Brain Rhythms

  • Loza C.A., Colgin L.L. Deep Neural Dynamic Bayesian Networks Applied to EEG Sleep Spindles Modeling. In: de Bruijne M. et al. (eds) Medical Image Computing and Computer Assisted Intervention – MICCAI 2021. MICCAI 2021. Lecture Notes in Computer Science, vol 12905. Springer, Cham. 2021.
  • Zheng C, Hwaun E, Loza CA, Colgin LL.  Hippocampal place cell sequences differ during correct and error trials in a spatial memory task. Nature Communications. 2021, 12(1):3373. doi: 10.1038/s41467-021-23765-x.
  • Colgin LL.  Five Decades of Hippocampal Place Cells and EEG Rhythms in Behaving Rats.  J Neurosci. 2020, 40(1):54-60. doi: 10.1523/JNEUROSCI.0741-19.2019.
  • Creson T, Rojas C, Hwaun E, Vaissiere T, Kilinc M, Jimenez-Gomez A, Holder JL Jr, Tang J, Colgin LL, Miller CA, Rumbaugh G. Re-expression of SynGAP protein in adulthood improves translatable measures of brain function and behavior. eLife, 2019, 8. pii: e46752.
  • Mishra A, Colgin LL. The High Energy Cost of Theta-Gamma Activity during REM Sleep. Trends Neurosci. 2019, 42(4):239-241.
  • Trimper JB, Colgin LL.  Spike time synchrony in the absence of continuous oscillations.  Neuron, 2018, 100(3):527-529.
  • Mably AJ, Colgin LL.  Gamma oscillations in cognitive disorders.  Current Opinion in Neurobiology, 2018, 52:182-187.
  • Gereke BJ, Mably AJ, Colgin LL.  Experience-Dependent Trends in CA1 Theta and Slow Gamma Rhythms in Freely Behaving Mice.  Journal of Neurophysiology, 2018, 119:476-489.
  • Mably AJ, Gereke BJ, Jones DT, Colgin LL.  Impairments in spatial representations and rhythmic coordination of place cells in the 3xTg mouse model of Alzheimer’s disease.  Hippocampus, 2017, 27:378-392.
  • Hsiao Y-T, Zheng C, Colgin LL.  Slow gamma rhythms in CA3 are entrained by slow gamma activity in the dentate gyrus.  Journal of Neurophysiology, 116(6):2594-2603.
  • Zheng C, Bieri KW, Hwaun E, Colgin LL.  Fast gamma rhythms in the hippocampus promote encoding of novel-object place pairings, eNeuro, 2016.
  • Colgin LL.  Rhythms of the Hippocampal Network, Nature Reviews Neuroscience, 2016, 17:239-249.
  • Zheng C, Bieri KW, Hsiao Y, Colgin LL. Spatial sequence coding differs during slow and fast gamma rhythms in the hippocampus, Neuron, 2016, 89(2):398-408.
  • Zheng C and Colgin LL. Beta and gamma rhythms go with the flow, Neuron, 2015, 85(2): 236-237.
  • Zheng C, Bieri KW, Trettel SG, Colgin LL. The relationship between gamma frequency and running speed differs for slow and fast gamma rhythms in freely behaving rats, Hippocampus, 2015, 25(8): 924-938.
  • Colgin LL. Do slow and fast gamma correspond to distinct functional states in the hippocampal network?, Brain Research, 2015, 1621: 309-315.
  • Colgin LL. Theta-gamma coupling in the entorhinal-hippocampal system, Curr Opin Neurobiol, 2015, 31: 45-50.
  • Bieri KW, Bobbitt KN, Colgin LL.  Slow and fast gamma rhythms coordinate different spatial coding modes in hippocampal place cells, Neuron, 2014, 82(3): 670-681.
  • Igarashi KM, Lu L, Colgin LL, Moser MB, Moser EI.  Coordination of entorhinal-hippocampal ensemble activity during associative learning.  Nature, 2014, 510(7503): 143-147.
  • Colgin LL.  Mechanisms and functions of theta rhythms.  Annual Review of Neuroscience, 2013, 36: 295-312.
  • Colgin LL.  Slow gamma takes the reins in replay.  Neuron, 2012, 75(4):549-550.
  • Colgin LL.  Neuroscience: Periodicity without rhythmicity.  Nature, 2011, 479(7371):46-47.
  • Colgin LL.  Oscillations and hippocampal-prefrontal synchrony.  Curr Opin Neurobiol, 2011, 21(3): 467-474.

Neuronal Representations of Space and Spatial Memory

  • Trettel SG, Trimper JB, Hwaun E, Fiete IR, Colgin LL. Grid cell co-activity patterns during sleep reflect spatial overlap of grid fields during active behavior, Nature Neuroscience. 2019, 22(4):609-617.
  • Hwaun E, Colgin LL. CA3 place cells that represent a novel experience are preferentially reactivated during sharp wave-ripples in subsequent sleep, Hippocampus. 2019, 29(10):921-938.
  • Trimper JB, Trettel SG, Hwaun E, Colgin LL.  Methodological Caveats in the Detection of Coordinated Replay between Place Cells and Grid Cells.  Frontiers in Systems Neuroscience, 2017, 11(57):1-14.
  • Zheng C and Colgin LL.  A neuronal mechanism for recall of bad events.  Nature Neuroscience, 2017, 20:501-503.
  • Alexander GM, Farris S, Pirone JR, Zheng C, Colgin LL, Dudek SM. Social and novel contexts modify hippocampal CA2 representations of space, Nature Communications, 2016, 7:10300.
  • Colgin LL.  Neuroscience: Recalling Space and Time.  Science, 2012, 336(6082):671.

| June 23rd, 2015 | Posted in Uncategorized |

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