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  41.        <title>Nature Reviews Neuroscience</title>
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  47.            <title><![CDATA[Remapping revisited: how the hippocampus represents different spaces]]></title>
  48.            <link>https://www.nature.com/articles/s41583-024-00817-x</link>
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  50.                <![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>
  51.            <dc:title><![CDATA[Remapping revisited: how the hippocampus represents different spaces]]></dc:title>
  52.            <dc:creator>André A. Fenton</dc:creator>
  53.            <dc:identifier>doi:10.1038/s41583-024-00817-x</dc:identifier>
  54.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-07; | doi:10.1038/s41583-024-00817-x</dc:source>
  55.            <dc:date>2024-05-07</dc:date>
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  62.            <title><![CDATA[Stress drives seeking of starvation]]></title>
  63.            <link>https://www.nature.com/articles/s41583-024-00821-1</link>
  64.            <content:encoded>
  65.                <![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>
  66.            <dc:title><![CDATA[Stress drives seeking of starvation]]></dc:title>
  67.            <dc:creator>Katherine Whalley</dc:creator>
  68.            <dc:identifier>doi:10.1038/s41583-024-00821-1</dc:identifier>
  69.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-05-02; | doi:10.1038/s41583-024-00821-1</dc:source>
  70.            <dc:date>2024-05-02</dc:date>
  71.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  72.            <prism:doi>10.1038/s41583-024-00821-1</prism:doi>
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  75.    
  76.        <item rdf:about="https://www.nature.com/articles/s41583-024-00820-2">
  77.            <title><![CDATA[Skill switching]]></title>
  78.            <link>https://www.nature.com/articles/s41583-024-00820-2</link>
  79.            <content:encoded>
  80.                <![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>
  81.            <dc:title><![CDATA[Skill switching]]></dc:title>
  82.            <dc:creator>Sian Lewis</dc:creator>
  83.            <dc:identifier>doi:10.1038/s41583-024-00820-2</dc:identifier>
  84.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-25; | doi:10.1038/s41583-024-00820-2</dc:source>
  85.            <dc:date>2024-04-25</dc:date>
  86.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  87.            <prism:doi>10.1038/s41583-024-00820-2</prism:doi>
  88.            <prism:url>https://www.nature.com/articles/s41583-024-00820-2</prism:url>
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  90.    
  91.        <item rdf:about="https://www.nature.com/articles/s41583-024-00814-0">
  92.            <title><![CDATA[Engram mechanisms of memory linking and identity]]></title>
  93.            <link>https://www.nature.com/articles/s41583-024-00814-0</link>
  94.            <content:encoded>
  95.                <![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>
  96.            <dc:title><![CDATA[Engram mechanisms of memory linking and identity]]></dc:title>
  97.            <dc:creator>Ali Choucry</dc:creator><dc:creator>Masanori Nomoto</dc:creator><dc:creator>Kaoru Inokuchi</dc:creator>
  98.            <dc:identifier>doi:10.1038/s41583-024-00814-0</dc:identifier>
  99.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-25; | doi:10.1038/s41583-024-00814-0</dc:source>
  100.            <dc:date>2024-04-25</dc:date>
  101.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  102.            <prism:doi>10.1038/s41583-024-00814-0</prism:doi>
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  105.    
  106.        <item rdf:about="https://www.nature.com/articles/s41583-024-00813-1">
  107.            <title><![CDATA[The molecular determinants of microglial developmental dynamics]]></title>
  108.            <link>https://www.nature.com/articles/s41583-024-00813-1</link>
  109.            <content:encoded>
  110.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 24 April 2024; <a href="https://www.nature.com/articles/s41583-024-00813-1">doi:10.1038/s41583-024-00813-1</a></p>The developmental colonization of the brain by microglial progenitors and establishment of microglial cell identity set the stage for microglial function in the adult. Barry-Carroll and Gomez-Nicola describe the mechanisms that regulate the development of microglia, including their origins, infiltration and colonization of the brain, proliferation and fate determination.]]></content:encoded>
  111.            <dc:title><![CDATA[The molecular determinants of microglial developmental dynamics]]></dc:title>
  112.            <dc:creator>Liam Barry-Carroll</dc:creator><dc:creator>Diego Gomez-Nicola</dc:creator>
  113.            <dc:identifier>doi:10.1038/s41583-024-00813-1</dc:identifier>
  114.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-24; | doi:10.1038/s41583-024-00813-1</dc:source>
  115.            <dc:date>2024-04-24</dc:date>
  116.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  117.            <prism:doi>10.1038/s41583-024-00813-1</prism:doi>
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  119.        </item>
  120.    
  121.        <item rdf:about="https://www.nature.com/articles/s41583-024-00818-w">
  122.            <title><![CDATA[Attentional capture]]></title>
  123.            <link>https://www.nature.com/articles/s41583-024-00818-w</link>
  124.            <content:encoded>
  125.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 15 April 2024; <a href="https://www.nature.com/articles/s41583-024-00818-w">doi:10.1038/s41583-024-00818-w</a></p>A large network of brain regions is involved in salient distractor processing.]]></content:encoded>
  126.            <dc:title><![CDATA[Attentional capture]]></dc:title>
  127.            <dc:creator>Isobel Leake</dc:creator>
  128.            <dc:identifier>doi:10.1038/s41583-024-00818-w</dc:identifier>
  129.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-15; | doi:10.1038/s41583-024-00818-w</dc:source>
  130.            <dc:date>2024-04-15</dc:date>
  131.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  132.            <prism:doi>10.1038/s41583-024-00818-w</prism:doi>
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  134.        </item>
  135.    
  136.        <item rdf:about="https://www.nature.com/articles/s41583-024-00802-4">
  137.            <title><![CDATA[The language network as a natural kind within the broader landscape of the human brain]]></title>
  138.            <link>https://www.nature.com/articles/s41583-024-00802-4</link>
  139.            <content:encoded>
  140.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 12 April 2024; <a href="https://www.nature.com/articles/s41583-024-00802-4">doi:10.1038/s41583-024-00802-4</a></p>Many brain areas support complex language processing behaviours. In this Review, Fedorenko et al. disentangle the ‘core’ language system as functionally distinct from the perceptual and motor brain areas and knowledge and reasoning systems it closely interacts with during language comprehension and production.]]></content:encoded>
  141.            <dc:title><![CDATA[The language network as a natural kind within the broader landscape of the human brain]]></dc:title>
  142.            <dc:creator>Evelina Fedorenko</dc:creator><dc:creator>Anna A. Ivanova</dc:creator><dc:creator>Tamar I. Regev</dc:creator>
  143.            <dc:identifier>doi:10.1038/s41583-024-00802-4</dc:identifier>
  144.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-12; | doi:10.1038/s41583-024-00802-4</dc:source>
  145.            <dc:date>2024-04-12</dc:date>
  146.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
  147.            <prism:doi>10.1038/s41583-024-00802-4</prism:doi>
  148.            <prism:url>https://www.nature.com/articles/s41583-024-00802-4</prism:url>
  149.        </item>
  150.    
  151.        <item rdf:about="https://www.nature.com/articles/s41583-024-00812-2">
  152.            <title><![CDATA[Key genes and convergent pathogenic mechanisms in Parkinson disease]]></title>
  153.            <link>https://www.nature.com/articles/s41583-024-00812-2</link>
  154.            <content:encoded>
  155.                <![CDATA[<p>Nature Reviews Neuroscience, Published online: 10 April 2024; <a href="https://www.nature.com/articles/s41583-024-00812-2">doi:10.1038/s41583-024-00812-2</a></p>Parkinson disease (PD) has been linked to dysfunction in a number of key intracellular signalling pathways that contribute to disease pathology. Coukos and Krainc describe the physiological functions of a selection of PD-linked proteins and their convergent effects on mitochondrial, lysosomal and synaptic dysfunction in PD.]]></content:encoded>
  156.            <dc:title><![CDATA[Key genes and convergent pathogenic mechanisms in Parkinson disease]]></dc:title>
  157.            <dc:creator>Robert Coukos</dc:creator><dc:creator>Dimitri Krainc</dc:creator>
  158.            <dc:identifier>doi:10.1038/s41583-024-00812-2</dc:identifier>
  159.            <dc:source>Nature Reviews Neuroscience, Published online: 2024-04-10; | doi:10.1038/s41583-024-00812-2</dc:source>
  160.            <dc:date>2024-04-10</dc:date>
  161.            <prism:publicationName>Nature Reviews Neuroscience</prism:publicationName>
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