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<?xml version="1.0" encoding="UTF-8"?><rss version="2.0" xmlns:content="http://purl.org/rss/1.0/modules/content/" xmlns:wfw="http://wellformedweb.org/CommentAPI/" xmlns:dc="http://purl.org/dc/elements/1.1/" > <channel><title><![CDATA[SLEEP AND COGNITIVE NEUROSCIENCE LABORATORY - Publications]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs]]></link><description><![CDATA[Publications]]></description><pubDate>Thu, 02 Apr 2020 07:43:40 -0700</pubDate><generator>Weebly</generator><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182241959]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182241959#comments]]></comments><pubDate>Sat, 26 May 2018 15:11:23 GMT</pubDate><category><![CDATA[BDNF]]></category><category><![CDATA[REM sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182241959</guid><description><![CDATA[Garner JM, Chambers J, Barnes AK, Datta S. Changes in Brain-Derived Neurotrophic Factor Expression Influence Sleep-Wake Activity and Homeostatic Regulation of Rapid Eye Movement Sleep. Sleep. 2017 Nov 20. doi: 10.1093/sleep/zsx194. [Epub ahead of print] [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Garner JM, Chambers J, Barnes AK, Datta S.<strong> Changes in Brain-Derived Neurotrophic Factor Expression Influence Sleep-Wake Activity and Homeostatic Regulation of Rapid Eye Movement Sleep. </strong>Sleep. 2017 Nov 20. doi: 10.1093/sleep/zsx194. [Epub ahead of print]</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187217843]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187217843#comments]]></comments><pubDate>Sat, 26 May 2018 15:09:51 GMT</pubDate><category><![CDATA[BDNF]]></category><category><![CDATA[ERK1/2]]></category><category><![CDATA[Pharmacology]]></category><category><![CDATA[REM sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187217843</guid><description><![CDATA[Datta S, Oliver MD. Cellular and Molecular Mechanisms of REM Sleep Homeostatic Drive: A Plausible Component for Behavioral Plasticity. Front Neural Circuits. 2017 Sep 14;11:63. doi: 10.3389/fncir.2017.00063. eCollection 2017. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, Oliver MD. <strong>Cellular and Molecular Mechanisms of REM Sleep Homeostatic Drive: A Plausible Component for Behavioral Plasticity.</strong> Front Neural Circuits. 2017 Sep 14;11:63. doi: 10.3389/fncir.2017.00063. eCollection 2017.</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184027076]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184027076#comments]]></comments><pubDate>Sat, 26 May 2018 15:09:10 GMT</pubDate><category><![CDATA[Animal behavior]]></category><category><![CDATA[BDNF]]></category><category><![CDATA[Cognition]]></category><category><![CDATA[Electrophysiology]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184027076</guid><description><![CDATA[Geist PA, Dulka BN, Barnes A, Totty M, Datta S. BNDF heterozygosity is associated with memory deficits and alterations in cortical and hippocampal EEG power. ​Behav Brain Res. 2017 Aug 14;332:154-163. doi: 10.1016/j.bbr.2017.05.039. Epub 2017 May 31. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph">Geist PA, Dulka BN, Barnes A, Totty M, Datta S.<strong> BNDF heterozygosity is associated with memory deficits and alterations in cortical and hippocampal EEG power. ​</strong>Behav Brain Res. 2017 Aug 14;332:154-163. doi: 10.1016/j.bbr.2017.05.039. Epub 2017 May 31.</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189109668]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189109668#comments]]></comments><pubDate>Sat, 26 May 2018 15:07:53 GMT</pubDate><category><![CDATA[Cognition]]></category><category><![CDATA[Electrophysiology]]></category><category><![CDATA[Fear memories]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189109668</guid><description><![CDATA[Totty MS, Chesney LA, Geist PA, Datta S. Sleep-Dependent Oscillatory Synchronization: A Role in Fear Memory Consolidation. Front Neural Circuits. 2017 Jul 6;11:49. doi: 10.3389/fncir.2017.00049. eCollection 2017. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Totty MS, Chesney LA, Geist PA, Datta S. <strong>Sleep-Dependent Oscillatory Synchronization: A Role in Fear Memory Consolidation.</strong> Front Neural Circuits. 2017 Jul 6;11:49. doi: 10.3389/fncir.2017.00049. eCollection 2017.</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20185544309]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20185544309#comments]]></comments><pubDate>Sat, 26 May 2018 15:07:08 GMT</pubDate><category><![CDATA[BDNF]]></category><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[Pharmacology]]></category><category><![CDATA[REM sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20185544309</guid><description><![CDATA[Barnes AK, Koul-Tiwari R, Garner JM, Geist PA, Datta S. Activation of brain-derived neurotrophic factor-tropomyosin receptor kinase B signaling in the pedunculopontine tegmental nucleus: a novel mechanism for the homeostatic regulation of rapid eye movement sleep. J Neurochem. 2017 Apr;141(1):111-123. doi: 10.1111/jnc.13938. Epub 2017 Jan 27. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Barnes AK, Koul-Tiwari R, Garner JM, Geist PA, Datta S. <strong>Activation of brain-derived neurotrophic factor-tropomyosin receptor kinase B signaling in the pedunculopontine tegmental nucleus: a novel mechanism for the homeostatic regulation of rapid eye movement sleep.</strong> J Neurochem. 2017 Apr;141(1):111-123. doi: 10.1111/jnc.13938. Epub 2017 Jan 27.<br></div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188198347]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188198347#comments]]></comments><pubDate>Sat, 26 May 2018 15:05:12 GMT</pubDate><category><![CDATA[Animal behavior]]></category><category><![CDATA[Cognition]]></category><category><![CDATA[Sleep and psychiatric disorders]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188198347</guid><description><![CDATA[Barnes AK, Smith SB, Datta S. Beyond Emotional and Spatial Processes: Cognitive Dysfunction in a Depressive Phenotype Produced by Long Photoperiod Exposure. PLoS One. 2017 Jan 6;12(1):e0170032. doi: 10.1371/journal.pone.0170032. eCollection 2017. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Barnes AK, Smith SB, Datta S. <strong>Beyond Emotional and Spatial Processes: Cognitive Dysfunction in a Depressive Phenotype Produced by Long Photoperiod Exposure.</strong> PLoS One. 2017 Jan 6;12(1):e0170032. doi: 10.1371/journal.pone.0170032. eCollection 2017.<br></div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183413491]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183413491#comments]]></comments><pubDate>Sat, 26 May 2018 15:04:28 GMT</pubDate><category><![CDATA[BDNF]]></category><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[REM sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183413491</guid><description><![CDATA[Datta S, Knapp CM, Koul-Tiwari R, Barnes A. The homeostatic regulation of REM sleep: A role for localized expression of brain-derived neurotrophic factor in the brainstem. Behav Brain Res. 2015 Oct 1;292:381-92. doi: 10.1016/j.bbr.2015.06.038. Epub 2015 Jul 2. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, Knapp CM, Koul-Tiwari R, Barnes A. T<strong>he homeostatic regulation of REM sleep: A role for localized expression of brain-derived neurotrophic factor in the brainstem.</strong> Behav Brain Res. 2015 Oct 1;292:381-92. doi: 10.1016/j.bbr.2015.06.038. Epub 2015 Jul 2.<br></div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182188268]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182188268#comments]]></comments><pubDate>Sat, 26 May 2018 15:03:32 GMT</pubDate><category><![CDATA[Electrophysiology]]></category><category><![CDATA[Neuroanatomy]]></category><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[Sleep and psychiatric disorders]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182188268</guid><description><![CDATA[Datta S. Mysteries of pedunculopontine nucleus physiology: Towards a deeper understanding of arousal and neuropsychiatric disorders. Sleep Sci. 2015 Apr-Jun;8(2):53-5. doi: 10.1016/j.slsci.2015.08.001. Epub 2015 Aug 28. [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S. <strong>Mysteries of pedunculopontine nucleus physiology: Towards a deeper understanding of arousal and neuropsychiatric disorders.</strong> Sleep Sci. 2015 Apr-Jun;8(2):53-5. doi: 10.1016/j.slsci.2015.08.001. Epub 2015 Aug 28. <br /></div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183880275]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183880275#comments]]></comments><pubDate>Sat, 26 May 2018 14:58:12 GMT</pubDate><category><![CDATA[Uncategorized]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183880275</guid><description><![CDATA[Selected publications older than 2015 [...] ]]></description><content:encoded><![CDATA[<h2 class="wsite-content-title" style="text-align:center;"><u>Selected publications older than 2015</u></h2>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181167646]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181167646#comments]]></comments><pubDate>Sat, 26 May 2018 14:57:08 GMT</pubDate><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[Sleep and psychiatric disorders]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181167646</guid><description><![CDATA[Knapp CM, Ciraulo DA, Datta S. Mechanisms underlying sleep-wake disturbances in alcoholism: focus on the cholinergic pedunculopontine tegmentum. Behav. Brain Res. 274:291-301 (2014). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Knapp CM, Ciraulo DA, Datta S. <strong>Mechanisms underlying sleep-wake disturbances in alcoholism: focus on the cholinergic pedunculopontine tegmentum.</strong> Behav. Brain Res. 274:291-301 (2014).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188135322]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188135322#comments]]></comments><pubDate>Sat, 26 May 2018 14:56:42 GMT</pubDate><category><![CDATA[Pharmacology]]></category><category><![CDATA[Psychiatric disorders]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20188135322</guid><description><![CDATA[Knapp CM, O'Malley MW, Ciraulo DA, Datta S. The Kv7 Potassium Channel Activator Retigabine Decreases Alcohol Consumption in Rats. Am. J. Drug and Alcohol Abuse 40:244-250 (2014). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Knapp CM, O'Malley MW, Ciraulo DA, Datta S. <strong>The Kv7 Potassium Channel Activator Retigabine Decreases Alcohol Consumption in Rats.</strong> Am. J. Drug and Alcohol Abuse 40:244-250 (2014).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181704713]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181704713#comments]]></comments><pubDate>Sat, 26 May 2018 14:56:10 GMT</pubDate><category><![CDATA[Cognition]]></category><category><![CDATA[Dorsal subcoerleus nucleus]]></category><category><![CDATA[Fear memories]]></category><category><![CDATA[Memory consolidation]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181704713</guid><description><![CDATA[Siwek DF, Knapp CM, Kaur G, Datta S. Dorsal subcoeruleus nucleus (SubCD) involvement in context-associated fear memory consolidation. Exp. Brain Res. 232:1535-1545 (2014). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Siwek DF, Knapp CM, Kaur G, Datta S. <strong>Dorsal subcoeruleus nucleus (SubCD) involvement in context-associated fear memory consolidation.</strong> Exp. Brain Res. 232:1535-1545 (2014).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181316234]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181316234#comments]]></comments><pubDate>Sat, 26 May 2018 14:55:36 GMT</pubDate><category><![CDATA[Dorsal subcoerleus nucleus]]></category><category><![CDATA[Electrophysiology]]></category><category><![CDATA[Fear memories]]></category><category><![CDATA[Pontine-waves]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20181316234</guid><description><![CDATA[ Datta S, O'Malley MW. Fear extinction memory consolidation requires potentiation of pontine-wave activity during REM sleep. J. Neurosci. 33:4561-4569 (2013). [...] ]]></description><content:encoded><![CDATA[<h2 class="wsite-content-title"></h2> <div class="paragraph">Datta S, O'Malley MW. <strong>Fear extinction memory consolidation requires potentiation of pontine-wave activity during REM sleep.</strong> J. Neurosci. 33:4561-4569 (2013).<br /></div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189093381]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189093381#comments]]></comments><pubDate>Sat, 26 May 2018 14:55:05 GMT</pubDate><category><![CDATA[Animal behavior]]></category><category><![CDATA[Psychiatric disorders]]></category><category><![CDATA[Sleep and psychiatric disorders]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20189093381</guid><description><![CDATA[O'Malley MW, Fishman RL, Ciraulo DA, Datta S. Effect of five-consecutive-day exposure to an anxiogenic stressor on sleep-wake activity in rats. Front. Neurol. 4:Article 15 P1-P10 (2013). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">O'Malley MW, Fishman RL, Ciraulo DA, Datta S.<strong> Effect of five-consecutive-day exposure to an anxiogenic stressor on sleep-wake activity in rats. </strong>Front. Neurol. 4:Article 15 P1-P10 (2013).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187024043]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187024043#comments]]></comments><pubDate>Sat, 26 May 2018 14:54:01 GMT</pubDate><category><![CDATA[ERK1/2]]></category><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[Pharmacology]]></category><category><![CDATA[REM sleep regulation]]></category><category><![CDATA[Sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187024043</guid><description><![CDATA[Desarnaud F, Macone BW, Datta S. Activation of extracellular signal-regulated kinase (ERK) signaling in the pedunculopontine tegmental (PPT) cells is involved in the maintenance of sleep in rats. J. Neurochem. 116:577-587 (2011). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Desarnaud F, Macone BW, Datta S. <strong>Activation of extracellular signal-regulated kinase (ERK) signaling in the pedunculopontine tegmental (PPT) cells is involved in the maintenance of sleep in rats.</strong> J. Neurochem. 116:577-587 (2011).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183534042]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183534042#comments]]></comments><pubDate>Sat, 26 May 2018 14:53:25 GMT</pubDate><category><![CDATA[CAM Kinase]]></category><category><![CDATA[Pharmacology]]></category><category><![CDATA[Sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20183534042</guid><description><![CDATA[Datta S, O'Malley MW, Patterson EH. Calcium/calmodulin Kinase II in the Pedunculo- pontine Tegmental Nucleus Controls the Initiation and Maintenance of Wakefulness. J. Neurosci. 31:17007-17016 (2011). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, O'Malley MW, Patterson EH. <strong>Calcium/calmodulin Kinase II in the Pedunculo- pontine Tegmental Nucleus Controls the Initiation and Maintenance of Wakefulness.</strong> J. Neurosci. 31:17007-17016 (2011).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182827801]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182827801#comments]]></comments><pubDate>Sat, 26 May 2018 14:52:43 GMT</pubDate><category><![CDATA[Dorsal subcoerleus nucleus]]></category><category><![CDATA[Electrophysiology]]></category><category><![CDATA[Memory consolidation]]></category><category><![CDATA[Pontine-waves]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20182827801</guid><description><![CDATA[Datta, S. Pontine-wave generator: A key player in REM sleep-dependent memory consolidation. In: Rapid Eye Movement Sleep: Regulation and Function (B. N. Mallick, S. R. Pandi-Perumal, R. W. McCarley and A. R. Morrison, eds.), Cambridge University Press, Cambridge, 140-150 pg (2011). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta, S. <strong>Pontine-wave generator: A key player in REM sleep-dependent memory consolidation. </strong>In: Rapid Eye Movement Sleep: Regulation and Function (B. N. Mallick, S. R. Pandi-Perumal, R. W. McCarley and A. R. Morrison, eds.), Cambridge University Press, Cambridge, 140-150 pg (2011).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187726890]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187726890#comments]]></comments><pubDate>Sat, 26 May 2018 14:51:39 GMT</pubDate><category><![CDATA[Animal behavior]]></category><category><![CDATA[Cognition]]></category><category><![CDATA[Memory consolidation]]></category><category><![CDATA[Sleep and cognition]]></category><category><![CDATA[Sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187726890</guid><description><![CDATA[Huang MP, Radadia K, Auerbach SH, Datta S. Effects of Eszopiclone and Zolpidem on sleep-wake behavior, anxiety and contextual memory in rats. Behav. Brain Res.210:54-66 (2010). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Huang MP, Radadia K, Auerbach SH, Datta S.<strong> Effects of Eszopiclone and Zolpidem on sleep-wake behavior, anxiety and contextual memory in rats. </strong>Behav. Brain Res.210:54-66 (2010).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187256617]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187256617#comments]]></comments><pubDate>Sat, 26 May 2018 14:50:25 GMT</pubDate><category><![CDATA[Pedunculopontine nucleus]]></category><category><![CDATA[Pharmacology]]></category><category><![CDATA[Protein Kinase A]]></category><category><![CDATA[REM sleep regulation]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20187256617</guid><description><![CDATA[Datta S, Desarnaud F. Protein kinase A in the PPT nucleus of rat contributes to regulation of rapid eye movement sleep. J. Neuroscience. 30:12263-12273 (2010). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, Desarnaud F. <strong>Protein kinase A in the PPT nucleus of rat contributes to regulation of rapid eye movement sleep.</strong> J. Neuroscience. 30:12263-12273 (2010).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20186116312]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20186116312#comments]]></comments><pubDate>Sat, 26 May 2018 14:49:57 GMT</pubDate><category><![CDATA[Electrophysiology]]></category><category><![CDATA[Fear memories]]></category><category><![CDATA[Memory consolidation]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20186116312</guid><description><![CDATA[Datta S. Molecular mechanisms underlying sleep deprivation-induced deficits in hippocampal long-term potentiation and contextual memory. Cell Sci. Rev. 6 (3):1-6 (2010). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S. <strong>Molecular mechanisms underlying sleep deprivation-induced deficits in hippocampal long-term potentiation and contextual memory.</strong> Cell Sci. Rev. 6 (3):1-6 (2010).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184796866]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184796866#comments]]></comments><pubDate>Sat, 26 May 2018 14:48:53 GMT</pubDate><category><![CDATA[Uncategorized]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-20184796866</guid><description><![CDATA[Datta S. Regulation of neuronal activities within REM sleep-sign generators. Sleep 32:1113-1114 (2009). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph">Datta S. <strong>Regulation of neuronal activities within REM sleep-sign generators. </strong>Sleep 32:1113-1114 (2009).</div>]]></content:encoded></item><item><title><![CDATA[May 26th, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-2018]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-26th-2018#comments]]></comments><pubDate>Sat, 26 May 2018 14:48:03 GMT</pubDate><category><![CDATA[Dorsal subcoerleus nucleus]]></category><category><![CDATA[Pontine-waves]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-26th-2018</guid><description><![CDATA[Datta S, Li G, Auerbach S. Activation of phasic pontine-wave generator in the rat: a mechanism for expression of plasticity-related genes and proteins in the dorsal hippocampus and amygdala. Eur. J. Neurosci. 27:1876-1892 (2008). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, Li G, Auerbach S. <strong>Activation of phasic pontine-wave generator in the rat: a mechanism for expression of plasticity-related genes and proteins in the dorsal hippocampus and amygdala.</strong> Eur. J. Neurosci. 27:1876-1892 (2008).</div>]]></content:encoded></item><item><title><![CDATA[May 21st, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20189482920]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20189482920#comments]]></comments><pubDate>Mon, 21 May 2018 17:41:36 GMT</pubDate><category><![CDATA[Uncategorized]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-21st-20189482920</guid><description><![CDATA[Datta S, MacLean RR. Neurobiological mechanisms for the regulation of mammalian sleep-wake behavior: reinterpretation of historical evidence and inclusion of contemporary cellular and molecular evidence. Neurosci. Biobehav. Rev. 31:775-824 (2007). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S, MacLean RR. <strong>Neurobiological mechanisms for the regulation of mammalian sleep-wake behavior: reinterpretation of historical evidence and inclusion of contemporary cellular and molecular evidence.</strong> Neurosci. Biobehav. Rev. 31:775-824 (2007).</div>]]></content:encoded></item><item><title><![CDATA[May 21st, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20184781809]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20184781809#comments]]></comments><pubDate>Mon, 21 May 2018 17:41:03 GMT</pubDate><category><![CDATA[Uncategorized]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-21st-20184781809</guid><description><![CDATA[MacLean RR, Datta S. The relationship between anxiety and sleep-wake behavior after stressor exposure in the rat. Brain Res. 1164:72-80 (2007). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">MacLean RR, Datta S. <strong>The relationship between anxiety and sleep-wake behavior after stressor exposure in the rat. </strong>Brain Res. 1164:72-80 (2007).</div>]]></content:encoded></item><item><title><![CDATA[May 21st, 2018]]></title><link><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20185399207]]></link><comments><![CDATA[http://sleepandcognitionlab.weebly.com/pubs/may-21st-20185399207#comments]]></comments><pubDate>Mon, 21 May 2018 17:39:04 GMT</pubDate><category><![CDATA[Dorsal subcoerleus nucleus]]></category><category><![CDATA[Memory consolidation]]></category><category><![CDATA[Pontine-waves]]></category><category><![CDATA[Sleep and cognition]]></category><guid isPermaLink="false">http://sleepandcognitionlab.weebly.com/pubs/may-21st-20185399207</guid><description><![CDATA[Datta S. Activation of phasic pontine-wave generator: A mechanism for sleep-dependent memory processing. Sleep and Biol. Rhythms 4:16-26 (2006). [...] ]]></description><content:encoded><![CDATA[<div class="paragraph" style="text-align:left;">Datta S. <strong>Activation of phasic pontine-wave generator: A mechanism for sleep-dependent memory processing.</strong> Sleep and Biol. Rhythms 4:16-26 (2006).</div>]]></content:encoded></item></channel></rss>If you would like to create a banner that links to this page (i.e. this validation result), do the following:
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