Biblio
Context-Specific Transcription Factor Functions Regulate Epigenomic and Transcriptional Dynamics during Cardiac Reprogramming. Cell Stem Cell. 2019;25(1):87-102.e9.
Creating Opportunities to Advance Stem Cell Science: 2019-2020 Year in Review. Stem Cell Reports. 2020;14(6):993-995.
. Direct reprogramming of fibroblasts into cardiomyocytes for cardiac regenerative medicine. Circ J. 2015;79(2):245-54.
. Direct Reprogramming of Human Fibroblasts toward a Cardiomyocyte-like State. Stem Cell Reports. 2013;1(3):235-247.
. Efficient CRISPR/Cas9-Based Genome Engineering in Human Pluripotent Stem Cells. Curr Protoc Hum Genet. 2016;88:21.4.1-21.4.23.
. Expandable Cardiovascular Progenitor Cells Reprogrammed from Fibroblasts. Cell Stem Cell. 2016;18(3):368-381.
Improved Cardiac Function in Postischemic Rats Using an Optimized Cardiac Reprogramming Cocktail Delivered in a Single Novel Adeno-Associated Virus. Circulation. 2023.
The long noncoding RNA Chaer defines an epigenetic checkpoint in cardiac hypertrophy. Nat Med. 2016.
Mentorship in Science: Response to AlShebli et al., Nature Communications 2020. Stem Cell Reports. 2021;16(1):1-2.
. Modeling Human Cardiac Chambers with Organoids. N Engl J Med. 2021;385(9):847-849.
. The Psychiatric Cell Map Initiative: A Convergent Systems Biological Approach to Illuminating Key Molecular Pathways in Neuropsychiatric Disorders. Cell. 2018;174(3):505-520.
Recent advances in direct cardiac reprogramming. Curr Opin Genet Dev. 2015;34:77-81.
. Small Solutions to Big Problems: MicroRNAs for Cardiac Regeneration. Circ Res. 2013;112(11):1412-1414.
. Thymosin beta-4 denotes new directions towards developing prosperous anti-aging regenerative therapies. Int Immunopharmacol. 2023;116:109741.
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