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Kristopher Wade Brannan
Kristopher Wade Brannan
Houston Methodist Research Institute
Verified email at ucsd.edu
Title
Cited by
Cited by
Year
Effects of transcription elongation rate and Xrn2 exonuclease activity on RNA polymerase II termination suggest widespread kinetic competition
N Fong, K Brannan, B Erickson, H Kim, MA Cortazar, RM Sheridan, ...
Molecular cell 60 (2), 256-267, 2015
2452015
mRNA decapping factors and the exonuclease Xrn2 function in widespread premature termination of RNA polymerase II transcription
K Brannan, H Kim, B Erickson, K Glover-Cutter, S Kim, N Fong, L Kiemele, ...
Molecular cell 46 (3), 311-324, 2012
2312012
Control of RNA Pol II speed by PNUTS-PP1 and Spt5 dephosphorylation facilitates termination by a “sitting duck torpedo” mechanism
MA Cortazar, RM Sheridan, B Erickson, N Fong, K Glover-Cutter, ...
Molecular cell 76 (6), 896-908. e4, 2019
2022019
SONAR discovers RNA-binding proteins from analysis of large-scale protein-protein interactomes
KW Brannan, W Jin, SC Huelga, CAS Banks, JM Gilmore, L Florens, ...
Molecular cell 64 (2), 282-293, 2016
1792016
Robust single-cell discovery of RNA targets of RNA-binding proteins and ribosomes
KW Brannan, IA Chaim, RJ Marina, BA Yee, ER Kofman, DA Lorenz, ...
Nature methods 18 (5), 507-519, 2021
1062021
A relay velocity model infers cell-dependent RNA velocity
S Li, P Zhang, W Chen, L Ye, KW Brannan, NT Le, J Abe, JP Cooke, ...
Nature biotechnology 42 (1), 99-108, 2024
452024
Evaluation of engineered CRISPR-Cas-mediated systems for site-specific RNA editing
RJ Marina, KW Brannan, KD Dong, BA Yee, GW Yeo
Cell reports 33 (5), 2020
322020
Directed editing of cellular RNA via nuclear delivery of CRISPR/CAS9
E Yeo, K Brannan, R Marina, D Nelles
US Patent 11,453,891, 2022
222022
HydRA: Deep-learning models for predicting RNA-binding capacity from protein interaction association context and protein sequence
W Jin, KW Brannan, K Kapeli, SS Park, HQ Tan, ML Gosztyla, ...
Molecular Cell 83 (14), 2595-2611. e11, 2023
172023
Control of transcriptional elongation by RNA polymerase II: a retrospective
K Brannan, DL Bentley
Genetics research international 2012 (1), 170173, 2012
172012
Discovery and functional interrogation of SARS-CoV-2 protein-RNA interactions
JS Xiang, JR Mueller, EC Luo, BA Yee, D Schafer, JC Schmok, FE Tan, ...
Research Square, 2022
62022
Large-scale map of RNA-binding protein interactomes across the mRNA life cycle
LA Street, KL Rothamel, KW Brannan, W Jin, BJ Bokor, K Dong, K Rhine, ...
Molecular Cell 84 (19), 3790-3809. e8, 2024
42024
Directed pseudouridylation of rna
E Yeo, K Brannan
US Patent App. 17/272,018, 2021
22021
Directed modification of rna
E Yeo, K Brannan
US Patent App. 17/272,009, 2021
22021
Discovery and functional interrogation of the virus and host RNA interactome of SARS-Cov-2 proteins
JS Xiang, JR Mueller, EC Luo, B Yee, D Schafer, JC Schmok, FE Tan, ...
22021
Long-read Ribo-STAMP simultaneously measures transcription and translation with isoform resolution
P Jagannatha, AT Tankka, DA Lorenz, T Yu, BA Yee, KW Brannan, ...
Genome Research 34 (11), 2012-2024, 2024
12024
Methods and use of chimeric proteins
E Yeo, KW Brannan, R Marina, IA Chaim, DA Lorenz
US Patent App. 17/910,967, 2023
2023
Directed editing of cellular rna via nuclear delivery of crispr/cas9
E Yeo, K Brannan, R Marina, D Nelles
US Patent App. 17/811,626, 2023
2023
Directed modification of rna
YEO Eugene, K BRANNAN
2020
From Protein-RNA Predictions toward a Peptide-RNA Code
KW Brannan, GW Yeo
Molecular cell 64 (3), 437-438, 2016
2016
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Articles 1–20