R Eric Blue
Overview
Explore the profile of R Eric Blue including associated specialties, affiliations and a list of published articles.
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Articles
14
Citations
156
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0
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Recent Articles
1.
RBFOX2 regulated EYA3 isoforms partner with SIX4 or ZBTB1 to control transcription during myogenesis
Wiedner H, Blue R, Sadovsky M, Mills C, Wehrens X, Herring L, et al.
iScience
. 2023 Nov;
26(11):108258.
PMID: 38026174
Alternative splicing is a prevalent gene-regulatory mechanism, with over 95% of multi-exon human genes estimated to be alternatively spliced. Here, we describe a tissue-specific, developmentally regulated, highly conserved, and disease-associated...
2.
Hinkle E, Blue R, Tsai Y, Combs M, Davi J, Coffey A, et al.
Commun Biol
. 2022 Oct;
5(1):1080.
PMID: 36216866
No abstract available.
3.
Hinkle E, Blue R, Tsai Y, Combs M, Davi J, Coffey A, et al.
Commun Biol
. 2022 Sep;
5(1):987.
PMID: 36123433
Alternative splicing is an RNA processing mechanism involved in skeletal muscle development and pathology. Muscular diseases exhibit splicing alterations and changes in mechanobiology leading us to investigate the interconnection between...
4.
Gentile G, Gamarra J, Engels N, Blue R, Hoerr I, Wiedner H, et al.
FASEB J
. 2022 Jul;
36(8):e22441.
PMID: 35816155
Vesicle-mediated transport is necessary for maintaining cellular homeostasis and proper signaling. The synaptosome-associated protein 23 (SNAP23) is a member of the SNARE protein family and mediates the vesicle docking and...
5.
Wiedner H, Torres E, Blue R, Tsai Y, Parker J, Giudice J
FEBS J
. 2022 Jun;
289(21):6799-6816.
PMID: 35724320
Epigenetic regulatory mechanisms are increasingly recognized as crucial determinants of cellular specification and differentiation. During muscle cell differentiation (myogenesis), extensive remodelling of histone acetylation and methylation occurs. Several of these...
6.
Hinkle E, Wiedner H, Torres E, Jackson M, Black A, Blue R, et al.
RNA
. 2022 Jan;
28(4):523-540.
PMID: 35082143
Alternative splicing transitions occur during organ development, and, in numerous diseases, splicing programs revert to fetal isoform expression. We previously found that extensive splicing changes occur during postnatal mouse heart...
7.
Smith J, Curry E, Blue R, Roden C, Dundon S, Rodriguez-Vargas A, et al.
J Cell Biol
. 2020 Apr;
219(4).
PMID: 32328638
Fragile-X mental retardation autosomal homologue-1 (FXR1) is a muscle-enriched RNA-binding protein. FXR1 depletion is perinatally lethal in mice, Xenopus, and zebrafish; however, the mechanisms driving these phenotypes remain unclear. The...
8.
Blue R, Koushik A, Engels N, Wiedner H, Cooper T, Giudice J
Int J Biochem Cell Biol
. 2018 Oct;
105:134-143.
PMID: 30316870
Alternative splicing is a regulatory mechanism by which multiple mRNA isoforms are generated from single genes. Numerous genes that encode membrane trafficking proteins are alternatively spliced. However, there is limited...
9.
Moorefield E, Blue R, Quinney N, Gentzsch M, Ding S
BMC Cell Biol
. 2018 Aug;
19(1):15.
PMID: 30111276
Background: Conditional reprogramming has enabled the development of long-lived, normal epithelial cell lines from mice and humans by in vitro culture with ROCK inhibitor on a feeder layer. We applied...
10.
Blue R, Curry E, Engels N, Lee E, Giudice J
J Cell Sci
. 2018 May;
131(10).
PMID: 29769303
The cell biology field has outstanding working knowledge of the fundamentals of membrane-trafficking pathways, which are of critical importance in health and disease. Current challenges include understanding how trafficking pathways...