emotion and motivation: The role of the amygdala, ventral striatum, and prefrontal cortex
-
Cardinal RN, Parkinson JA, Hall J, Everitt BJ. 2002 Emotion and motivation: the role of the amygdala, ventral striatum, and prefrontal cortex. Neurosci. Biobehav. Rev. 26, 321–352. (doi:10.1016/S0149-7634(02)00007-6)
-
(2002)
Neurosci. Biobehav. Rev
, vol.26
, pp. 321-352
-
-
Cardinal, R.N.1
Parkinson, J.A.2
Hall, J.3
Everitt, B.J.4
-
93
-
-
34547681422
-
Ventral tegmental area neurons in learned appetitive behavior and positive reinforcement
-
Fields HL, Hjelmstad GO, Margolis EB, Nicola SM. 2007 Ventral tegmental area neurons in learned appetitive behavior and positive reinforcement. Annu. Rev. Neurosci. 30, 289–316. (doi:10.1146/annurev.neuro.30.051606.094341)
-
(2007)
Annu. Rev. Neurosci
, vol.30
, pp. 289-316
-
-
Fields, H.L.1
Hjelmstad, G.O.2
Margolis, E.B.3
Nicola, S.M.4
-
94
-
-
84888014484
-
Individual variation in resisting temptation: Implications for addiction
-
Saunders BT, Robinson TE. 2013 Individual variation in resisting temptation: implications for addiction. Neurosci. Biobehav. Rev. 37, 1955–1975. (doi:10.1016/j.neubiorev.2013.02.008)
-
(2013)
Neurosci. Biobehav. Rev
, vol.37
, pp. 1955-1975
-
-
Saunders, B.T.1
Robinson, T.E.2
-
95
-
-
2642519680
-
Dopamine, learning and motivation
-
Wise RA. 2004 Dopamine, learning and motivation. Nat. Rev. Neurosci. 5, 483–494. (doi:10.1038/nrn1406)
-
(2004)
Nat. Rev. Neurosci
, vol.5
, pp. 483-494
-
-
Wise, R.A.1
-
96
-
-
79951701590
-
Potential vulnerabilities of neuronal reward, risk, and decision mechanisms to addictive drugs
-
Schultz W. 2011 Potential vulnerabilities of neuronal reward, risk, and decision mechanisms to addictive drugs. Neuron 69, 603–617. (doi:10.1016/j.neuron.2011.02.014)
-
(2011)
Neuron
, vol.69
, pp. 603-617
-
-
Schultz, W.1
-
97
-
-
33847634405
-
The debate over dopamine’s role in reward: The case for incentive salience
-
Berridge KC. 2007 The debate over dopamine’s role in reward: the case for incentive salience. Psychopharmacology (Berl.) 191, 391–431. (doi:10.1007/s00213-006-0578-x)
-
(2007)
Psychopharmacology (Berl.)
, vol.191
, pp. 391-431
-
-
Berridge, K.C.1
-
98
-
-
84928204021
-
The dopamine theory of addiction: 40 years of highs and lows
-
Nutt DJ, Lingford-Hughes A, Erritzoe D, Stokes PRA. 2015 The dopamine theory of addiction: 40 years of highs and lows. Nat. Rev. Neurosci. 16, 305–312. (doi:10.1038/nrn3939)
-
(2015)
Nat. Rev. Neurosci
, vol.16
, pp. 305-312
-
-
Nutt, D.J.1
Lingford-Hughes, A.2
Erritzoe, D.3
Stokes, P.4
-
99
-
-
32444439058
-
Behavioral theories and the neurophysiology of reward
-
Schultz W. 2006 Behavioral theories and the neurophysiology of reward. Annu. Rev. Psychol. 57, 87–115. (doi:10.1146/annurev.psych.56.091103.070229)
-
(2006)
Annu. Rev. Psychol
, vol.57
, pp. 87-115
-
-
Schultz, W.1
-
100
-
-
33847619341
-
Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits
-
Salamone JD, Correa M, Farrar A, Mingote SM. 2007 Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits. Psychopharmacology (Berl.) 191, 461–482. (doi:10.1007/s00213-006-0668-9)
-
(2007)
Psychopharmacology (Berl.)
, vol.191
, pp. 461-482
-
-
Salamone, J.D.1
Correa, M.2
Farrar, A.3
Mingote, S.M.4
-
101
-
-
84883185257
-
Heterogeneous composition of dopamine neurons of the rat A10 region: Molecular evidence for diverse signaling properties
-
Li X, Qi J, Yamaguchi T, Wang H-L, Morales M. 2012 Heterogeneous composition of dopamine neurons of the rat A10 region: molecular evidence for diverse signaling properties. Brain Struct. Funct. 218, 1159–1176. (doi:10.1007/s00429-012-0452-z)
-
(2012)
Brain Struct. Funct
, vol.218
, pp. 1159-1176
-
-
Li, X.1
Qi, J.2
Yamaguchi, T.3
Wang, H.-L.4
Morales, M.5
-
102
-
-
84925203366
-
Glutamatergic and dopaminergic neurons in the mouse ventral tegmental area
-
Yamaguchi T, Qi J, Wang HL, Zhang S, Morales M. 2015 Glutamatergic and dopaminergic neurons in the mouse ventral tegmental area. Eur. J. Neurosci. 41, 760–772. (doi:10.1111/ejn.12818)
-
(2015)
Eur. J. Neurosci
, vol.41
, pp. 760-772
-
-
Yamaguchi, T.1
Qi, J.2
Wang, H.L.3
Zhang, S.4
Morales, M.5
-
103
-
-
33845305449
-
The ventral tegmental area revisited: Is there an electrophysiological marker for dopaminergic neurons
-
Margolis EB, Lock H, Hjelmstad GO, Fields HL. 2006 The ventral tegmental area revisited: is there an electrophysiological marker for dopaminergic neurons? J. Physiol. 577, 907–924. (doi:10.1113/jphysiol.2006.117069)
-
(2006)
J. Physiol
, vol.577
, pp. 907-924
-
-
Margolis, E.B.1
Lock, H.2
Hjelmstad, G.O.3
Fields, H.L.4
-
104
-
-
84887114618
-
Reward and aversion in a heterogeneous midbrain dopamine system
-
Lammel S, Lim BK, Malenka RC. 2014 Reward and aversion in a heterogeneous midbrain dopamine system. Neuropharmacology 76, 351–359. (doi:10.1016/j.neuropharm.2013.03.019)
-
(2014)
Neuropharmacology
, vol.76
, pp. 351-359
-
-
Lammel, S.1
Lim, B.K.2
Malenka, R.C.3
-
105
-
-
77953766302
-
Dopaminergic terminals in the nucleus accumbens but not the dorsal striatum corelease glutamate
-
Stuber GD, Hnasko TS, Britt JP, Edwards RH, Bonci A. 2010 Dopaminergic terminals in the nucleus accumbens but not the dorsal striatum corelease glutamate. J. Neurosci. 30, 8229–8233. (doi:10.1523/JNEUROSCI.1754-10.2010)
-
(2010)
J. Neurosci
, vol.30
, pp. 8229-8233
-
-
Stuber, G.D.1
Hnasko, T.S.2
Britt, J.P.3
Edwards, R.H.4
Bonci, A.5
-
106
-
-
84867291438
-
Dopaminergic neurons inhibit striatal output through noncanonical release of GABA
-
Tritsch NX, Ding JB, Sabatini BL. 2012 Dopaminergic neurons inhibit striatal output through noncanonical release of GABA. Nature 490, 262–266. (doi:10.1038/nature11466)
-
(2012)
Nature
, vol.490
, pp. 262-266
-
-
Tritsch, N.X.1
Ding, J.B.2
Sabatini, B.L.3
-
107
-
-
77649141314
-
Vesicular glutamate transport promotes dopamine storage and glutamate corelease in vivo
-
Hnasko TS, Chuhma N, Zhang H, Goh GY, Sulzer D, Palmiter RD, Rayport S, Edwards RH. 2010 Vesicular glutamate transport promotes dopamine storage and glutamate corelease in vivo. Neuron 65, 643–656. (doi:10.1016/j.neuron.2010.02.012)
-
(2010)
Neuron
, vol.65
, pp. 643-656
-
-
Hnasko, T.S.1
Chuhma, N.2
Zhang, H.3
Goh, G.Y.4
Sulzer, D.5
Palmiter, R.D.6
Rayport, S.7
Edwards, R.H.8
-
108
-
-
84897954206
-
Striatal cholinergic interneurons drive GABA release from dopamine terminals
-
Nelson AB, Hammack N, Yang CF, Shah NM, Seal RP, Kreitzer AC. 2014 Striatal cholinergic interneurons drive GABA release from dopamine terminals. Neuron 82, 63–70. (doi:10.1016/j.neuron.2014.01.023)
-
(2014)
Neuron
, vol.82
, pp. 63-70
-
-
Nelson, A.B.1
Hammack, N.2
Yang, C.F.3
Shah, N.M.4
Seal, R.P.5
Kreitzer, A.C.6
-
109
-
-
84923805442
-
Dopaminergic and glutamatergic microdomains in a subset of rodent mesoaccumbens axons
-
Zhang S, Qi J, Li X, Wang H-L, Britt JP, Hoffman AF, Bonci A, Lupica CR, Morales M. 2015 Dopaminergic and glutamatergic microdomains in a subset of rodent mesoaccumbens axons. Nat. Neurosci. 18, 386–392. (doi:10.1038/nn.3945)
-
(2015)
Nat. Neurosci
, vol.18
, pp. 386-392
-
-
Zhang, S.1
Qi, J.2
Li, X.3
Wang, H.-L.4
Britt, J.P.5
Hoffman, A.F.6
Bonci, A.7
Lupica, C.R.8
Morales, M.9
-
110
-
-
84907406635
-
Optical suppression of drugevoked phasic dopamine release
-
McCutcheon JE, Cone JJ, Sinon CG, Fortin SM, Kantak PA, Witten IB, Deisseroth K, Stuber GD, Roitman MF. 2014 Optical suppression of drugevoked phasic dopamine release. Front. Neural Circuits 8, 114. (doi:10.3389/fncir.2014.00114)
-
(2014)
Front. Neural Circuits
, vol.8
-
-
McCutcheon, J.E.1
Cone, J.J.2
Sinon, C.G.3
Fortin, S.M.4
Kantak, P.A.5
Witten, I.B.6
Deisseroth, K.7
Stuber, G.D.8
Roitman, M.F.9
-
111
-
-
66249125042
-
Phasic firing in dopaminergic neurons is sufficient for behavioral conditioning
-
Tsai HC, Zhang F, Adamantidis A, Stuber GD, Bonci A, de Lecea L, Deisseroth K. 2009 Phasic firing in dopaminergic neurons is sufficient for behavioral conditioning. Science 324, 1080–1084. (doi:10.1126/science.1168878)
-
(2009)
Science
, vol.324
, pp. 1080-1084
-
-
Tsai, H.C.1
Zhang, F.2
Adamantidis, A.3
Stuber, G.D.4
Bonci, A.5
De Lecea, L.6
Deisseroth, K.7
-
112
-
-
77955142849
-
Optogenetic control of striatal dopamine release in rats
-
Bass CE, Grinevich VP, Vance ZB, Sullivan RP, Bonin KD, Budygin EA. 2010 Optogenetic control of striatal dopamine release in rats. J. Neurochem. 114, 1344–1352. (doi:10.1111/j.1471-4159.2010.06850.x)
-
(2010)
J. Neurochem
, vol.114
, pp. 1344-1352
-
-
Bass, C.E.1
Grinevich, V.P.2
Vance, Z.B.3
Sullivan, R.P.4
Bonin, K.D.5
Budygin, E.A.6
-
113
-
-
84876285446
-
Distinct extended amygdala circuits for divergent motivational states
-
Jennings JH, Sparta DR, Stamatakis AM, Ung RL, Pleil KE, Kash TL, Stuber GD. 2013 Distinct extended amygdala circuits for divergent motivational states. Nature 496, 224–228. (doi:10.1038/nature12041)
-
(2013)
Nature
, vol.496
, pp. 224-228
-
-
Jennings, J.H.1
Sparta, D.R.2
Stamatakis, A.M.3
Ung, R.L.4
Pleil, K.E.5
Kash, T.L.6
Stuber, G.D.7
-
114
-
-
84868621500
-
Inputspecific control of reward and aversion in the ventral tegmental area
-
Lammel S, Lim BK, Ran C, Huang KW, Betley MJ, Tye KM, Deisseroth K, Malenka RC. 2012 Inputspecific control of reward and aversion in the ventral tegmental area. Nature 491, 212–217. (doi:10.1038/nature11527)
-
(2012)
Nature
, vol.491
, pp. 212-217
-
-
Lammel, S.1
Lim, B.K.2
Ran, C.3
Huang, K.W.4
Betley, M.J.5
Tye, K.M.6
Deisseroth, K.7
Malenka, R.C.8
-
115
-
-
84899618505
-
Positive reinforcement mediated by midbrain dopamine neurons requires D1 and D2 receptor activation in the nucleus accumbens
-
Steinberg EE, Boivin JR, Saunders BT, Witten IB, Deisseroth K, Janak PH. 2014 Positive reinforcement mediated by midbrain dopamine neurons requires D1 and D2 receptor activation in the nucleus accumbens. PLoS ONE 9, e94771. (doi:10.1371/journal.pone.0094771)
-
(2014)
Plos ONE
, vol.9
-
-
Steinberg, E.E.1
Boivin, J.R.2
Saunders, B.T.3
Witten, I.B.4
Deisseroth, K.5
Janak, P.H.6
-
116
-
-
84878753302
-
Operant self-stimulation of dopamine neurons in the substantia nigra
-
Rossi MA, Sukharnikova T, Hayrapetyan VY, Yang L, Yin HH. 2013 Operant self-stimulation of dopamine neurons in the substantia nigra. PLoS ONE 8, e65799. (doi:10.1371/journal.pone.0065799)
-
(2013)
Plos ONE
, vol.8
-
-
Rossi, M.A.1
Sukharnikova, T.2
Hayrapetyan, V.Y.3
Yang, L.4
Yin, H.H.5
-
117
-
-
84892379361
-
Similar roles of substantia nigra and ventral tegmental dopamine neurons in reward and aversion
-
Ilango A, Kesner AJ, Keller KL, Stuber GD, Bonci A, Ikemoto S. 2014 Similar roles of substantia nigra and ventral tegmental dopamine neurons in reward and aversion. J. Neurosci. 34, 817–822. (doi:10.1523/JNEUROSCI.1703-13.2014)
-
(2014)
J. Neurosci
, vol.34
, pp. 817-822
-
-
Ilango, A.1
Kesner, A.J.2
Keller, K.L.3
Stuber, G.D.4
Bonci, A.5
Ikemoto, S.6
-
118
-
-
84888060570
-
A unique population of ventral tegmental area neurons inhibits the lateral habenula to promote reward
-
Stamatakis AM et al. 2013 A unique population of ventral tegmental area neurons inhibits the lateral habenula to promote reward. Neuron 80, 1039–1053. (doi:10.1016/j.neuron.2013.08.023)
-
(2013)
Neuron
, vol.80
, pp. 1039-1053
-
-
Stamatakis, A.M.1
-
119
-
-
84885594437
-
The inhibitory circuit architecture of the lateral hypothalamus orchestrates feeding
-
Jennings JH, Rizzi G, Stamatakis AM, Ung RL, Stuber GD. 2013 The inhibitory circuit architecture of the lateral hypothalamus orchestrates feeding. Science 341, 1517–1521. (doi:10.1126/science.1241812)
-
(2013)
Science
, vol.341
, pp. 1517-1521
-
-
Jennings, J.H.1
Rizzi, G.2
Stamatakis, A.M.3
Ung, R.L.4
Stuber, G.D.5
-
120
-
-
84928814366
-
A circuit mechanism for differentiating positive and negative associations
-
Namburi P et al. 2015 A circuit mechanism for differentiating positive and negative associations. Nature 520, 675–678. (doi:10.1038/nature14366)
-
(2015)
Nature
, vol.520
, pp. 675-678
-
-
Namburi, P.1
-
121
-
-
79960635098
-
Excitatory transmission from the amygdala to nucleus accumbens facilitates reward seeking
-
Stuber GD et al. 2011 Excitatory transmission from the amygdala to nucleus accumbens facilitates reward seeking. Nature 475, 377–380. (doi:10.1038/nature10194)
-
(2011)
Nature
, vol.475
, pp. 377-380
-
-
Stuber, G.D.1
-
122
-
-
84858691626
-
GABA neurons of the VTA drive conditioned place aversion
-
Tan KR, Yvon C, Turiault M, Mirzabekov JJ, Doehner J, Labouèbe G, Deisseroth K, Tye KM, Lüscher C. 2012 GABA neurons of the VTA drive conditioned place aversion. Neuron 73, 1173–1183. (doi:10.1016/j.neuron.2012.02.015)
-
(2012)
Neuron
, vol.73
, pp. 1173-1183
-
-
Tan, K.R.1
Yvon, C.2
Turiault, M.3
Mirzabekov, J.J.4
Doehner, J.5
Labouèbe, G.6
Deisseroth, K.7
Tye, K.M.8
Lüscher, C.9
-
123
-
-
84907978062
-
Role of glutamatergic projections from ventral tegmental area to lateral habenula in aversive conditioning
-
Root DH, Mejias-Aponte CA, Qi J, Morales M. 2014 Role of glutamatergic projections from ventral tegmental area to lateral habenula in aversive conditioning. J. Neurosci. 34, 13 906–13 910. (doi:10.1523/JNEUROSCI.2029-14.2014)
-
(2014)
J. Neurosci
, vol.34
-
-
Root, D.H.1
Mejias-Aponte, C.A.2
Qi, J.3
Morales, M.4
-
124
-
-
84906544752
-
A class of GABAergic neurons in the prefrontal cortex sends long-range projections to the nucleus accumbens and elicits acute avoidance behavior
-
Lee AT, Vogt D, Rubenstein JL, Sohal VS. 2014 A class of GABAergic neurons in the prefrontal cortex sends long-range projections to the nucleus accumbens and elicits acute avoidance behavior. J. Neurosci. 34, 11 519–11 525. (doi:10.1523/jneurosci.1157-14.2014)
-
(2014)
J. Neurosci
, vol.34
-
-
Lee, A.T.1
Vogt, D.2
Rubenstein, J.L.3
Sohal, V.S.4
-
125
-
-
84864456653
-
Activation of lateral habenula inputs to the ventral midbrain promotes behavioral avoidance
-
Stamatakis AM, Stuber GD. 2012 Activation of lateral habenula inputs to the ventral midbrain promotes behavioral avoidance. Nat. Neurosci. 15, 1105–1107. (doi:10.1038/nn.3145)
-
(2012)
Nat. Neurosci
, vol.15
, pp. 1105-1107
-
-
Stamatakis, A.M.1
Stuber, G.D.2
-
126
-
-
84871795895
-
Optogenetic inhibition of cocaine seeking in rats
-
Stefanik MT, Moussawi K, Kupchik YM, Smith KC, Miller RL, Huff ML, Deisseroth K, Kalivas PW, LaLumiere RT. 2013 Optogenetic inhibition of cocaine seeking in rats. Addict. Biol. 18, 50–53. (doi:10.1111/j.1369-1600.2012.00479.x)
-
(2013)
Addict. Biol
, vol.18
, pp. 50-53
-
-
Stefanik, M.T.1
Moussawi, K.2
Kupchik, Y.M.3
Smith, K.C.4
Miller, R.L.5
Huff, M.L.6
Deisseroth, K.7
Kalivas, P.W.8
Lalumiere, R.T.9
-
127
-
-
84922019443
-
Bidirectional modulation of incubation of cocaine craving by silent synapsebased remodeling of prefrontal cortex to accumbens projections
-
Ma Y-Y et al. 2014 Bidirectional modulation of incubation of cocaine craving by silent synapsebased remodeling of prefrontal cortex to accumbens projections. Neuron 83, 1453–1467. (doi:10.1016/j.neuron.2014.08.023)
-
(2014)
Neuron
, vol.83
, pp. 1453-1467
-
-
Ma, Y.-Y.1
-
128
-
-
84882637868
-
Optogenetic evidence that pallidal projections, not nigral projections, from the nucleus accumbens core are necessary for reinstating cocaine seeking
-
Stefanik MT, Kupchik YM, Brown RM, Kalivas PW. 2013 Optogenetic evidence that pallidal projections, not nigral projections, from the nucleus accumbens core are necessary for reinstating cocaine seeking. J. Neurosci. 33, 13 654–13 662. (doi:10.1523/JNEUROSCI.1570-13.2013)
-
(2013)
J. Neurosci
, vol.33
-
-
Stefanik, M.T.1
Kupchik, Y.M.2
Brown, R.M.3
Kalivas, P.W.4
-
129
-
-
84880888671
-
Cortical activation of accumbens hyperpolarization-active NMDARs mediates aversionresistant alcohol intake
-
Seif T et al. 2013 Cortical activation of accumbens hyperpolarization-active NMDARs mediates aversionresistant alcohol intake. Nat. Neurosci. 16, 1094–1100. (doi:10.1038/nn.3445)
-
(2013)
Nat. Neurosci
, vol.16
, pp. 1094-1100
-
-
Seif, T.1
-
130
-
-
77957938882
-
Cell type-specific loss of BDNF signaling mimics optogenetic control of cocaine reward
-
Lobo MK et al. 2010 Cell type-specific loss of BDNF signaling mimics optogenetic control of cocaine reward. Science 330, 385–390. (doi:10.1126/science.1188472)
-
(2010)
Science
, vol.330
, pp. 385-390
-
-
Lobo, M.K.1
-
131
-
-
0023513121
-
The role of dopamine in intracranial self-stimulation of the ventral tegmental area
-
Fibiger H, LePiane F, Jakubovic A, Phillips A. 1987 The role of dopamine in intracranial self-stimulation of the ventral tegmental area. J. Neurosci. 7, 3888–3896.
-
(1987)
J. Neurosci
, vol.7
, pp. 3888-3896
-
-
Fibiger, H.1
Lepiane, F.2
Jakubovic, A.3
Phillips, A.4
-
132
-
-
0016138088
-
Catecholamine systems as the neural substrate for intracranial selfstimulation: A hypothesis
-
German DC, Bowden DM. 1974 Catecholamine systems as the neural substrate for intracranial selfstimulation: a hypothesis. Brain Res. 73, 381–419. (doi:10.1016/0006-8993(74)90666-0)
-
(1974)
Brain Res
, vol.73
, pp. 381-419
-
-
German, D.C.1
Bowden, D.M.2
-
133
-
-
0002981963
-
Predictability, surprise, attention, and conditioning
-
(eds BA Campbell, RM Church, New York, NY: Appleton-Century- Crofts and Fleschner Publishing Company
-
Kamin LJ. 1969 Predictability, surprise, attention, and conditioning. In Punishment and aversive behavior (eds BA Campbell, RM Church), pp. 279–296. New York, NY: Appleton-Century- Crofts and Fleschner Publishing Company.
-
(1969)
Punishment and Aversive Behavior
, pp. 279-296
-
-
Kamin, L.J.1
-
134
-
-
78650971061
-
A selective role for dopamine in stimulus–reward learning
-
Flagel SB et al. 2011 A selective role for dopamine in stimulus–reward learning. Nature 469, 53–57. (doi:10.1038/nature09588)
-
(2011)
Nature
, vol.469
, pp. 53-57
-
-
Flagel, S.B.1
-
135
-
-
84928774452
-
Mesolimbic dopamine dynamically tracks, and is causally linked to, discrete aspects of value-based decision making
-
Saddoris MP, Sugam JA, Stuber GD, Witten IB, Deisseroth K, Carelli RM. 2014 Mesolimbic dopamine dynamically tracks, and is causally linked to, discrete aspects of value-based decision making. Biol. Psychiatry 77, 903–911. (doi:10.1016/j.biopsych.2014.10.024)
-
(2014)
Biol. Psychiatry
, vol.77
, pp. 903-911
-
-
Saddoris, M.P.1
Sugam, J.A.2
Stuber, G.D.3
Witten, I.B.4
Deisseroth, K.5
Carelli, R.M.6
-
136
-
-
84863821582
-
Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons
-
Threlfell S, Lalic T, Platt NJ, Jennings KA, Deisseroth K, Cragg SJ. 2012 Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons. Neuron 75, 58–64. (doi:10.1016/j.neuron.2012.04.038)
-
(2012)
Neuron
, vol.75
, pp. 58-64
-
-
Threlfell, S.1
Lalic, T.2
Platt, N.J.3
Jennings, K.A.4
Deisseroth, K.5
Cragg, S.J.6
-
137
-
-
84871427418
-
Ventral tegmental area GABA projections pause accumbal cholinergic interneurons to enhance associative learning
-
Brown MTC, Tan KR, O’Connor EC, Nikonenko I, Muller D, Luscher C. 2012 Ventral tegmental area GABA projections pause accumbal cholinergic interneurons to enhance associative learning. Nature 492, 452–456. (doi:10.1038/nature11657)
-
(2012)
Nature
, vol.492
, pp. 452-456
-
-
Brown, M.1
Tan, K.R.2
O’connor, E.C.3
Nikonenko, I.4
Muller, D.5
Luscher, C.6
-
138
-
-
38749123491
-
Cocaine seeking habits depend upon doparnine-dependent serial connectivity linking the ventral with the dorsal striatum
-
Belin D, Everitt BJ. 2008 Cocaine seeking habits depend upon doparnine-dependent serial connectivity linking the ventral with the dorsal striatum. Neuron 57, 432–441. (doi:10.1016/j.neuron.2007.12.019)
-
(2008)
Neuron
, vol.57
, pp. 432-441
-
-
Belin, D.1
Everitt, B.J.2
-
139
-
-
84906919420
-
Habitual responding for alcohol depends upon both AMPA and D2 receptor signaling in the dorsolateral striatum
-
Corbit LH, Nie H, Janak PH. 2014 Habitual responding for alcohol depends upon both AMPA and D2 receptor signaling in the dorsolateral striatum. Front. Behav. Neurosci. 8, 301. (doi:10.3389/fnbeh.2014.00301)
-
(2014)
Front. Behav. Neurosci
, vol.8
-
-
Corbit, L.H.1
Nie, H.2
Janak, P.H.3
-
140
-
-
84888331463
-
Optogenetic stimulation of VTA dopamine neurons reveals that tonic but not phasic patterns of dopamine transmission reduce ethanol selfadministration
-
Bass CE, Grinevich VP, Gioia D, Day-Brown JD, Bonin KD, Stuber GD, Weiner JL, Budygin EA. 2013 Optogenetic stimulation of VTA dopamine neurons reveals that tonic but not phasic patterns of dopamine transmission reduce ethanol selfadministration. Front. Behav. Neurosci. 7, 173. (doi:10.3389/fnbeh.2013.00173)
-
(2013)
Front. Behav. Neurosci
, vol.7
-
-
Bass, C.E.1
Grinevich, V.P.2
Gioia, D.3
Day-Brown, J.D.4
Bonin, K.D.5
Stuber, G.D.6
Weiner, J.L.7
Budygin, E.A.8
-
141
-
-
84922378991
-
A subpopulation of neurochemically-identified ventral tegmental area dopamine neurons is excited by intravenous cocaine
-
Mejias-Aponte CA, Ye C, Bonci A, Kiyatkin EA, Morales M. 2015 A subpopulation of neurochemically-identified ventral tegmental area dopamine neurons is excited by intravenous cocaine. J. Neurosci. 35, 1965–1978. (doi:10.1523/JNEUROSCI.3422-13.2015)
-
(2015)
J. Neurosci
, vol.35
, pp. 1965-1978
-
-
Mejias-Aponte, C.A.1
Ye, C.2
Bonci, A.3
Kiyatkin, E.A.4
Morales, M.5
-
142
-
-
84938542898
-
A concurrent excitation and inhibition of dopaminergic subpopulations in response to nicotine. Sci
-
Eddine R et al. 2015 A concurrent excitation and inhibition of dopaminergic subpopulations in response to nicotine. Sci. Rep. 5, 8184. (doi:10.1038/srep08184)
-
(2015)
Rep
, vol.5
, pp. 8184
-
-
Eddine, R.1
-
143
-
-
17644374100
-
The neural basis of addiction: A pathology of motivation and choice
-
Kalivas P, Volkow N. 2005 The neural basis of addiction: a pathology of motivation and choice. Am. J. Psychiatry 162, 1403–1413. (doi:10.1176/appi.ajp.162.8.1403)
-
(2005)
Am. J. Psychiatry
, vol.162
, pp. 1403-1413
-
-
Kalivas, P.1
Volkow, N.2
-
144
-
-
84884280478
-
The reinstatement model of drug relapse: Recent neurobiological findings, emerging research topics, and translational research
-
Bossert JM, Marchant NJ, Calu DJ, Shaham Y. 2013 The reinstatement model of drug relapse: recent neurobiological findings, emerging research topics, and translational research. Psychopharmacology 229, 453–476. (doi:10.1007/s00213-013-3120-y)
-
(2013)
Psychopharmacology
, vol.229
, pp. 453-476
-
-
Bossert, J.M.1
Marchant, N.J.2
Calu, D.J.3
Shaham, Y.4
-
145
-
-
80051783600
-
The potent effect of environmental context on relapse to alcohol-seeking after extinction
-
Janak PH, Chaudhri N. 2010 The potent effect of environmental context on relapse to alcohol-seeking after extinction. Open Addict. J. 3, 76–87. (doi:10.2174/1874941001003020076)
-
(2010)
Open Addict. J
, vol.3
, pp. 76-87
-
-
Janak, P.H.1
Chaudhri, N.2
-
146
-
-
77953752202
-
The psychological and neurochemical mechanisms of drug memory reconsolidation: Implications for the treatment of addiction
-
Milton AL, Everitt BJ. 2010 The psychological and neurochemical mechanisms of drug memory reconsolidation: implications for the treatment of addiction. Eur. J. Neurosci. 31, 2308–2319. (doi:10.1111/j.1460-9568.2010.07249.x)
-
(2010)
Eur. J. Neurosci
, vol.31
, pp. 2308-2319
-
-
Milton, A.L.1
Everitt, B.J.2
-
147
-
-
1242341999
-
Limbic and motor circuitry underlying footshock-induced reinstatement of cocaine-seeking behavior
-
McFarland K, Davidge SB, Lapish CC, Kalivas PW. 2004 Limbic and motor circuitry underlying footshock-induced reinstatement of cocaine-seeking behavior. J. Neurosci. 24, 1551–1560. (doi:10.1523/jneurosci.4177-03.2004)
-
(2004)
J. Neurosci
, vol.24
, pp. 1551-1560
-
-
McFarland, K.1
Davidge, S.B.2
Lapish, C.C.3
Kalivas, P.W.4
-
148
-
-
0035503254
-
The circuitry mediating cocaine-induced reinstatement of drugseeking behavior
-
McFarland K, Kalivas PW. 2001 The circuitry mediating cocaine-induced reinstatement of drugseeking behavior. J. Neurosci. 21, 8655–8663.
-
(2001)
J. Neurosci
, vol.21
, pp. 8655-8663
-
-
McFarland, K.1
Kalivas, P.W.2
-
149
-
-
12344256768
-
The role of the dorsomedial prefrontal cortex, basolateral amygdala, and dorsal hippocampus in contextual reinstatement of cocaine seeking in rats
-
Fuchs RA, Evans KA, Ledford CC, Parker MP, Case JM, Mehta RH, See RE. 2005 The role of the dorsomedial prefrontal cortex, basolateral amygdala, and dorsal hippocampus in contextual reinstatement of cocaine seeking in rats. Neuropsychopharmacology 30, 296–309. (doi:10.1038/sj.npp.1300579)
-
(2005)
Neuropsychopharmacology
, vol.30
, pp. 296-309
-
-
Fuchs, R.A.1
Evans, K.A.2
Ledford, C.C.3
Parker, M.P.4
Case, J.M.5
Mehta, R.H.6
See, R.E.7
-
150
-
-
84883024809
-
Cueevoked cocaine ‘craving’: Role of dopamine in the accumbens core
-
Saunders BT, Yager LM, Robinson TE. 2013 Cueevoked cocaine ‘craving’: role of dopamine in the accumbens core. J. Neurosci. 33, 13 989–14 000. (doi:10.1523/JNEUROSCI.0450-13.2013)
-
(2013)
J. Neurosci
, vol.33
-
-
Saunders, B.T.1
Yager, L.M.2
Robinson, T.E.3
-
151
-
-
84959508198
-
Differential roles of medial prefrontal subregions in the regulation of drug seeking
-
Moorman DE, James MH, McGlinchey EM, Aston- Jones G. 2015 Differential roles of medial prefrontal subregions in the regulation of drug seeking. Brain Res. (doi:10.1016/j.brainres.2014.12.024)
-
(2015)
Brain Res
-
-
Moorman, D.E.1
James, M.H.2
McGlinchey, E.M.3
Aston-Jones, G.4
-
152
-
-
84923033589
-
Dorsal medial prefrontal cortex (MPFC) circuitry in rodent models of cocaine use: Implications for drug addiction therapies
-
Jasinska AJ, Chen BT, Bonci A, Stein EA. 2014 Dorsal medial prefrontal cortex (MPFC) circuitry in rodent models of cocaine use: implications for drug addiction therapies. Addict. Biol. 20, 215–226. (doi:10.1111/adb.12132)
-
(2014)
Addict. Biol
, vol.20
, pp. 215-226
-
-
Jasinska, A.J.1
Chen, B.T.2
Bonci, A.3
Stein, E.A.4
-
153
-
-
84871762946
-
Optogenetic inhibition of dorsal medial prefrontal cortex attenuates stress-induced reinstatement of palatable food seeking in female rats
-
Calu DJ et al. 2013 Optogenetic inhibition of dorsal medial prefrontal cortex attenuates stress-induced reinstatement of palatable food seeking in female rats. J. Neurosci. 33, 214–226. (doi:10.1523/JNEUROSCI.2016-12.2013)
-
(2013)
J. Neurosci
, vol.33
, pp. 214-226
-
-
Calu, D.J.1
-
154
-
-
44949263130
-
Infralimbic prefrontal cortex is responsible for inhibiting cocaine seeking in extinguished rats
-
Peters J, LaLumiere RT, Kalivas PW. 2008 Infralimbic prefrontal cortex is responsible for inhibiting cocaine seeking in extinguished rats. J. Neurosci. 28, 6046–6053. (doi:10.1523/jneurosci.1045-08.2008)
-
(2008)
J. Neurosci
, vol.28
, pp. 6046-6053
-
-
Peters, J.1
Lalumiere, R.T.2
Kalivas, P.W.3
-
155
-
-
84855686646
-
Prefrontal cortex mediates extinction of responding by two distinct neural mechanisms in accumbens shell
-
Ghazizadeh A, Ambroggi F, Odean N, Fields HL. 2012 Prefrontal cortex mediates extinction of responding by two distinct neural mechanisms in accumbens shell. J. Neurosci. 32, 726–737. (doi:10.1523/JNEUROSCI.3891-11.2012)
-
(2012)
J. Neurosci
, vol.32
, pp. 726-737
-
-
Ghazizadeh, A.1
Ambroggi, F.2
Odean, N.3
Fields, H.L.4
-
156
-
-
84872875344
-
Prefrontal cortex modulates desire and dread generated by nucleus accumbens glutamate disruption
-
Richard JM, Berridge KC. 2013 Prefrontal cortex modulates desire and dread generated by nucleus accumbens glutamate disruption. Biol. Psychiatry 73, 360–370. (doi:10.1016/j.biopsych.2012.08.009)
-
(2013)
Biol. Psychiatry
, vol.73
, pp. 360-370
-
-
Richard, J.M.1
Berridge, K.C.2
-
157
-
-
84901256841
-
Contrasting forms of cocaine-evoked plasticity control components of relapse
-
Pascoli V, Terrier J, Espallergues J, Valjent E, O’Connor EC, Lüscher C. 2014 Contrasting forms of cocaine-evoked plasticity control components of relapse. Nature 509, 459–464. (doi:10.1038/nature13257)
-
(2014)
Nature
, vol.509
, pp. 459-464
-
-
Pascoli, V.1
Terrier, J.2
Espallergues, J.3
Valjent, E.4
O’connor, E.C.5
Lüscher, C.6
-
158
-
-
0025572196
-
D1 and D2 dopamine receptor-regulated gene expression of striatonigral and striatopallidal neurons
-
Gerfen CR, Engber TM, Mahan LC, Susel Z, Chase TN, Monsma F, Sibley DR. 1990 D1 and D2 dopamine receptor-regulated gene expression of striatonigral and striatopallidal neurons. Science 250, 1429–1432. (doi:10.1126/science.2147780)
-
(1990)
Science
, vol.250
, pp. 1429-1432
-
-
Gerfen, C.R.1
Engber, T.M.2
Mahan, L.C.3
Susel, Z.4
Chase, T.N.5
Monsma, F.6
Sibley, D.R.7
-
159
-
-
0023695433
-
Distribution of striatonigral and striatopallidal peptidergic neurons in both patch and matrix compartments: An in situ hybridization histochemistry and fluorescent retrograde tracing study
-
Gerfen CR, Young WS. 1988 Distribution of striatonigral and striatopallidal peptidergic neurons in both patch and matrix compartments: an in situ hybridization histochemistry and fluorescent retrograde tracing study. Brain Res. 460, 161–167. (doi:10.1016/0006-8993(88)91217-6)
-
(1988)
Brain Res
, vol.460
, pp. 161-167
-
-
Gerfen, C.R.1
Young, W.S.2
-
160
-
-
0030580558
-
Phenotypic characterization of neurotensin messenger RNA-expressing cells in the neuroleptictreated rat striatum: A detailed cellular coexpression study
-
Augood SJ, Westmore K, Emson PC. 1996 Phenotypic characterization of neurotensin messenger RNA-expressing cells in the neuroleptictreated rat striatum: a detailed cellular coexpression study. Neuroscience 76, 763–774. (doi:10.1016/S0306-4522(96)00449-6)
-
(1996)
Neuroscience
, vol.76
, pp. 763-774
-
-
Augood, S.J.1
Westmore, K.2
Emson, P.C.3
-
161
-
-
62849091782
-
Striatal medium-sized spiny neurons: Identification by nuclear staining and study of neuronal subpopulations in BAC transgenic mice
-
Matamales M, Bertran-Gonzalez J, Salomon L, Degos B, Deniau J-M, Valjent E, Hervé D, Girault J-A. 2009 Striatal medium-sized spiny neurons: identification by nuclear staining and study of neuronal subpopulations in BAC transgenic mice. PLoS ONE 4, e4770. (doi:10.1371/journal.pone.0004770)
-
(2009)
Plos ONE
, vol.4
-
-
Matamales, M.1
Bertran-Gonzalez, J.2
Salomon, L.3
Degos, B.4
Deniau, J.-M.5
Valjent, E.6
Hervé, D.7
Girault, J.-A.8
-
162
-
-
0021881655
-
Efferent connections of the ventral pallidum: Evidence of a dual striato pallidofugal pathway
-
Haber SN, Groenewegen HJ, Grove EA, Nauta WJH. 1985 Efferent connections of the ventral pallidum: evidence of a dual striato pallidofugal pathway. J. Comp. Neurol. 235, 322–335. (doi:10.1002/cne.902350304)
-
(1985)
J. Comp. Neurol
, vol.235
, pp. 322-335
-
-
Haber, S.N.1
Groenewegen, H.J.2
Grove, E.A.3
Nauta, W.4
-
163
-
-
77950865020
-
The ventral basal ganglia, a selection mechanism at the crossroads of space, strategy, and reward
-
Humphries MD, Prescott TJ. 2010 The ventral basal ganglia, a selection mechanism at the crossroads of space, strategy, and reward. Prog. Neurobiol. 90, 385–417. (doi:10.1016/j.pneurobio.2009.11.003)
-
(2010)
Prog. Neurobiol
, vol.90
, pp. 385-417
-
-
Humphries, M.D.1
Prescott, T.J.2
-
164
-
-
0026019683
-
Specificity in the projection patterns of accumbal core and shell in the rat
-
Heimer L, Zahm DS, Churchill L, Kalivas PW, Wohltmann C. 1991 Specificity in the projection patterns of accumbal core and shell in the rat. Neuroscience 41, 89–125. (doi:10.1016/0306-4522(91)90202-Y)
-
(1991)
Neuroscience
, vol.41
, pp. 89-125
-
-
Heimer, L.1
Zahm, D.S.2
Churchill, L.3
Kalivas, P.W.4
Wohltmann, C.5
-
165
-
-
84876916994
-
Strengthening the accumbal indirect pathway promotes resilience to compulsive cocaine use
-
Bock R et al. 2013 Strengthening the accumbal indirect pathway promotes resilience to compulsive cocaine use. Nat. Neurosci. 16, 632–638. (doi:10.1038/nn.3369)
-
(2013)
Nat. Neurosci
, vol.16
, pp. 632-638
-
-
Bock, R.1
-
166
-
-
84908011634
-
Optogenetics reveals a role for accumbal medium spiny neurons expressing dopamine D2 receptors in cocaine-induced behavioral sensitization
-
Song SS et al. 2014 Optogenetics reveals a role for accumbal medium spiny neurons expressing dopamine D2 receptors in cocaine-induced behavioral sensitization. Front. Behav. Neurosci. 8, 336. (doi:10.3389/fnbeh.2014.00336)
-
(2014)
Front. Behav. Neurosci
, vol.8
-
-
Song, S.S.1
-
167
-
-
84887068500
-
Rats are the smart choice: Rationale for a renewed focus on rats in behavioral genetics
-
Parker CC, Chen H, Flagel SB, Geurts AM, Richards JB, Robinson TE, Solberg Woods LC, Palmer AA. 2014 Rats are the smart choice: rationale for a renewed focus on rats in behavioral genetics. Neuropharmacology 76, 250–258. (doi:10.1016/j.neuropharm.2013.05.047)
-
(2014)
Neuropharmacology
, vol.76
, pp. 250-258
-
-
Parker, C.C.1
Chen, H.2
Flagel, S.B.3
Geurts, A.M.4
Richards, J.B.5
Robinson, T.E.6
Solberg Woods, L.C.7
Palmer, A.A.8
-
168
-
-
84885584498
-
Cocaine disinhibits dopamine neurons by potentiation of GABA transmission in the ventral tegmental area
-
Bocklisch C, Pascoli V, Wong JC, House DR, Yvon C, De Roo M, Tan KR, Lüscher C. 2013 Cocaine disinhibits dopamine neurons by potentiation of GABA transmission in the ventral tegmental area. Science 341, 1521–1525. (doi:10.1126/science.1237059)
-
(2013)
Science
, vol.341
, pp. 1521-1525
-
-
Bocklisch, C.1
Pascoli, V.2
Wong, J.C.3
House, D.R.4
Yvon, C.5
De Roo, M.6
Tan, K.R.7
Lüscher, C.8
-
169
-
-
84930363377
-
Role of the striatopallidal pathway in renewal and reacquisition of alcohol seeking
-
Khoo AT, Gibson GD, Prasad AA, McNally GP. 2015 Role of the striatopallidal pathway in renewal and reacquisition of alcohol seeking. Behav. Neurosci. 129, 2–7. (doi:10.1037/bne0000036)
-
(2015)
Behav. Neurosci
, vol.129
, pp. 2-7
-
-
Khoo, A.T.1
Gibson, G.D.2
Prasad, A.A.3
McNally, G.P.4
-
170
-
-
0027418083
-
Codistribution of GABA- with acetylcholine-synthesizing neurons in the basal forebrain of the rat
-
Gritti I, Mainville L, Jones BE. 1993 Codistribution of GABA- with acetylcholine-synthesizing neurons in the basal forebrain of the rat. J. Comp. Neurol. 329, 438–457. (doi:10.1002/cne.903290403)
-
(1993)
J. Comp. Neurol
, vol.329
, pp. 438-457
-
-
Gritti, I.1
Mainville, L.2
Jones, B.E.3
-
171
-
-
0034083362
-
Electrophysiological properties of cholinergic and noncholinergic neurons in the ventral pallidal region of the nucleus basalis in rat brain slices
-
Bengtson CP, Osborne PB. 2000 Electrophysiological properties of cholinergic and noncholinergic neurons in the ventral pallidal region of the nucleus basalis in rat brain slices. J. Neurophysiol. 83, 2649–2660.
-
(2000)
J. Neurophysiol
, vol.83
, pp. 2649-2660
-
-
Bengtson, C.P.1
Osborne, P.B.2
-
172
-
-
0032482165
-
Morphological and electrophysiological characteristics of noncholinergic basal forebrain neurons
-
Pang K, Tepper JM, Zaborszky L. 1998 Morphological and electrophysiological characteristics of noncholinergic basal forebrain neurons. J. Comp. Neurol. 394, 186–204. (doi:10.1002/(SICI)1096-9861(19980504)394:2,186::AIDCNE4.3.0.CO;2-Z)
-
(1998)
J. Comp. Neurol
, vol.394
, pp. 186-204
-
-
Pang, K.1
Tepper, J.M.2
Zaborszky, L.3
-
173
-
-
84862766564
-
Are you or aren’t you? Challenges associated with physiologically identifying dopamine neurons
-
Ungless MA, Grace AA. 2012 Are you or aren’t you? Challenges associated with physiologically identifying dopamine neurons. Trends Neurosci. 35, 422–430. (doi:10.1016/j.tins.2012.02.003)
-
(2012)
Trends Neurosci
, vol.35
, pp. 422-430
-
-
Ungless, M.A.1
Grace, A.A.2
-
174
-
-
38349155757
-
Novel neurons in ventral tegmental area fire selectively during the active phase of the diurnal cycle
-
Luo AH, Georges FE, Aston-Jones GS. 2008 Novel neurons in ventral tegmental area fire selectively during the active phase of the diurnal cycle. Eur. J. Neurosci. 27, 408–422. (doi:10.1111/j.1460-9568.2007.05985.x)
-
(2008)
Eur. J. Neurosci
, vol.27
, pp. 408-422
-
-
Luo, A.H.1
Georges, F.E.2
Aston-Jones, G.S.3
-
175
-
-
84883196504
-
Axonal branching patterns of ventral pallidal neurons in the rat
-
Tripathi A, Prensa L, Mengual E. 2013 Axonal branching patterns of ventral pallidal neurons in the rat. Brain Struct. Funct. 218, 1133–1157. (doi:10.1007/s00429-012-0451-0)
-
(2013)
Brain Struct. Funct
, vol.218
, pp. 1133-1157
-
-
Tripathi, A.1
Prensa, L.2
Mengual, E.3
-
176
-
-
0001015875
-
Identical ‘feeding’ and ‘rewarding’ systems in the lateral hypothalamus of rats
-
Margules D, Olds J. 1962 Identical ‘feeding’ and ‘rewarding’ systems in the lateral hypothalamus of rats. Science 135, 374–375. (doi:10.1126/science.135.3501.374)
-
(1962)
Science
, vol.135
, pp. 374-375
-
-
Margules, D.1
Olds, J.2
-
177
-
-
0001079511
-
Hypothalamic control of feeding and self-stimulation
-
Hoebel BG, Teitelbaum P. 1962 Hypothalamic control of feeding and self-stimulation. Science 135, 375–377. (doi:10.1126/science.135.3501.375)
-
(1962)
Science
, vol.135
, pp. 375-377
-
-
Hoebel, B.G.1
Teitelbaum, P.2
-
178
-
-
84857329414
-
Neurotransmitter corelease: Mechanism and physiological role
-
Hnasko TS, Edwards RH. 2012 Neurotransmitter corelease: mechanism and physiological role. Annu. Rev. Physiol. 74, 225. (doi:10.1146/annurev-physiol-020911-153315)
-
(2012)
Annu. Rev. Physiol
, vol.74
-
-
Hnasko, T.S.1
Edwards, R.H.2
-
179
-
-
84900027698
-
Dualtransmitter neurons: Functional implications of corelease and co-transmission
-
Vaaga CE, Borisovska M, Westbrook GL. 2014 Dualtransmitter neurons: functional implications of corelease and co-transmission. Curr. Opin. Neurobiol. 29, 25–32. (doi:10.1016/j.conb.2014.04.010)
-
(2014)
Curr. Opin. Neurobiol
, vol.29
, pp. 25-32
-
-
Vaaga, C.E.1
Borisovska, M.2
Westbrook, G.L.3
-
180
-
-
0008184304
-
A peptide as a possible transmitter in sympathetic ganglia of the frog
-
Jan YN, Jan LY, Kuffler SW. 1979 A peptide as a possible transmitter in sympathetic ganglia of the frog. Proc. Natl Acad. Sci. USA 76, 1501–1505. (doi:10.1073/pnas.76.3.1501)
-
(1979)
Proc. Natl Acad. Sci. USA
, vol.76
, pp. 1501-1505
-
-
Jan, Y.N.1
Jan, L.Y.2
Kuffler, S.W.3
-
181
-
-
0024518313
-
Co-release of acetylcholine and gamma-aminobutyric acid by a retinal neuron
-
O’Malley DM, Masland RH. 1989 Co-release of acetylcholine and gamma-aminobutyric acid by a retinal neuron. Proc. Natl Acad. Sci. USA 86, 3414–3418. (doi:10.1073/pnas.86.9.3414)
-
(1989)
Proc. Natl Acad. Sci. USA
, vol.86
, pp. 3414-3418
-
-
O’malley, D.M.1
Masland, R.H.2
-
182
-
-
0032540919
-
Corelease of two fast neurotransmitters at a central synapse
-
Jonas P, Bischofberger J, Sandkühler J. 1998 Corelease of two fast neurotransmitters at a central synapse. Science 281, 419–424. (doi:10.1126/science.281.5375.419)
-
(1998)
Science
, vol.281
, pp. 419-424
-
-
Jonas, P.1
Bischofberger, J.2
Sandkühler, J.3
-
183
-
-
0033806037
-
Dale’s principle and glutamate corelease from ventral midbrain dopamine neurons
-
Sulzer D, Rayport S. 2000 Dale’s principle and glutamate corelease from ventral midbrain dopamine neurons. Amino Acids 19, 45–52. (doi:10.1007/s007260070032)
-
(2000)
Amino Acids
, vol.19
, pp. 45-52
-
-
Sulzer, D.1
Rayport, S.2
-
184
-
-
0017162094
-
Do some nerve cells release more than one transmitter?
-
Burnstock G. 1976 Do some nerve cells release more than one transmitter? Neuroscience 1, 239–248. (doi:10.1016/0306-4522(76)90054-3)
-
(1976)
Neuroscience
, vol.1
, pp. 239-248
-
-
Burnstock, G.1
-
185
-
-
0032526981
-
Dopamine neurons make glutamatergic synapses in vitro
-
Sulzer D, Joyce MP, Lin L, Geldwert D, Haber SN, Hattori T, Rayport S. 1998 Dopamine neurons make glutamatergic synapses in vitro. J. Neurosci. 18, 4588–4602.
-
(1998)
J. Neurosci
, vol.18
, pp. 4588-4602
-
-
Sulzer, D.1
Joyce, M.P.2
Lin, L.3
Geldwert, D.4
Haber, S.N.5
Hattori, T.6
Rayport, S.7
-
186
-
-
84899625557
-
Midbrain dopamine neurons sustain inhibitory transmission using plasma membrane uptake of GABA, not synthesis
-
Tritsch NX, Oh W-J, Gu C, Sabatini BL. 2014 Midbrain dopamine neurons sustain inhibitory transmission using plasma membrane uptake of GABA, not synthesis. Elife 3, e01936. (doi:10.7554/eLife.01936)
-
(2014)
Elife
, vol.3
-
-
Tritsch, N.X.1
Oh, W.-J.2
Gu, C.3
Sabatini, B.L.4
-
187
-
-
84908534503
-
Single rodent mesohabenular axons release glutamate and GABA
-
Root DH, Mejias-Aponte CA, Zhang S, Wang H-L, Hoffman AF, Lupica CR, Morales M. 2014 Single rodent mesohabenular axons release glutamate and GABA. Nat. Neurosci. 17, 1543–1551. (doi:10.1038/nn.3823)
-
(2014)
Nat. Neurosci
, vol.17
, pp. 1543-1551
-
-
Root, D.H.1
Mejias-Aponte, C.A.2
Zhang, S.3
Wang, H.-L.4
Hoffman, A.F.5
Lupica, C.R.6
Morales, M.7
-
188
-
-
84921369625
-
Considerations when using cre-driver rodent lines for studying ventral tegmental area circuitry
-
Stuber GD, Stamatakis AM, Kantak PA. 2015 Considerations when using cre-driver rodent lines for studying ventral tegmental area circuitry. Neuron 85, 439–445. (doi:10.1016/j.neuron.2014.12.034)
-
(2015)
Neuron
, vol.85
, pp. 439-445
-
-
Stuber, G.D.1
Stamatakis, A.M.2
Kantak, P.A.3
-
189
-
-
84903575665
-
Targeting cells with single vectors using multiple-feature Boolean logic
-
Fenno LE et al. 2014 Targeting cells with single vectors using multiple-feature Boolean logic. Nat. Methods 11, 763–772. (doi:10.1038/nmeth.2996)
-
(2014)
Nat. Methods
, vol.11
, pp. 763-772
-
-
Fenno, L.E.1
-
190
-
-
77955352376
-
Mapping cell fate and function using recombinase-based intersectional strategies
-
(eds MW Paul, MS Philippe, New York, NY: Academic Press
-
Dymecki SM, Ray RS, Kim JC. 2010 Mapping cell fate and function using recombinase-based intersectional strategies. In Methods in enzymology (eds MW Paul, MS Philippe), pp. 183–213. New York, NY: Academic Press.
-
(2010)
Methods in Enzymology
, pp. 183-213
-
-
Dymecki, S.M.1
Ray, R.S.2
Kim, J.C.3
-
191
-
-
84924253852
-
Transgenic mice for intersectional targeting of neural sensors and effectors with high specificity and performance
-
Madisen L et al. 2015 Transgenic mice for intersectional targeting of neural sensors and effectors with high specificity and performance. Neuron 85, 942–958. (doi:10.1016/j.neuron.2015.02.022)
-
(2015)
Neuron
, vol.85
, pp. 942-958
-
-
Madisen, L.1
-
192
-
-
84942989538
-
Cre-driven optogenetics in the heterogeneous genetic panorama of the VTA
-
Pupe S, Wallén-Mackenzie Å. 2015 Cre-driven optogenetics in the heterogeneous genetic panorama of the VTA. Trends Neurosci. 38, 375–386. (doi:10.1016/j.tins.2015.04.005)
-
(2015)
Trends Neurosci
, vol.38
, pp. 375-386
-
-
Pupe, S.1
Wallén-Mackenzie, Å.2
-
193
-
-
84921412580
-
Diversity of transgenic mouse models for selective targeting of midbrain dopamine neurons
-
Lammel S, Steinberg EE, Földy C, Wall NR, Beier K, Luo L, Malenka RC. 2015 Diversity of transgenic mouse models for selective targeting of midbrain dopamine neurons. Neuron 85, 429–438. (doi:10.1016/j.neuron.2014.12.036)
-
(2015)
Neuron
, vol.85
, pp. 429-438
-
-
Lammel, S.1
Steinberg, E.E.2
Földy, C.3
Wall, N.R.4
Beier, K.5
Luo, L.6
Malenka, R.C.7
-
194
-
-
84872925363
-
Rapid regulation of depression-related behaviours by control of midbrain dopamine neurons
-
Chaudhury D et al. 2013 Rapid regulation of depression-related behaviours by control of midbrain dopamine neurons. Nature 493, 532–536. (doi:10.1038/nature11713)
-
(2013)
Nature
, vol.493
, pp. 532-536
-
-
Chaudhury, D.1
-
195
-
-
8444242204
-
Transgenic expression of Cre recombinase from the tyrosine hydroxylase locus
-
Lindeberg J, Usoskin D, Bengtsson H, Gustafsson A, Kylberg A, Söderström S, Ebendal T. 2004 Transgenic expression of Cre recombinase from the tyrosine hydroxylase locus. Genesis 40, 67–73. (doi:10.1002/gene.20065)
-
(2004)
Genesis
, vol.40
, pp. 67-73
-
-
Lindeberg, J.1
Usoskin, D.2
Bengtsson, H.3
Gustafsson, A.4
Kylberg, A.5
Söderström, S.6
Ebendal, T.7
-
196
-
-
34548651693
-
Targeting Cre recombinase to specific neuron populations with bacterial artificial chromosome constructs
-
Gong S, Doughty M, Harbaugh CR, Cummins A, Hatten ME, Heintz N, Gerfen CR. 2007 Targeting Cre recombinase to specific neuron populations with bacterial artificial chromosome constructs. J. Neurosci. 27, 9817–9823. (doi:10.1523/jneurosci.2707-07.2007)
-
(2007)
J. Neurosci
, vol.27
, pp. 9817-9823
-
-
Gong, S.1
Doughty, M.2
Harbaugh, C.R.3
Cummins, A.4
Hatten, M.E.5
Heintz, N.6
Gerfen, C.R.7
-
197
-
-
84904252146
-
Anatomical characterization of Cre driver mice for neural circuit mapping and manipulation
-
Harris JA et al. 2014 Anatomical characterization of Cre driver mice for neural circuit mapping and manipulation. Front. Neural Circuits 8, 76. (doi:10.3389/fncir.2014.00076)
-
(2014)
Front. Neural Circuits
, vol.8
-
-
Harris, J.A.1
-
198
-
-
84928963567
-
Brains, genes, and primates
-
Belmonte JCI et al. 2015 Brains, genes, and primates. Neuron 86, 617–631. (doi:10.1016/j.neuron.2015.03.021)
-
(2015)
Neuron
, vol.86
, pp. 617-631
-
-
Belmonte, J.1
-
199
-
-
81355139570
-
Pairings of lever and food induce Pavlovian conditioned approach of sign-tracking and goaltracking in C57BL/6 mice
-
Tomie A, Lincks M, Nadarajah SD, Pohorecky LA, Yu L. 2012 Pairings of lever and food induce Pavlovian conditioned approach of sign-tracking and goaltracking in C57BL/6 mice. Behav. Brain Res. 226, 571–578. (doi:10.1016/j.bbr.2011.10.021)
-
(2012)
Behav. Brain Res
, vol.226
, pp. 571-578
-
-
Tomie, A.1
Lincks, M.2
Nadarajah, S.D.3
Pohorecky, L.A.4
Yu, L.5
-
200
-
-
84862681433
-
Quantifying individual variation in the propensity to attribute incentive salience to reward cues
-
Meyer PJ, Lovic V, Saunders BT, Yager LM, Flagel SB, Morrow JD, Robinson TE. 2012 Quantifying individual variation in the propensity to attribute incentive salience to reward cues. PLoS ONE 7, e38987. (doi:10.1371/journal.pone.0038987)
-
(2012)
Plos ONE
, vol.7
-
-
Meyer, P.J.1
Lovic, V.2
Saunders, B.T.3
Yager, L.M.4
Flagel, S.B.5
Morrow, J.D.6
Robinson, T.E.7
-
201
-
-
65049086679
-
Dissociating the predictive and incentive motivational properties of reward-related cues through the study of individual differences
-
Robinson TE, Flagel SB. 2009 Dissociating the predictive and incentive motivational properties of reward-related cues through the study of individual differences. Biol. Psychiatry 65, 869–873. (doi:10.1016/j.biopsych.2008.09.006)
-
(2009)
Biol. Psychiatry
, vol.65
, pp. 869-873
-
-
Robinson, T.E.1
Flagel, S.B.2
-
202
-
-
84865314101
-
The role of dopamine in the accumbens core in the expression of Pavlovian-conditioned responses
-
Saunders BT, Robinson TE. 2012 The role of dopamine in the accumbens core in the expression of Pavlovian-conditioned responses. Eur. J. Neurosci. 36, 2521–2532. (doi:10.1111/j.1460-9568.2012.08217.x)
-
(2012)
Eur. J. Neurosci
, vol.36
, pp. 2521-2532
-
-
Saunders, B.T.1
Robinson, T.E.2
-
203
-
-
77953292784
-
Disruption of conditioned reward association by typical and atypical antipsychotics
-
Danna CL, Elmer GI. 2010 Disruption of conditioned reward association by typical and atypical antipsychotics. Pharmacol. Biochem. Behav. 96, 40–47. (doi:10.1016/j.pbb.2010.04.004)
-
(2010)
Pharmacol. Biochem. Behav
, vol.96
, pp. 40-47
-
-
Danna, C.L.1
Elmer, G.I.2
-
204
-
-
79958850059
-
Individual variation in the motivational properties of cocaine
-
Saunders BT, Robinson TE. 2011 Individual variation in the motivational properties of cocaine. Neuropsychopharmacology 36, 1668–1676. (doi:10.1038/npp.2011.48)
-
(2011)
Neuropsychopharmacology
, vol.36
, pp. 1668-1676
-
-
Saunders, B.T.1
Robinson, T.E.2
-
205
-
-
77950023339
-
A cocaine cue acts as an incentive stimulus in some but not others: Implications for addiction
-
Saunders BT, Robinson TE. 2010 A cocaine cue acts as an incentive stimulus in some but not others: implications for addiction. Biol. Psychiatry 67, 730–736. (doi:10.1016/j.biopsych.2009.11.015)
-
(2010)
Biol. Psychiatry
, vol.67
, pp. 730-736
-
-
Saunders, B.T.1
Robinson, T.E.2
-
206
-
-
33846467782
-
Intravenous drug selfadministration in mice: Practical considerations
-
Thomsen M, Caine SB. 2007 Intravenous drug selfadministration in mice: practical considerations. Behav. Genet. 37, 101–118. (doi:10.1007/s10519-006-9097-0)
-
(2007)
Behav. Genet
, vol.37
, pp. 101-118
-
-
Thomsen, M.1
Caine, S.B.2
-
207
-
-
79954926033
-
The genetic basis of delay discounting and its genetic relationship to alcohol dependence. Behav
-
Mitchell SH. 2011 The genetic basis of delay discounting and its genetic relationship to alcohol dependence. Behav. Process. 87, 10–17. (doi:10.1016/j.beproc.2011.02.008)
-
(2011)
Process
, vol.87
, pp. 10-17
-
-
Mitchell, S.H.1
-
208
-
-
35349016348
-
Mouse lines selected for alcohol consumption differ on certain measures of impulsivity
-
Wilhelm CJ, Reeves JM, Phillips TJ, Mitchell SH. 2007 Mouse lines selected for alcohol consumption differ on certain measures of impulsivity. Alcoholism Clin. Exp. Res. 31, 1839–1845. (doi:10.1111/j.1530-0277.2007.00508.x)
-
(2007)
Alcoholism Clin. Exp. Res
, vol.31
, pp. 1839-1845
-
-
Wilhelm, C.J.1
Reeves, J.M.2
Phillips, T.J.3
Mitchell, S.H.4
-
209
-
-
4043060858
-
Evidence for addiction-like behavior in the rat
-
Deroche-Gamonet V, Belin D, Piazza PV. 2004 Evidence for addiction-like behavior in the rat. Science 305, 1014–1017. (doi:10.1126/science.1099020)
-
(2004)
Science
, vol.305
, pp. 1014-1017
-
-
Deroche-Gamonet, V.1
Belin, D.2
Piazza, P.V.3
-
210
-
-
2442538044
-
Physiological properties of hypothalamic MCH neurons identified with selective expression of reporter gene after recombinant virus infection
-
van den Pol AN, Acuna-Goycolea C, Clark KR, Ghosh PK. 2004 Physiological properties of hypothalamic MCH neurons identified with selective expression of reporter gene after recombinant virus infection. Neuron 42, 635–652. (doi:10.1016/S0896-6273(04)00251-X)
-
(2004)
Neuron
, vol.42
, pp. 635-652
-
-
Van Den Pol, A.N.1
Acuna-Goycolea, C.2
Clark, K.R.3
Ghosh, P.K.4
-
211
-
-
84882406435
-
Orbitofrontal and striatal circuits dynamically encode the shift between goal-directed and habitual actions
-
Gremel CM, Costa RM. 2013 Orbitofrontal and striatal circuits dynamically encode the shift between goal-directed and habitual actions. Nat. Commun. 4. (doi:10.1038/ncomms3264).
-
(2013)
Nat. Commun
-
-
Gremel, C.M.1
Costa, R.M.2
-
212
-
-
84907984161
-
Optogenetic activation of dorsal raphe serotonin neurons enhances patience for future rewards
-
Miyazaki KW, Miyazaki K, Tanaka KF, Yamanaka A, Takahashi A, Tabuchi S, Doya K. 2014 Optogenetic activation of dorsal raphe serotonin neurons enhances patience for future rewards. Curr. Biol. 24, 2033–2040. (doi:10.1016/j.cub.2014.07.041)
-
(2014)
Curr. Biol
, vol.24
, pp. 2033-2040
-
-
Miyazaki, K.W.1
Miyazaki, K.2
Tanaka, K.F.3
Yamanaka, A.4
Takahashi, A.5
Tabuchi, S.6
Doya, K.7
-
213
-
-
77954847711
-
Genetic reactivation of cone photoreceptors restores visual responses in retinitis pigmentosa
-
Busskamp V et al. 2010 Genetic reactivation of cone photoreceptors restores visual responses in retinitis pigmentosa. Science 329, 413–417. (doi:10.1126/science.1190897)
-
(2010)
Science
, vol.329
, pp. 413-417
-
-
Busskamp, V.1
-
214
-
-
84922423339
-
Refining deep brain stimulation to emulate optogenetic treatment of synaptic pathology
-
Creed M, Pascoli VJ, Lüscher C. 2015 Refining deep brain stimulation to emulate optogenetic treatment of synaptic pathology. Science 347, 659–664. (doi:10.1126/science.1260776)
-
(2015)
Science
, vol.347
, pp. 659-664
-
-
Creed, M.1
Pascoli, V.J.2
Lüscher, C.3
-
215
-
-
84887455518
-
Deep brain stimulation (DBS) at the interface of neurology and psychiatry
-
Williams NR, Okun MS. 2013 Deep brain stimulation (DBS) at the interface of neurology and psychiatry. J. Clin. Invest. 123, 4546. (doi:10.1172/JCI68341)
-
(2013)
J. Clin. Invest
, vol.123
-
-
Williams, N.R.1
Okun, M.S.2
-
216
-
-
84880753400
-
Deep brain stimulation for Parkinson’s disease and other movement disorders
-
Kalia SK, Sankar T, Lozano AM. 2013 Deep brain stimulation for Parkinson’s disease and other movement disorders. Curr. Opin. Neurol. 26, 374–380. (doi:10.1097/WCO.0b013e3283632d08)
-
(2013)
Curr. Opin. Neurol
, vol.26
, pp. 374-380
-
-
Kalia, S.K.1
Sankar, T.2
Lozano, A.M.3
-
217
-
-
84876485354
-
MRguided focused ultrasound thalamotomy for essential tremor: A proof-of-concept study
-
Lipsman N, Schwartz ML, Huang Y, Lee L, Sankar T, Chapman M, Hynynen K, Lozano AM. 2013 MRguided focused ultrasound thalamotomy for essential tremor: a proof-of-concept study. Lancet Neurol. 12, 462–468. (doi:10.1016/S1474-4422(13)70048-6)
-
(2013)
Lancet Neurol
, vol.12
, pp. 462-468
-
-
Lipsman, N.1
Schwartz, M.L.2
Huang, Y.3
Lee, L.4
Sankar, T.5
Chapman, M.6
Hynynen, K.7
Lozano, A.M.8
-
218
-
-
14644402983
-
Deep brain stimulation for treatment-resistant depression
-
Mayberg HS, Lozano AM, Voon V, McNeely HE, Seminowicz D, Hamani C, Schwalb JM, Kennedy SH. 2005 Deep brain stimulation for treatment-resistant depression. Neuron 45, 651–660. (doi:10.1016/j.neuron.2005.02.014)
-
(2005)
Neuron
, vol.45
, pp. 651-660
-
-
Mayberg, H.S.1
Lozano, A.M.2
Voon, V.3
McNeely, H.E.4
Seminowicz, D.5
Hamani, C.6
Schwalb, J.M.7
Kennedy, S.H.8
-
219
-
-
62649107855
-
Repeated high-frequency transcranial magnetic stimulation over the dorsolateral prefrontal cortex reduces cigarette craving and consumption
-
Amiaz R, Levy D, Vainiger D, Grunhaus L, Zangen A. 2009 Repeated high-frequency transcranial magnetic stimulation over the dorsolateral prefrontal cortex reduces cigarette craving and consumption. Addiction 104, 653–660. (doi:10.1111/j.1360-0443.2008.02448.x)
-
(2009)
Addiction
, vol.104
, pp. 653-660
-
-
Amiaz, R.1
Levy, D.2
Vainiger, D.3
Grunhaus, L.4
Zangen, A.5
-
220
-
-
84915735600
-
Transcranial magnetic stimulation in the treatment of substance addiction
-
Gorelick DA, Zangen A, George MS. 2014 Transcranial magnetic stimulation in the treatment of substance addiction. Ann. NY Acad. Sci. 1327, 79–93. (doi:10.1111/nyas.12479)
-
(2014)
Ann. NY Acad. Sci
, vol.1327
, pp. 79-93
-
-
Gorelick, D.A.1
Zangen, A.2
George, M.S.3
|