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p(RGD:Cdk5r2)

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Entity

Name
Cdk5r2
Namespace
rgd
Namespace Version
20181021
Namespace URL
https://raw.githubusercontent.com/pharmacome/terminology/f2f993e599694ab5ce989cc39d789a499f75db99/external/rgd-names.belns

Appears in Networks 1

Tau Modifications v1.9.5

Tau Modifications Sections of NESTOR

In-Edges 2

a(GO:"dendritic spine") positiveCorrelation p(RGD:Cdk5r2) View Subject | View Object

p39, but not p35, is selectively upregulated by histone acetylation-mediated transcription, underlying the robust increase of Cdk5 activity during rat and mouse neuronal differentiation. Loss of p39 attenuates Cdk5 activity in neurons and preferentially affects phosphorylation of specific Cdk5 targets, leading to aberrant axonal growth and impaired dendritic spine and synapse formation. PubMed:27807169

Appears in Networks:

a(GO:synapse) positiveCorrelation p(RGD:Cdk5r2) View Subject | View Object

p39, but not p35, is selectively upregulated by histone acetylation-mediated transcription, underlying the robust increase of Cdk5 activity during rat and mouse neuronal differentiation. Loss of p39 attenuates Cdk5 activity in neurons and preferentially affects phosphorylation of specific Cdk5 targets, leading to aberrant axonal growth and impaired dendritic spine and synapse formation. PubMed:27807169

Appears in Networks:

Out-Edges 3

p(RGD:Cdk5r2) directlyIncreases act(p(RGD:Cdk5)) View Subject | View Object

p39, but not p35, is selectively upregulated by histone acetylation-mediated transcription, underlying the robust increase of Cdk5 activity during rat and mouse neuronal differentiation. Loss of p39 attenuates Cdk5 activity in neurons and preferentially affects phosphorylation of specific Cdk5 targets, leading to aberrant axonal growth and impaired dendritic spine and synapse formation. PubMed:27807169

Appears in Networks:

p(RGD:Cdk5r2) positiveCorrelation a(GO:"dendritic spine") View Subject | View Object

p39, but not p35, is selectively upregulated by histone acetylation-mediated transcription, underlying the robust increase of Cdk5 activity during rat and mouse neuronal differentiation. Loss of p39 attenuates Cdk5 activity in neurons and preferentially affects phosphorylation of specific Cdk5 targets, leading to aberrant axonal growth and impaired dendritic spine and synapse formation. PubMed:27807169

Appears in Networks:

p(RGD:Cdk5r2) positiveCorrelation a(GO:synapse) View Subject | View Object

p39, but not p35, is selectively upregulated by histone acetylation-mediated transcription, underlying the robust increase of Cdk5 activity during rat and mouse neuronal differentiation. Loss of p39 attenuates Cdk5 activity in neurons and preferentially affects phosphorylation of specific Cdk5 targets, leading to aberrant axonal growth and impaired dendritic spine and synapse formation. PubMed:27807169

Appears in Networks:

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If you find BEL Commons useful in your work, please consider citing: Hoyt, C. T., Domingo-Fernández, D., & Hofmann-Apitius, M. (2018). BEL Commons: an environment for exploration and analysis of networks encoded in Biological Expression Language. Database, 2018(3), 1–11.