Eva Hrabeta-Robinson
Overview
Explore the profile of Eva Hrabeta-Robinson including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
15
Citations
578
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Liang C, Hrabeta-Robinson E, Behera A, Arevalo C, Fetter I, Soulette C, et al.
bioRxiv
. 2024 Sep;
PMID: 39314447
Although is a recurrent splicing factor mutation in lung adenocarcinoma (ADC), alone is insufficient for producing tumors in previous models. Because lung ADCs with frequently have co-occurring mutations and smoking...
2.
Tang A, Felton C, Hrabeta-Robinson E, Volden R, Vollmers C, Brooks A
Genome Biol
. 2024 Jul;
25(1):173.
PMID: 38956576
Background: RNA-seq has brought forth significant discoveries regarding aberrations in RNA processing, implicating these RNA variants in a variety of diseases. Aberrant splicing and single nucleotide variants (SNVs) in RNA...
3.
Bai G, Dhillon N, Felton C, Meissner B, Saint-John B, Shelansky R, et al.
bioRxiv
. 2024 Apr;
PMID: 38562899
Genome-wide identification of chromatin organization and structure has been generally probed by measuring accessibility of the underlying DNA to nucleases or methyltransferases. These methods either only observe the positioning of...
4.
Soulette C, Hrabeta-Robinson E, Arevalo C, Felton C, Tang A, Marin M, et al.
Life Sci Alliance
. 2023 Jul;
6(10).
PMID: 37487637
is one of the most recurrently mutated splicing factors in lung adenocarcinoma and has been shown to cause transcriptome-wide pre-mRNA splicing alterations; however, the full-length altered mRNA isoforms associated with...
5.
Zargari A, Lodewijk G, Mashhadi N, Cook N, Neudorf C, Araghbidikashani K, et al.
Cell Rep Methods
. 2023 Jul;
3(6):100500.
PMID: 37426758
Time-lapse microscopy is the only method that can directly capture the dynamics and heterogeneity of fundamental cellular processes at the single-cell level with high temporal resolution. Successful application of single-cell...
6.
Tang A, Hrabeta-Robinson E, Volden R, Vollmers C, Brooks A
bioRxiv
. 2023 Jul;
PMID: 37398362
Background: RNA-Seq has brought forth significant discoveries regarding aberrations in RNA processing, implicating these RNA variants in a variety of diseases. Aberrant splicing and single nucleotide variants in RNA have...
7.
Reggiardo R, Maroli S, Halasz H, Ozen M, Hrabeta-Robinson E, Behera A, et al.
Cell Rep
. 2022 Jul;
40(3):111104.
PMID: 35858545
RAS genes are the most frequently mutated oncogenes in cancer, yet the effects of oncogenic RAS signaling on the noncoding transcriptome remain unclear. We analyzed the transcriptomes of human airway...
8.
Tang A, Soulette C, van Baren M, Hart K, Hrabeta-Robinson E, Wu C, et al.
Nat Commun
. 2020 Mar;
11(1):1438.
PMID: 32188845
While splicing changes caused by somatic mutations in SF3B1 are known, identifying full-length isoform changes may better elucidate the functional consequences of these mutations. We report nanopore sequencing of full-length...
9.
MacRae A, Coltri P, Hrabeta-Robinson E, Chalkley R, Burlingame A, Jurica M
RNA Biol
. 2019 Jun;
16(10):1346-1354.
PMID: 31213125
Structural models of large and dynamic molecular complexes are appearing in increasing numbers, in large part because of recent technical advances in cryo-electron microscopy. However, the inherent complexity of such...
10.
MacRae A, Mayerle M, Hrabeta-Robinson E, Chalkley R, Guthrie C, Burlingame A, et al.
RNA
. 2018 Mar;
24(6):769-777.
PMID: 29487104
Prp8 is an essential protein that regulates spliceosome assembly and conformation during pre-mRNA splicing. Recent cryo-EM structures of the spliceosome model Prp8 as a scaffold for the spliceosome's catalytic U...