Conserved Intron Elements Repress Splicing of a Neuron-Specific C-SRC Exon in Vitro.

Molecular and Cellular Biology - United States
doi 10.1128/mcb.17.5.2970
Full Text
Abstract

Available in full text

Date
Authors
Publisher

American Society for Microbiology

Related search

The Polypyrimidine Tract Binding Protein Binds Upstream of Neural Cell-Specific C-SRC Exon N1 to Repress the Splicing of the Intron Downstream.

Molecular and Cellular Biology
Cell BiologyMolecular Biology
1997English

Intron 7 Conserved Sequence Elements Regulate the Splicing of the SMN Genes

Human Genetics
Genetics
2009English

Identification of a Novel Neuronal C-SRC Exon Expressed in Human Brain.

Molecular and Cellular Biology
Cell BiologyMolecular Biology
1990English

Axonogenesis Is Coordinated by Neuron-Specific Alternative Splicing Programming and Splicing Regulator PTBP2

Neuron
Neuroscience
2019English

Ribozyme Stability, Exon Skipping, and a Potential Role for RNA Helicase in Group I Intron Splicing by Coxiella Burnetii

Journal of Bacteriology
MicrobiologyMolecular Biology
2011English

Exon Recognition in Vertebrate Splicing

Journal of Biological Chemistry
BiochemistryCell BiologyMolecular Biology
1995English

A Synonymous Mutation in SPINK5 Exon 11 Causes Netherton Syndrome by Altering Exonic Splicing Regulatory Elements

Journal of Human Genetics
Genetics
2012English

Intron Size and Exon Evolution in Drosophila

Genetics
Genetics
2005English

Translational Control of Intron Splicing in Eukaryotes

Nature
Multidisciplinary
2008English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2026 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy