CaMKII isoforms in learning and memory: Localization and function

Calcium/calmodulin-dependent protein kinase II (CaMKII) is a key protein kinase in neural plasticity and memory, as have been shown in several studies since the first evidence in long-term potentiation (LTP) 30 years ago. However, most of the studies were focused mainly in one of the four isoforms o...

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Detalles Bibliográficos
Publicado: 2018
Materias:
CaMKII
CaMKIIα
CaMKIIβ
CaMKIIγ
CaMKIIδ
Learning
Memory
calcium calmodulin dependent protein kinase II
calcium calmodulin dependent protein kinase II alpha
calcium calmodulin dependent protein kinase II beta
calcium calmodulin dependent protein kinase II delta
calcium calmodulin dependent protein kinase II gamma
isoprotein
n methyl dextro aspartic acid receptor
unclassified drug
autophosphorylation
brain injury
calcium signaling
cell migration
gene expression
glutamatergic synapse
human
learning
learning disorder
long term potentiation
memory
nerve cell plasticity
nerve growth
neurite outgrowth
neurotransmitter release
nonhuman
protein expression
protein phosphorylation
protein processing
regulatory mechanism
reperfusion injury
Review
signal transduction
spatial memory
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_16625099_v11_n_p_Zalcman
http://hdl.handle.net/20.500.12110/paper_16625099_v11_n_p_Zalcman
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_16625099_v11_n_p_Zalcman
record_format dspace
spelling paper:paper_16625099_v11_n_p_Zalcman2023-06-08T16:25:46Z CaMKII isoforms in learning and memory: Localization and function CaMKII CaMKIIα CaMKIIβ CaMKIIγ CaMKIIδ Learning Memory calcium calmodulin dependent protein kinase II calcium calmodulin dependent protein kinase II alpha calcium calmodulin dependent protein kinase II beta calcium calmodulin dependent protein kinase II delta calcium calmodulin dependent protein kinase II gamma isoprotein n methyl dextro aspartic acid receptor unclassified drug autophosphorylation brain injury calcium signaling cell migration gene expression glutamatergic synapse human learning learning disorder long term potentiation memory nerve cell plasticity nerve growth neurite outgrowth neurotransmitter release nonhuman protein expression protein phosphorylation protein processing regulatory mechanism reperfusion injury Review signal transduction spatial memory Calcium/calmodulin-dependent protein kinase II (CaMKII) is a key protein kinase in neural plasticity and memory, as have been shown in several studies since the first evidence in long-term potentiation (LTP) 30 years ago. However, most of the studies were focused mainly in one of the four isoforms of this protein kinase, the CaMKIIα. Here we review the characteristics and the role of each of the four isoforms in learning, memory and neural plasticity, considering the well known local role of α and β isoforms in dendritic terminals as well as recent findings about the γ isoform as calcium signals transducers from synapse to nucleus and δ isoform as a kinase required for a more persistent memory trace. © 2018 Zalcman, Federman and Romano. 2018 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_16625099_v11_n_p_Zalcman http://hdl.handle.net/20.500.12110/paper_16625099_v11_n_p_Zalcman
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic CaMKII
CaMKIIα
CaMKIIβ
CaMKIIγ
CaMKIIδ
Learning
Memory
calcium calmodulin dependent protein kinase II
calcium calmodulin dependent protein kinase II alpha
calcium calmodulin dependent protein kinase II beta
calcium calmodulin dependent protein kinase II delta
calcium calmodulin dependent protein kinase II gamma
isoprotein
n methyl dextro aspartic acid receptor
unclassified drug
autophosphorylation
brain injury
calcium signaling
cell migration
gene expression
glutamatergic synapse
human
learning
learning disorder
long term potentiation
memory
nerve cell plasticity
nerve growth
neurite outgrowth
neurotransmitter release
nonhuman
protein expression
protein phosphorylation
protein processing
regulatory mechanism
reperfusion injury
Review
signal transduction
spatial memory
spellingShingle CaMKII
CaMKIIα
CaMKIIβ
CaMKIIγ
CaMKIIδ
Learning
Memory
calcium calmodulin dependent protein kinase II
calcium calmodulin dependent protein kinase II alpha
calcium calmodulin dependent protein kinase II beta
calcium calmodulin dependent protein kinase II delta
calcium calmodulin dependent protein kinase II gamma
isoprotein
n methyl dextro aspartic acid receptor
unclassified drug
autophosphorylation
brain injury
calcium signaling
cell migration
gene expression
glutamatergic synapse
human
learning
learning disorder
long term potentiation
memory
nerve cell plasticity
nerve growth
neurite outgrowth
neurotransmitter release
nonhuman
protein expression
protein phosphorylation
protein processing
regulatory mechanism
reperfusion injury
Review
signal transduction
spatial memory
CaMKII isoforms in learning and memory: Localization and function
topic_facet CaMKII
CaMKIIα
CaMKIIβ
CaMKIIγ
CaMKIIδ
Learning
Memory
calcium calmodulin dependent protein kinase II
calcium calmodulin dependent protein kinase II alpha
calcium calmodulin dependent protein kinase II beta
calcium calmodulin dependent protein kinase II delta
calcium calmodulin dependent protein kinase II gamma
isoprotein
n methyl dextro aspartic acid receptor
unclassified drug
autophosphorylation
brain injury
calcium signaling
cell migration
gene expression
glutamatergic synapse
human
learning
learning disorder
long term potentiation
memory
nerve cell plasticity
nerve growth
neurite outgrowth
neurotransmitter release
nonhuman
protein expression
protein phosphorylation
protein processing
regulatory mechanism
reperfusion injury
Review
signal transduction
spatial memory
description Calcium/calmodulin-dependent protein kinase II (CaMKII) is a key protein kinase in neural plasticity and memory, as have been shown in several studies since the first evidence in long-term potentiation (LTP) 30 years ago. However, most of the studies were focused mainly in one of the four isoforms of this protein kinase, the CaMKIIα. Here we review the characteristics and the role of each of the four isoforms in learning, memory and neural plasticity, considering the well known local role of α and β isoforms in dendritic terminals as well as recent findings about the γ isoform as calcium signals transducers from synapse to nucleus and δ isoform as a kinase required for a more persistent memory trace. © 2018 Zalcman, Federman and Romano.
title CaMKII isoforms in learning and memory: Localization and function
title_short CaMKII isoforms in learning and memory: Localization and function
title_full CaMKII isoforms in learning and memory: Localization and function
title_fullStr CaMKII isoforms in learning and memory: Localization and function
title_full_unstemmed CaMKII isoforms in learning and memory: Localization and function
title_sort camkii isoforms in learning and memory: localization and function
publishDate 2018
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_16625099_v11_n_p_Zalcman
http://hdl.handle.net/20.500.12110/paper_16625099_v11_n_p_Zalcman
_version_ 1768546041277186048

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