ProfessorsProfessors of University of HoustonRobert J Schwartz

Robert J Schwartz

University of Houston

H-index: 103

North America-United States

About Robert J Schwartz

Robert J Schwartz, With an exceptional h-index of 103 and a recent h-index of 41 (since 2020), a distinguished researcher at University of Houston, specializes in the field of biology.

His recent articles reflect a diverse array of research interests and contributions to the field:

Compositions and methods of treatment of muscle disorders by targeting h19x-encoded non-coding rnas

Small molecules that treat or prevent viral infections

Cardiac cell proliferation by administering inhibitors of sav1, nf2, mob1 and/or mutant srf

A Small Molecule That In Vitro Neutralizes Infection of SARS-CoV-2 and Its Most Infectious Variants, Delta, and Omicron

STEMIN and YAP5SA synthetic modified mRNAs regenerate and repair infarcted mouse hearts

Direct reprogramming of cardiomyocytes into cardiac Purkinje-like cells

SRF-derived miR210 and miR30c both repress beating cardiomyocyte formation in the differentiation system of embryoid body

Serum response factor regenerates senescent cells

Robert J Schwartz Information

University	University of Houston
Position	___
Citations(all)	33757
Citations(since 2020)	5762
Cited By	29973
hIndex(all)	103
hIndex(since 2020)	41
i10Index(all)	252
i10Index(since 2020)	132
Email	Access Email
University Profile Page	University of Houston
Google Scholar	View Google Scholar Profile

Robert J Schwartz Skills & Research Interests

biology

Top articles of Robert J Schwartz

Title	Journal	Author(s)	Publication Date
Compositions and methods of treatment of muscle disorders by targeting h19x-encoded non-coding rnas			2023/9/28
Small molecules that treat or prevent viral infections			2023/8/24
Cardiac cell proliferation by administering inhibitors of sav1, nf2, mob1 and/or mutant srf			2023/6/22
A Small Molecule That In Vitro Neutralizes Infection of SARS-CoV-2 and Its Most Infectious Variants, Delta, and Omicron	Biomedicines	Arfaxad Reyes-Alcaraz Hanan Qasim Elizabeth Merlinsky Glenn Fox Tasneem Islam ...	2023/3/15
STEMIN and YAP5SA synthetic modified mRNAs regenerate and repair infarcted mouse hearts	The Journal of Cardiovascular Aging	Siyu Xiao Rui Liang Emilio Lucero Bradley K. McConnell Zhishi Chen ...	2022/6/15
Direct reprogramming of cardiomyocytes into cardiac Purkinje-like cells	Iscience	Nicole Prodan Faheem Ershad Arfaxad Reyes-Alcaraz Luge Li Brandon Mistretta ...	2022/11/18
SRF-derived miR210 and miR30c both repress beating cardiomyocyte formation in the differentiation system of embryoid body	Biochemical and Biophysical Research Communications	Guoxing Zheng Zhuzhen He Yingsi Lu Qingqing Zhu Yizhou Jiang ...	2022/10/20
Serum response factor regenerates senescent cells			2021/3/11
Generation of transgenic mice that conditionally overexpress Tenascin-C	Frontiers in immunology	Saori Yonebayashi Kazuko Tajiri Mari Hara Hiromitsu Saito Noboru Suzuki ...	2021/3/8
H19X‐encoded miR‐322 (424)/miR‐503 regulates muscle mass by targeting translation initiation factors	Journal of cachexia, sarcopenia and muscle	Rui Liang Xiaopeng Shen Fan Wang Xin Wang Alex DesJarlais ...	2021/12
Transient Transgenics: An Efficient Method to Identify Gene Regulatory Elements	Cardiovascular Development: Methods and Protocols	Warren E Zimmer Robert J Schwartz	2021
Enhanced cardiomyocyte regeneration			2021/11/23
The spatiotemporal expression of notch1 and numb and their functional interaction during cardiac morphogenesis	Cells	Lianjie Miao Yangyang Lu Anika Nusrat Hala Y Abdelnasser Sayantap Datta ...	2021/8/25
Smyd1 orchestrates early heart development through positive and negative gene regulation	Frontiers in cell and developmental biology	Zhen Wang Robert J Schwartz Jing Liu Fei Sun Qi Li ...	2021/4/1
Response to Zhao and Huang’s Commentary Letter,“Conversion of Human Cardiac Progenitor Cells using Reprogramming Factors into Heterogeneous Cardiac Pacemaker-like Cells …	Journal of molecular and cellular cardiology	Robert J Schwartz Bradley K McConnell	2020/4
A highly conductive 3D cardiac patch fabricated using cardiac myocytes reprogrammed from human adipogenic mesenchymal stem cells	Cardiovascular Engineering and Technology	Reza Abbasgholizadeh Jose Francisco Islas Stephen Navran Vladimir N Potaman Robert J Schwartz ...	2020/4
β‐Adrenergic stimuli and rotating suspension culture enhance conversion of human adipogenic mesenchymal stem cells into highly conductive cardiac progenitors	Journal of Tissue Engineering and Regenerative Medicine	Jose Francisco Islas Reza Abbasgholizadeh Clifford Dacso Vladimir N Potaman Stephen Navran ...	2020/2
3D bioprinting the cardiac Purkinje system using human adipogenic mesenchymal stem cell derived Purkinje cells	Cardiovascular Engineering and Technology	Evan P Tracy Brian C Gettler Joseph S Zakhari Robert J Schwartz Stuart K Williams ...	2020/10
CRISPR-Cas9 Induced IGF1 Gene Activation as a Tool for Enhancing Muscle Differentiation via Multiple Isoform Expression	FASEB journal: official publication of the Federation of American Societies for Experimental Biology	Matthew J Roberston Suchi Raghunathan Vladimir N Potaman Fan Zhang M David Stewart ...	2020/1
Conversion of human cardiac progenitor cells into cardiac pacemaker-like cells	Journal of Molecular and Cellular Cardiology	Suchi Raghunathan Jose Francisco Islas Brandon Mistretta Dinakar Iyer Liheng Shi ...	2020/1/1