Publications
42. Brendan S. Ito*, Yongjie Gao*, Brian Kardon, Jesse H. Goldberg. A collicular map for touch-guided tongue control. bioRxiv link
41. Caleb Jones and Jesse Goldberg. Auditory cortical error signals retune during songbird courtship. In revision at eLife and posted at bioarxiv. pdf
40. Tejapratap Bollu, Samuel C. Whitehead, Nikil Prasad, Jackson Walker, Nitin Shyamkumar, Raghav Subramaniam, Brian Kardon, Itai Cohen, Jesse Goldberg. Motor cortical inactivation impairs corrective submovements in mice performing a hold-still center-out reach task. Under Review and available here.
39. Andrea Christine Roeser, Han Kheng Teoh, Ruidong Chen and Jesse H Goldberg. The songbird lateral habenula projects to dopaminergic midbrain and is important for normal vocal development. In revision (eLife) and posted at biorxiv here. Data available here.
38. Malavika Ramarao, Andrea Roeser, Caleb Jones, Jesse H. Goldberg. Songbird mesostriatal dopamine pathways are spatially segregated before the onset of vocal learning. In Press at PLOS One. pdf. Code available here.
37. Zhao Z, Teoh HK, Carpenter J, Nemon F, Kardon B, Cohen I, Goldberg JH. Anterior forebrain pathway in parrots is necessary for producing learned vocalizations with individual signatures. Curr Biol. 2023 Dec 18;33(24):5415-5426.e4. doi: 10.1016/j.cub.2023.11.014. pdf.
36. Zhilei Zhao and Jesse H. Goldberg. Dopaminergic signals for improved parental care. Neuron (Preview), in press. pdf
35. Andrea Roeser*, Vikram Gadagkar*, Anindita Das, Pavel A. Puzerey, Brian Kardon and Jesse H. Goldberg. Dopaminergic error signals retune to social feedback during courtship. Nature. 2023 Sep 27. doi: 10.1038/s41586-023-06580 pdf
34. Alison Duffy, Kenneth W. Latimer, Jesse H. Goldberg, Adrienne L. Fairhall, Vikram Gadagkar. Dopamine Neurons Evaluate Natural Fluctuations in Performance Quality. Cell Rep. 2022 Mar 29;38(13):110574. doi: 10.1016/j.celrep.2022.110574. pdf
33. Anindita Das and Jesse H. Goldberg. Songbird subthalamic neurons project to dopaminergic midbrain and exhibit singing-related activity. J Neurophysiol. 2022 Feb 1;127(2):373-383. doi: 10.1152/jn.00254.2021. Epub 2021 Dec 29. pdf
32. Bollu T,* Ito B*, Whitehead SC, Kardon B, Liu MH, Goldberg JH. Cortex-dependent corrections as the tongue reaches for and misses targets. Nature. 2021 Jun;594(7861):82-87. pdf
31. Chen R and Goldberg JH. Actor Critic Reinforcement Learning in the Songbird. Current Opinion in Neurobiology. 2020 Sep 5;65:1-9. doi: 10.1016/j.conb.2020.08.005. pdf
30. Chen R, Gadagkar V, Roeser A, Puzerey P, Goldberg JH. Movement signaling in ventral pallidum and dopaminergic midbrain is gated by behavioral state in singing birds. J Neurophysiol. 2021 Jun 1;125(6):2219-2227. doi: 10.1152/jn.00110.2021.
29. Chen R, Puzerey P, Roeser A, Riccelli T, Podury A, Maher K, Farhang A, Goldberg JH. Songbird ventral pallidum sends diverse performance error signals to dopaminergic midbrain. Neuron. 2019 May 11. 6273(19)30395-2. pdf
28. Bollu T, Whitehead SC, Prasad N, Walker JR, Shyamkumar N, Subramaniam R, Kardon BM, Cohen I, Goldberg JH. Automated homecage training of mice in a hold-still center-out reach task. J Neurophysiol. 2019 Feb 1;121(2):500-512. pdf
27. Chen R, Bollu T, Goldberg JH. A stable neural code for birdsong. Neuron (Preview). 2018 Jun 27;98(6):1057-1059. pdf
26. Puzerey P, Maher K, Chen R, Prasad N, Goldberg JH. Vocal learning in songbirds requires cholinergic signaling in a motor cortex-like nucleus. J Neurophysiol. 2018 Oct 1;120(4):1796-1806. pdf
25. Murdoch D, Chen R, Goldberg JH. Place preference and vocal learning rely on distinct reinforcers in songbirds. Scientific Reports. 2018 Apr 30;8(1):6766. pdf
24. Gadagkar V, Puzerey P, Chen R, Baird-Daniel E, Farhang A, Goldberg JH. Dopamine neurons encode performance error in singing birds. Science. 2016 Dec 9;354(6317):1278-1282. pdf
23. Pidoux M, Bollu T, Riccelli T, Goldberg JH. Origins of basal ganglia output signals in singing juvenile birds. Journal of Neurophysiology. 2015 Feb 1;113(3):843-5. pdf
22. Gadagkar V and Goldberg JH. A Variability-Generating Circuit Goes Awry in a Songbird Model of the FOXP2 Speech Disorder. Neuron (Preview). 2013 Dec 18;80(6):1341-44. pdf
21. Goldberg JH, Farries MA and Fee MS. Basal ganglia output to the thalamus: still a paradox. Trends Neurosci. 2013 Dec;36(12):695-705. pdf
20. Goldberg JH, Farries MA and Fee MS. Integration of cortical and pallidal inputs in the basal ganglia-recipient thalamus of singing birds. Journal of Neurophysiology 2012 Sep;108(5):1403-29. pdf
19. Goldberg JH and Fee MS. A cortical motor nucleus drives the basal ganglia-recipient thalamus in singing birds. Nature Neuroscience. 2012 Feb 12;15(4):620-7. pdf
18. Fee MS and Goldberg JH. A hypothesis for basal ganglia dependent reinforcement learning in the songbird. Neuroscience. 2011 Dec 15;198:152-70. pdf
17. Aronov D, Veit L, Goldberg JH, Fee MS. Two distinct modes of forebrain circuit dynamics underlie temporal patterning in the vocalizations of young songbirds. Journal of Neuroscience. 2011 Nov 9;31(45): 16353-68. pdf
16. Goldberg JH and Fee MS. Vocal babbling in songbirds requires the basal ganglia-recipient motor thalamus. Journal of Neurophysiology. 2011 Jun;105(6):2729-39. pdf
15. Ölveczky BP, Otchy T, Goldberg JH, Aronov D, Fee MS. Changes in the neural control of a complex motor sequence during learning. Journal of Neurophysiology. 2011 Jul;106(1):386-97. pdf
14. Goldberg JH, Adler A, Bergman H, and Fee MS. Singing related neural activity distinguishes two classes of putative pallidal neuron in the songbird basal ganglia: Comparison to the primate internal and external pallidal segments. Journal of Neuroscience. 2010 May 19;30(20):7088-98. pdf
13. Goldberg JH and Fee MS. Singing related neural activity distinguishes four classes of putative striatal neuron in the songbird basal ganglia. Journal of Neurophysiology. 2010 Apr;103(4):2002-14. pdf
12. Petilla Cortical Interneuron Nomenclature Group. Petilla terminology: nomenclature of features of GABAergic interneurons of the cerebral cortex. Nature Reviews Neuroscience. 2008 Jul;9(7):557-68. pdf
11. Skeberdis V, Chevaleyre V, Suadicani SO, Goldberg JH, Bennett MVL, Yuste R, Castillo PE and Zukin RS. Protein kinase A promotes LTP induction by increasing calcium permeability of NMDA receptors in dendritic spines. Nature Neuroscience, 2006 Apr 9(4) 501-510. pdf
10. Goldberg JH and Yuste R. Space Matters: Local and global dendritic calcium comparmentalization in cortical interneurons. Trends in Neurosciences. 2005 28: 158-167. pdf
9. Goldberg JH, Lacefield CO, Yuste R. Global dendritic calcium spikes in mouse layer 5 low-threshold spiking (LTS) interneurones: implications for control of pyramidal bursting. Journal of Physiology. 2004 Jul 15;558(Pt 2):465-78. pdf
8. Goldberg JH, Tamas G, Aronov D, Yuste R. Calcium microdomains in aspiny dendrites. Neuron (Cover article). 2003 Nov 13;40(4):807-21. pdf
7. Goldberg JH, Tamas G, Yuste R. Ca2+ imaging of mouse neocortical interneuron dendrites: Ia-type K+ channels control action potential backpropagation. Journal of Physiology (Previewed article). 2003 Aug 15;551:49-65. pdf
6. Goldberg JH, Yuste R, Tamas G. Ca2+ imaging of mouse neocortical interneuron dendrites: Contribution of Ca2+-permeable AMPA and NMDA receptors to subthreshold Ca2+dynamics. Journal of Physiology (Previewed article). 2003 Aug 15;551:67-78.
5. Goldberg J, Holthoff K, Yuste R. A Problem with Hebb and local spikes. Trends in Neurosciences. 2002 Sep; 25(9): 433-5. pdf
4. Hirase H, Nikolenko V, Goldberg JH, Yuste R. Multiphoton stimulation of neurons. Journal of Neurobiology. 2002 Jun 5; 51(3):237-47. pdf
3. Tashiro A, Goldberg J, Yuste R. Calcium oscillations in neocortical astrocytes under epileptiform conditions. Journal of Neurobiology. 2002 Jan;50(1):45-55. pdf
2. Badea T, Tashiro A, Goldberg J, Mao B, Yuste R. Imaging epileptiform events in juvenile neocortical slices with single cell resolution. Journal of Neurobiology. 2001 Sep 5;48(3):215-27. pdf
1. Cavallaro S, Meiri N, Yi C, Musco S, Ma W, Goldberg JH, Alkon DL. Late memory-related genes in the hippocampus revealed by RNA fingerprinting, PNAS 94 (1999): 9669-9673. pdf