Literature DB >> 27451143

Contextual fear conditioning induces differential alternative splicing.

Shane G Poplawski1, Lucia Peixoto2, Giulia S Porcari3, Mathieu E Wimmer4, Anna G McNally1, Keiko Mizuno5, K Peter Giese5, Snehajyoti Chatterjee3, John N Koberstein6, Davide Risso7, Terence P Speed8, Ted Abel9.   

Abstract

The process of memory consolidation requires transcription and translation to form long-term memories. Significant effort has been dedicated to understanding changes in hippocampal gene expression after contextual fear conditioning. However, alternative splicing by differential transcript regulation during this time period has received less attention. Here, we use RNA-seq to determine exon-level changes in expression after contextual fear conditioning and retrieval. Our work reveals that a short variant of Homer1, Ania-3, is regulated by contextual fear conditioning. The ribosome biogenesis regulator Las1l, small nucleolar RNA Snord14e, and the RNA-binding protein Rbm3 also change specific transcript usage after fear conditioning. The changes in Ania-3 and Las1l are specific to either the new context or the context-shock association, while the changes in Rbm3 occur after context or shock only. Our analysis revealed novel transcript regulation of previously undetected changes after learning, revealing the importance of high throughput sequencing approaches in the study of gene expression changes after learning.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Alternative splicing; Fear conditioning; Homer1; RNA-seq; Transcription

Mesh:

Substances:

Year:  2016        PMID: 27451143      PMCID: PMC5028328          DOI: 10.1016/j.nlm.2016.07.018

Source DB:  PubMed          Journal:  Neurobiol Learn Mem        ISSN: 1074-7427            Impact factor:   3.109


  44 in total

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Authors:  Philip Barnes; Anne Kirtley; Kerrie L Thomas
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4.  Normalization of RNA-seq data using factor analysis of control genes or samples.

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5.  Different training procedures recruit either one or two critical periods for contextual memory consolidation, each of which requires protein synthesis and PKA.

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Journal:  Hippocampus       Date:  2009-09       Impact factor: 3.899

7.  Homer1 alternative splicing is regulated by gonadotropin-releasing hormone and modulates gonadotropin gene expression.

Authors:  Qian Wang; Maria D Chikina; Hanna Pincas; Stuart C Sealfon
Journal:  Mol Cell Biol       Date:  2014-03-03       Impact factor: 4.272

8.  Memory acquisition and retrieval impact different epigenetic processes that regulate gene expression.

Authors:  Lucia L Peixoto; Mathieu E Wimmer; Shane G Poplawski; Jennifer C Tudor; Charles A Kenworthy; Shichong Liu; Keiko Mizuno; Benjamin A Garcia; Nancy R Zhang; K Giese; Ted Abel
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Authors:  Mark D Robinson; Davis J McCarthy; Gordon K Smyth
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Review 2.  Experience-dependent neural plasticity, learning, and memory in the era of epitranscriptomics.

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Review 3.  Nuclease integrated kinase super assemblies (NiKs) and their role in RNA processing.

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4.  Focus on females: A less biased approach for studying strategies and mechanisms of memory.

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Journal:  Curr Opin Behav Sci       Date:  2018-05-07

5.  Learning-dependent chromatin remodeling highlights noncoding regulatory regions linked to autism.

Authors:  John N Koberstein; Shane G Poplawski; Mathieu E Wimmer; Giulia Porcari; Charlly Kao; Bruce Gomes; Davide Risso; Hakon Hakonarson; Nancy R Zhang; Robert T Schultz; Ted Abel; Lucia Peixoto
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Review 6.  BET bromodomains as novel epigenetic targets for brain health and disease.

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Journal:  Neuropharmacology       Date:  2020-09-15       Impact factor: 5.250

7.  Alcohol Causes Lasting Differential Transcription in Drosophila Mushroom Body Neurons.

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8.  MeCP2 gates spatial learning-induced alternative splicing events in the mouse hippocampus.

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Journal:  Mol Brain       Date:  2020-11-17       Impact factor: 4.041

9.  Translational changes induced by acute sleep deprivation uncovered by TRAP-Seq.

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10.  The CBP KIX domain regulates long-term memory and circadian activity.

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