SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2161849272> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2161849272 endingPage "466" @default.
W2161849272 startingPage "454" @default.
W2161849272 abstract "Sleep is thought to consolidate changes in synaptic strength, but the underlying mechanisms are unknown. We investigated the cellular events involved in this process during ocular dominance plasticity (ODP)-a canonical form of in vivo cortical plasticity triggered by monocular deprivation (MD) and consolidated by sleep via undetermined, activity-dependent mechanisms. We find that sleep consolidates ODP primarily by strengthening cortical responses to nondeprived eye stimulation. Consolidation is inhibited by reversible, intracortical antagonism of NMDA receptors (NMDARs) or cAMP-dependent protein kinase (PKA) during post-MD sleep. Consolidation is also associated with sleep-dependent increases in the activity of remodeling neurons and in the phosphorylation of proteins required for potentiation of glutamatergic synapses. These findings demonstrate that synaptic strengthening via NMDAR and PKA activity is a key step in sleep-dependent consolidation of ODP." @default.
W2161849272 created "2016-06-24" @default.
W2161849272 creator A5006437096 @default.
W2161849272 creator A5041906763 @default.
W2161849272 creator A5046150737 @default.
W2161849272 creator A5051919903 @default.
W2161849272 creator A5061970781 @default.
W2161849272 creator A5069669908 @default.
W2161849272 creator A5075095442 @default.
W2161849272 creator A5088766184 @default.
W2161849272 date "2009-02-01" @default.
W2161849272 modified "2023-10-16" @default.
W2161849272 title "Mechanisms of Sleep-Dependent Consolidation of Cortical Plasticity" @default.
W2161849272 cites W139013585 @default.
W2161849272 cites W1523008448 @default.
W2161849272 cites W1549755983 @default.
W2161849272 cites W1580901834 @default.
W2161849272 cites W1609834322 @default.
W2161849272 cites W1842266333 @default.
W2161849272 cites W1953105366 @default.
W2161849272 cites W1969003018 @default.
W2161849272 cites W1969313300 @default.
W2161849272 cites W1971133244 @default.
W2161849272 cites W1973533307 @default.
W2161849272 cites W1975402449 @default.
W2161849272 cites W1977293696 @default.
W2161849272 cites W1997369378 @default.
W2161849272 cites W2001097170 @default.
W2161849272 cites W2003226966 @default.
W2161849272 cites W2003856118 @default.
W2161849272 cites W2011839088 @default.
W2161849272 cites W2013825587 @default.
W2161849272 cites W2014388728 @default.
W2161849272 cites W2017171491 @default.
W2161849272 cites W2017584131 @default.
W2161849272 cites W2018689751 @default.
W2161849272 cites W2027813810 @default.
W2161849272 cites W2028813185 @default.
W2161849272 cites W2031459113 @default.
W2161849272 cites W2042250385 @default.
W2161849272 cites W2045905040 @default.
W2161849272 cites W2056564466 @default.
W2161849272 cites W2056769976 @default.
W2161849272 cites W2071215075 @default.
W2161849272 cites W2071290167 @default.
W2161849272 cites W2086233863 @default.
W2161849272 cites W2095484045 @default.
W2161849272 cites W2097399653 @default.
W2161849272 cites W2104220712 @default.
W2161849272 cites W2104643304 @default.
W2161849272 cites W2109919607 @default.
W2161849272 cites W2109983326 @default.
W2161849272 cites W2116009634 @default.
W2161849272 cites W2117223267 @default.
W2161849272 cites W2124965245 @default.
W2161849272 cites W2128797181 @default.
W2161849272 cites W2128840781 @default.
W2161849272 cites W2134646026 @default.
W2161849272 cites W2138032667 @default.
W2161849272 cites W2141998004 @default.
W2161849272 cites W2158253208 @default.
W2161849272 cites W2159279126 @default.
W2161849272 cites W2165375176 @default.
W2161849272 cites W2168101731 @default.
W2161849272 cites W2171903257 @default.
W2161849272 cites W2412037636 @default.
W2161849272 cites W2415071158 @default.
W2161849272 doi "https://doi.org/10.1016/j.neuron.2009.01.007" @default.
W2161849272 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2665998" @default.
W2161849272 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19217381" @default.
W2161849272 hasPublicationYear "2009" @default.
W2161849272 type Work @default.
W2161849272 sameAs 2161849272 @default.
W2161849272 citedByCount "209" @default.
W2161849272 countsByYear W21618492722012 @default.
W2161849272 countsByYear W21618492722013 @default.
W2161849272 countsByYear W21618492722014 @default.
W2161849272 countsByYear W21618492722015 @default.
W2161849272 countsByYear W21618492722016 @default.
W2161849272 countsByYear W21618492722017 @default.
W2161849272 countsByYear W21618492722018 @default.
W2161849272 countsByYear W21618492722019 @default.
W2161849272 countsByYear W21618492722020 @default.
W2161849272 countsByYear W21618492722021 @default.
W2161849272 countsByYear W21618492722022 @default.
W2161849272 countsByYear W21618492722023 @default.
W2161849272 crossrefType "journal-article" @default.
W2161849272 hasAuthorship W2161849272A5006437096 @default.
W2161849272 hasAuthorship W2161849272A5041906763 @default.
W2161849272 hasAuthorship W2161849272A5046150737 @default.
W2161849272 hasAuthorship W2161849272A5051919903 @default.
W2161849272 hasAuthorship W2161849272A5061970781 @default.
W2161849272 hasAuthorship W2161849272A5069669908 @default.
W2161849272 hasAuthorship W2161849272A5075095442 @default.
W2161849272 hasAuthorship W2161849272A5088766184 @default.
W2161849272 hasBestOaLocation W21618492721 @default.
W2161849272 hasConcept C111919701 @default.
W2161849272 hasConcept C15744967 @default.