Benoit G. Bruneau
Affiliations: | Biomedical Sciences | University of California, San Francisco, San Francisco, CA |
Area:
Human Development, Cell Biology, Molecular BiologyGoogle:
"Benoit Bruneau"
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Publications
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| Bulger EA, McDevitt TC, Bruneau BG. (2024) CDX2 dose-dependently influences the gene regulatory network underlying human extraembryonic mesoderm development. Biology Open |
| Kathiriya IS, Dominguez MH, Rao KS, et al. (2024) A TBX5-dependent compartment boundary patterns the cardiac interventricular septum. Biorxiv : the Preprint Server For Biology |
| Bulger EA, McDevitt TC, Bruneau BG. (2024) CDX2 dose-dependently influences the gene regulatory network underlying human extraembryonic mesoderm development. Biorxiv : the Preprint Server For Biology |
| Krup AL, Winchester SAB, Ranade SS, et al. (2023) A Mesp1-dependent developmental breakpoint in transcriptional and epigenomic specification of early cardiac precursors. Development (Cambridge, England) |
| Dominguez MH, Krup AL, Muncie JM, et al. (2023) Graded mesoderm assembly governs cell fate and morphogenesis of the early mammalian heart. Cell. 186: 479-496.e23 |
| Zhu L, Choudhary K, Gonzalez-Teran B, et al. (2022) Transcription Factor GATA4 Regulates Cell Type-Specific Splicing Through Direct Interaction With RNA in Human Induced Pluripotent Stem Cell-Derived Cardiac Progenitors. Circulation. CIRCULATIONAHA121057 |
| Hsu A, Duan Q, Day DS, et al. (2022) Targeting transcription in heart failure via CDK7/12/13 inhibition. Nature Communications. 13: 4345 |
| Gonzalez-Teran B, Pittman M, Felix F, et al. (2022) Transcription factor protein interactomes reveal genetic determinants in heart disease. Cell |
| Hota SK, Rao KS, Blair AP, et al. (2022) Brahma safeguards canalization of cardiac mesoderm differentiation. Nature |
| Kathiriya IS, Rao KS, Iacono G, et al. (2020) Modeling Human TBX5 Haploinsufficiency Predicts Regulatory Networks for Congenital Heart Disease. Developmental Cell |