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{
"n": null,
"doi": "10.1016/j.cub.2021.09.042",
"claim": "Here, we sought to determine whether higher order visual cortical areas lateromedial (LM), anterolateral (AL), posteromedial (PM), and anteromedial (AM) have specialized anatomical and physiological…",
"cite_key": "Li2021a",
"evidence": "Cortical visual processing transforms features of the external world into increasingly complex and specialized neuronal representations. These transformations arise in part through target-specific routing of information; however, within-area computations may also contribute to area-specific function. Here, we sought to determine whether higher order visual cortical areas lateromedial (LM), anterolateral (AL), posteromedial (PM), and anteromedial (AM) have specialized anatomical and physiological...",
"effect_size": "In addition, we find that despite a lack of an overall difference in PV cell density across areas, there are some significant differences when separating by layers: PV cells in L6 are significantly more dense in AM compared to LM and AL, and PV cells in L5 are significantly denser in LM and AL versus AM (PV: one-way ANOVA with post hoc Tukey tests; L5 p=0.049, LM vs PM p=0.044; L6 p=0.008; LM vs PM p=0.011, AL vs PM p=0.037; n=8 mice).",
"text_access": "fulltext",
"study_system": "mouse; V1, visual cortex; whole-cell patch, optogenetics; Current biology : CB",
"argument_role": "supporting",
"replication_status": "single_study",
"claim_source_sentence": "Here, we sought to determine whether higher order visual cortical areas lateromedial (LM), anterolateral (AL), posteromedial (PM), and anteromedial (AM) have specialized anatomical and physiological properties by using a combination of whole-cell recordings and optogenetic stimulation of primary visual cortex (V1) axons in vitro.",
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"effect_size_source_sentence": "In addition, we find that despite a lack of an overall difference in PV cell density across areas, there are some significant differences when separating by layers: PV cells in L6 are significantly more dense in AM compared to LM and AL, and PV cells in L5 are significantly denser in LM and AL versus AM (PV: one-way ANOVA with post hoc Tukey tests; L5 p=0.049, LM vs PM p=0.044; L6 p=0.008; LM vs PM p=0.011, AL vs PM p=0.037; n=8 mice)."
}- effect_size
In addition, we find that despite a lack of an overall difference in PV cell density across areas, there are some significant differences when separating by layers: PV cells in L6 are significantly more dense in AM compared to LM and AL, and PV cells in L5 are significantly denser in LM and AL versus AM (PV: one-way ANOVA with post hoc Tukey tests; L5 p=0.049, LM vs PM p=0.044; L6 p=0.008; LM vs PM p=0.011, AL vs PM p=0.037; n=8 mice).
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]
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Here, we sought to determine whether higher order visual cortical areas lateromedial (LM), anterolateral (AL), posteromedial (PM), and anteromedial (AM) have specialized anatomical and physiological properties by using a combination of whole-cell recordings and optogenetic stimulation of primary visual cortex (V1) axons in vitro.
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"Local review repositories are read-only inputs.",
"SciDEX stores paper metadata, structured evidence, file pointers, and short citation contexts; it does not copy full review prose."
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Cortical visual processing transforms features of the external world into increasingly complex and specialized neuronal representations. These transformations arise in part through target-specific routing of information; however, within-area computations may also contribute to area-specific function. Here, we sought to determine whether higher order visual cortical areas lateromedial (LM), anterolateral (AL), posteromedial (PM), and anteromedial (AM) have specialized anatomical and physiological...