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bp(GO:"sensory processing")

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Entity

Name
sensory processing
Namespace
go
Namespace Version
20180921
Namespace URL
https://raw.githubusercontent.com/pharmacome/terminology/b46b65c3da259b6e86026514dfececab7c22a11b/external/go-names.belns

Appears in Networks 3

Alzheimer's Disease: Targeting the Cholinergic System v1.0.0

Neural Systems Governed by Nicotinic Acetylcholine Receptors: Emerging Hypotheses v1.0.0

Clinical presentation of a complex neurodevelopmental disorder caused by mutations in ADNP v1.0.0

In-Edges 7

bp(GO:"synaptic transmission, cholinergic") association bp(GO:"sensory processing") View Subject | View Object

The cholinergic system is involved in critical physiological processes, such as attention, learning, memory, stress response, wakefulness and sleep, and sensory information PubMed:26813123

Appears in Networks:

a(HBP:"GTS-21") increases bp(GO:"sensory processing") View Subject | View Object

It improves sensory inhibition in schizophrenics and also moderately improves their neuropsychological deficits in attention (Olincy et al., 2006) PubMed:21482353

Appears in Networks:
Annotations
MeSH
Schizophrenia

a(HP:"inhibitory interneuron") regulates bp(GO:"sensory processing") View Subject | View Object

alpha7 nAChRs on inhibitory interneurons throughout the hippocampus and presynaptic alpha7 nAChRs on mossy fiber terminals in the dentate gyrus participate in the control of sensory response in the hippocampus (Gray et al., 1996; Alkondon et al., 1999 PubMed:21482353

Appears in Networks:
Annotations
MeSH
Dentate Gyrus
MeSH
Hippocampus

a(MESH:"alpha7 Nicotinic Acetylcholine Receptor") regulates bp(GO:"sensory processing") View Subject | View Object

alpha7 nAChRs on inhibitory interneurons throughout the hippocampus and presynaptic alpha7 nAChRs on mossy fiber terminals in the dentate gyrus participate in the control of sensory response in the hippocampus (Gray et al., 1996; Alkondon et al., 1999 PubMed:21482353

Appears in Networks:
Annotations
MeSH
Dentate Gyrus
MeSH
Hippocampus

a(MESH:"alpha7 Nicotinic Acetylcholine Receptor") increases bp(GO:"sensory processing") View Subject | View Object

Three lines of evidence support the possibility that the failure of sensory inhibition in schizophrenia results from decreased expression of alpha7 nAChRs PubMed:21482353

Appears in Networks:
Annotations
MeSH
Schizophrenia

bp(GO:"synaptic transmission, cholinergic") association bp(GO:"sensory processing") View Subject | View Object

In 2011, we know that cholinergic actions in the brain govern various processes: cognition (attention and executive function) (Couey et al., 2007; Levin and Rezvani, 2007; Heath and Picciotto, 2009; Howe et al., 2010), learning and memory (Gould, 2006; Couey et al., 2007; Levin and Rezvani, 2007), mood (anxiety, depression) (Picciotto et al., 2008), reward (addiction, craving) (Tang and Dani, 2009), and sensory processing (Heath and Picciotto, 2009) PubMed:21482353

Appears in Networks:
Annotations
MeSH
Brain

p(HGNC:ADNP) increases bp(GO:"sensory processing") View Subject | View Object

Sixty-seven percent have also been diagnosed with sensory processing disorder. PubMed:29724491

Appears in Networks:

Out-Edges 2

bp(GO:"sensory processing") association bp(GO:"synaptic transmission, cholinergic") View Subject | View Object

The cholinergic system is involved in critical physiological processes, such as attention, learning, memory, stress response, wakefulness and sleep, and sensory information PubMed:26813123

Appears in Networks:

bp(GO:"sensory processing") association bp(GO:"synaptic transmission, cholinergic") View Subject | View Object

In 2011, we know that cholinergic actions in the brain govern various processes: cognition (attention and executive function) (Couey et al., 2007; Levin and Rezvani, 2007; Heath and Picciotto, 2009; Howe et al., 2010), learning and memory (Gould, 2006; Couey et al., 2007; Levin and Rezvani, 2007), mood (anxiety, depression) (Picciotto et al., 2008), reward (addiction, craving) (Tang and Dani, 2009), and sensory processing (Heath and Picciotto, 2009) PubMed:21482353

Appears in Networks:
Annotations
MeSH
Brain

About

BEL Commons is developed and maintained in an academic capacity by Charles Tapley Hoyt and Daniel Domingo-Fernández at the Fraunhofer SCAI Department of Bioinformatics with support from the IMI project, AETIONOMY. It is built on top of PyBEL, an open source project. Please feel free to contact us here to give us feedback or report any issues. Also, see our Publishing Notes and Data Protection information.

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.