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  41.        <title>Nature Reviews Neuroscience</title>
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  47.            <title><![CDATA[Brain functional networks and psychiatric disorders]]></title>
  48.            <link>https://www.nature.com/articles/s41583-024-00827-9</link>
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  50.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 17 May 2024; <a href="https://www.nature.com/articles/s41583-024-00827-9">doi:10.1038/s41583-024-00827-9</a></p>Mendelian randomization analyses reveal potential causal associations between dysfunction of brain functional networks and psychiatric disorders.]]></content:encoded>
  51.            <dc:title><![CDATA[Brain functional networks and psychiatric disorders]]></dc:title>
  52.            <dc:creator>Isobel Leake</dc:creator>
  53.            <dc:identifier>doi:10.1038/s41583-024-00827-9</dc:identifier>
  54.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-17; | doi:10.1038/s41583-024-00827-9</dc:source>
  55.            <dc:date>2024-05-17</dc:date>
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  62.            <title><![CDATA[Mapping the social memory network]]></title>
  63.            <link>https://www.nature.com/articles/s41583-024-00826-w</link>
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  65.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 15 May 2024; <a href="https://www.nature.com/articles/s41583-024-00826-w">doi:10.1038/s41583-024-00826-w</a></p>Mapping the social memory network]]></content:encoded>
  66.            <dc:title><![CDATA[Mapping the social memory network]]></dc:title>
  67.            <dc:creator>Maria Papatriantafyllou</dc:creator>
  68.            <dc:identifier>doi:10.1038/s41583-024-00826-w</dc:identifier>
  69.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-15; | doi:10.1038/s41583-024-00826-w</dc:source>
  70.            <dc:date>2024-05-15</dc:date>
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  77.            <title><![CDATA[The speech neuroprosthesis]]></title>
  78.            <link>https://www.nature.com/articles/s41583-024-00819-9</link>
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  80.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 14 May 2024; <a href="https://www.nature.com/articles/s41583-024-00819-9">doi:10.1038/s41583-024-00819-9</a></p>A clinically viable speech neuroprosthesis could restore natural speech to individuals with vocal-tract paralysis. In this Review, Silva et al. discuss rapid progress in neural interfaces and computational algorithms for decoding speech from cortical activity and propose evaluation metrics to help standardize speech neuroprostheses.]]></content:encoded>
  81.            <dc:title><![CDATA[The speech neuroprosthesis]]></dc:title>
  82.            <dc:creator>Alexander B. Silva</dc:creator><dc:creator>Kaylo T. Littlejohn</dc:creator><dc:creator>Jessie R. Liu</dc:creator><dc:creator>David A. Moses</dc:creator><dc:creator>Edward F. Chang</dc:creator>
  83.            <dc:identifier>doi:10.1038/s41583-024-00819-9</dc:identifier>
  84.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-14; | doi:10.1038/s41583-024-00819-9</dc:source>
  85.            <dc:date>2024-05-14</dc:date>
  86.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
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  90.    
  91.        <item rdf:about="https://www.nature.com/articles/s41583-024-00825-x">
  92.            <title><![CDATA[Unravelling nature and nurture in cortical (re)organization]]></title>
  93.            <link>https://www.nature.com/articles/s41583-024-00825-x</link>
  94.            <content:encoded>
  95.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 08 May 2024; <a href="https://www.nature.com/articles/s41583-024-00825-x">doi:10.1038/s41583-024-00825-x</a></p>In this Journal Club, Tina Liu describes a 1988 paper that revealed the capacity of the sensory cortex for functional reorganization]]></content:encoded>
  96.            <dc:title><![CDATA[Unravelling nature and nurture in cortical (re)organization]]></dc:title>
  97.            <dc:creator>Tina T. Liu</dc:creator>
  98.            <dc:identifier>doi:10.1038/s41583-024-00825-x</dc:identifier>
  99.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-08; | doi:10.1038/s41583-024-00825-x</dc:source>
  100.            <dc:date>2024-05-08</dc:date>
  101.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  102.            <prism:doi>10.1038/s41583-024-00825-x</prism:doi>
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  105.    
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  107.            <title><![CDATA[Remapping revisited: how the hippocampus represents different spaces]]></title>
  108.            <link>https://www.nature.com/articles/s41583-024-00817-x</link>
  109.            <content:encoded>
  110.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 07 May 2024; <a href="https://www.nature.com/articles/s41583-024-00817-x">doi:10.1038/s41583-024-00817-x</a></p>The location-specific firing of hippocampal place cells changes when an animal enters a new environment, a phenomenon known as ‘remapping’. In this Perspective, André A. Fenton challenges standard models of place cell remapping and proposes a key role for the ‘re-registration’ of internally organized place cell population dynamics in the encoding of distinct environments.]]></content:encoded>
  111.            <dc:title><![CDATA[Remapping revisited: how the hippocampus represents different spaces]]></dc:title>
  112.            <dc:creator>André A. Fenton</dc:creator>
  113.            <dc:identifier>doi:10.1038/s41583-024-00817-x</dc:identifier>
  114.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-07; | doi:10.1038/s41583-024-00817-x</dc:source>
  115.            <dc:date>2024-05-07</dc:date>
  116.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  117.            <prism:doi>10.1038/s41583-024-00817-x</prism:doi>
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  120.    
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  122.            <title><![CDATA[Stress drives seeking of starvation]]></title>
  123.            <link>https://www.nature.com/articles/s41583-024-00821-1</link>
  124.            <content:encoded>
  125.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 02 May 2024; <a href="https://www.nature.com/articles/s41583-024-00821-1">doi:10.1038/s41583-024-00821-1</a></p>A subset of female mice that show anxiety-related traits seek out a starvation-like state when exposed to repeated stress]]></content:encoded>
  126.            <dc:title><![CDATA[Stress drives seeking of starvation]]></dc:title>
  127.            <dc:creator>Katherine Whalley</dc:creator>
  128.            <dc:identifier>doi:10.1038/s41583-024-00821-1</dc:identifier>
  129.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-02; | doi:10.1038/s41583-024-00821-1</dc:source>
  130.            <dc:date>2024-05-02</dc:date>
  131.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  132.            <prism:doi>10.1038/s41583-024-00821-1</prism:doi>
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  135.    
  136.        <item rdf:about="https://www.nature.com/articles/s41583-024-00820-2">
  137.            <title><![CDATA[Skill switching]]></title>
  138.            <link>https://www.nature.com/articles/s41583-024-00820-2</link>
  139.            <content:encoded>
  140.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 25 April 2024; <a href="https://www.nature.com/articles/s41583-024-00820-2">doi:10.1038/s41583-024-00820-2</a></p>The main direction of motor skill-specific information between rat primary motor cortex and dorsolateral striatum is shown to switch from cortex-predominant before learning to striatum-predominant after learning.]]></content:encoded>
  141.            <dc:title><![CDATA[Skill switching]]></dc:title>
  142.            <dc:creator>Sian Lewis</dc:creator>
  143.            <dc:identifier>doi:10.1038/s41583-024-00820-2</dc:identifier>
  144.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-25; | doi:10.1038/s41583-024-00820-2</dc:source>
  145.            <dc:date>2024-04-25</dc:date>
  146.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  147.            <prism:doi>10.1038/s41583-024-00820-2</prism:doi>
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  150.    
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  152.            <title><![CDATA[Engram mechanisms of memory linking and identity]]></title>
  153.            <link>https://www.nature.com/articles/s41583-024-00814-0</link>
  154.            <content:encoded>
  155.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 25 April 2024; <a href="https://www.nature.com/articles/s41583-024-00814-0">doi:10.1038/s41583-024-00814-0</a></p>Many cognitive functions rely on the ability to link distinct but related memories, while retaining the capacity to recall the individual details of the linked memories. Inokuchi and colleagues describe evidence that memory linking involves engram overlap and discuss the mechanisms that regulate this process.]]></content:encoded>
  156.            <dc:title><![CDATA[Engram mechanisms of memory linking and identity]]></dc:title>
  157.            <dc:creator>Ali Choucry</dc:creator><dc:creator>Masanori Nomoto</dc:creator><dc:creator>Kaoru Inokuchi</dc:creator>
  158.            <dc:identifier>doi:10.1038/s41583-024-00814-0</dc:identifier>
  159.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-25; | doi:10.1038/s41583-024-00814-0</dc:source>
  160.            <dc:date>2024-04-25</dc:date>
  161.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
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