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OpenAlex Citation Counts

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OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

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Showing 1-25 of 64 citing articles:

The extracellular matrix protein agrin promotes heart regeneration in mice
Elad Bassat, Yara Eid Mutlak, Alex Genzelinakh, et al.
Nature (2017) Vol. 547, Iss. 7662, pp. 179-184
Open Access | Times Cited: 561
A Rapid Method for Directed Gene Knockout for Screening in G0 Zebrafish
Roland S. Wu, Ian I. Lam, Hilary Clay, et al.
Developmental Cell (2018) Vol. 46, Iss. 1, pp. 112-125.e4
Open Access | Times Cited: 354
Little Fish, Big Data: Zebrafish as a Model for Cardiovascular and Metabolic Disease
Philipp Gut, Sven Reischauer, Didier Y. R. Stainier, et al.
Physiological Reviews (2017) Vol. 97, Iss. 3, pp. 889-938
Open Access | Times Cited: 284
Mechanisms of Cardiac Regeneration
Aysu Uygur, Richard Lee
Developmental Cell (2016) Vol. 36, Iss. 4, pp. 362-374
Open Access | Times Cited: 258
Loss of microRNA-128 promotes cardiomyocyte proliferation and heart regeneration
Wei Huang, Yuliang Feng, Jialiang Liang, et al.
Nature Communications (2018) Vol. 9, Iss. 1
Open Access | Times Cited: 152
A mutation in the atrial-specific myosin light chain gene (MYL4) causes familial atrial fibrillation
Nathan Orr, Rima Arnaout, Lorne J. Gula, et al.
Nature Communications (2016) Vol. 7, Iss. 1
Open Access | Times Cited: 125
Tension heterogeneity directs form and fate to pattern the myocardial wall
Rashmi Priya, Srinivas Allanki, Alessandra Gentile, et al.
Nature (2020) Vol. 588, Iss. 7836, pp. 130-134
Closed Access | Times Cited: 92
Zebrafish Heart Failure Models
Suneeta Narumanchi, Hong Wang, Sanni Perttunen, et al.
Frontiers in Cell and Developmental Biology (2021) Vol. 9
Open Access | Times Cited: 57
The Roles of Neuregulin-1 in Cardiac Development, Homeostasis, and Disease
Cassady Rupert, Kareen L. K. Coulombe
Biomarker Insights (2015) Vol. 10s1, pp. BMI.S20061-BMI.S20061
Open Access | Times Cited: 78
Regulation of cardiomyocyte behavior in zebrafish trabeculation by Neuregulin 2a signaling
Seyed Javad Rasouli, Didier Y. R. Stainier
Nature Communications (2017) Vol. 8, Iss. 1
Open Access | Times Cited: 78
A beginner's guide to understanding and implementing the genetic modification of zebrafish
Sara A. Rafferty, T. Alexander Quinn
Progress in Biophysics and Molecular Biology (2018) Vol. 138, pp. 3-19
Open Access | Times Cited: 76
The flow responsive transcription factor Klf2 is required for myocardial wall integrity by modulating Fgf signaling
Seyed Javad Rasouli, Mohamed A. El-Brolosy, Ayele Taddese Tsedeke, et al.
eLife (2018) Vol. 7
Open Access | Times Cited: 68
Opposite effects of Activin type 2 receptor ligands on cardiomyocyte proliferation during development and repair
Deepika Dogra, Suchit Ahuja, Hyun-Taek Kim, et al.
Nature Communications (2017) Vol. 8, Iss. 1
Open Access | Times Cited: 67
In Vivo Visualization of Cardiomyocyte Apicobasal Polarity Reveals Epithelial to Mesenchymal-like Transition during Cardiac Trabeculation
Vanesa Jiménez-Amilburu, Seyed Javad Rasouli, David Staudt, et al.
Cell Reports (2016) Vol. 17, Iss. 10, pp. 2687-2699
Open Access | Times Cited: 62
Aberrant expression of miR‐29b‐3p influences heart development and cardiomyocyte proliferation by targeting NOTCH2
Qian Yang, Fang Wu, Yaping Mi, et al.
Cell Proliferation (2020) Vol. 53, Iss. 3
Open Access | Times Cited: 50
N-cadherin relocalization during cardiac trabeculation
Anoop V. Cherian, R. Fukuda, Sruthy Maria Augustine, et al.
Proceedings of the National Academy of Sciences (2016) Vol. 113, Iss. 27, pp. 7569-7574
Open Access | Times Cited: 55
The antineoplastic drug, trastuzumab, dysregulates metabolism in iPSC‐derived cardiomyocytes
Brian M. Necela, Bianca C. Axenfeld, Daniel Serie, et al.
Clinical and Translational Medicine (2017) Vol. 6, Iss. 1
Open Access | Times Cited: 51
In vivo analysis of cardiomyocyte proliferation during trabeculation
Verónica Uribe, Radhan Ramadass, Deepika Dogra, et al.
Development (2018) Vol. 145, Iss. 14
Open Access | Times Cited: 50
Distinct myocardial lineages break atrial symmetry during cardiogenesis in zebrafish
Almary Guerra, Raoul F. V. Germano, Oliver A. Stone, et al.
eLife (2018) Vol. 7
Open Access | Times Cited: 48
Mechanical Forces Regulate Cardiomyocyte Myofilament Maturation via the VCL-SSH1-CFL Axis
R. Fukuda, Felix Gunawan, Radhan Ramadass, et al.
Developmental Cell (2019) Vol. 51, Iss. 1, pp. 62-77.e5
Open Access | Times Cited: 46
The Hippo pathway effector Wwtr1 regulates cardiac wall maturation in zebrafish
Jason Lai, Michelle M. Collins, Verónica Uribe, et al.
Development (2018) Vol. 145, Iss. 10
Open Access | Times Cited: 40
Asymmetric Hapln1a drives regionalized cardiac ECM expansion and promotes heart morphogenesis in zebrafish development
Christopher J. Derrick, Juliana Sánchez-Posada, Farah Hussein, et al.
Cardiovascular Research (2021) Vol. 118, Iss. 1, pp. 226-240
Open Access | Times Cited: 31
Cooperation between Nodal and FGF signals regulates zebrafish cardiac cell migration and heart morphogenesis
Vanessa Gonzalez, Meagan G. Grant, Makoto Suzuki, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Open Access | Times Cited: 4
morphoHeart: A quantitative tool for integrated 3D morphometric analyses of heart and ECM during embryonic development
Juliana Sánchez-Posada, Christopher J. Derrick, Emily S. Noël
PLoS Biology (2025) Vol. 23, Iss. 1, pp. e3002995-e3002995
Open Access
Genetically encoded tension heterogeneity sculpts cardiac trabeculation
Jibei Liang, Peijun Jiang, Songzhou Yan, et al.
Science Advances (2025) Vol. 11, Iss. 10
Open Access
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