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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 180 citing articles:

Ten things you should know about transposable elements
Guillaume Bourque, Kathleen H. Burns, Mary Gehring, et al.
Genome biology (2018) Vol. 19, Iss. 1
Open Access | Times Cited: 1138
Activity-by-contact model of enhancer–promoter regulation from thousands of CRISPR perturbations
Charles P. Fulco, Joseph Nasser, Thouis R. Jones, et al.
Nature Genetics (2019) Vol. 51, Iss. 12, pp. 1664-1669
Open Access | Times Cited: 877
Origins and evolutionary consequences of ancient endogenous retroviruses
Welkin E. Johnson
Nature Reviews Microbiology (2019) Vol. 17, Iss. 6, pp. 355-370
Closed Access | Times Cited: 325
Transposable elements in human genetic disease
Lindsay M. Payer, Kathleen H. Burns
Nature Reviews Genetics (2019) Vol. 20, Iss. 12, pp. 760-772
Closed Access | Times Cited: 291
Roles of transposable elements in the regulation of mammalian transcription
Raquel Fueyo, Julius Judd, Cédric Feschotte, et al.
Nature Reviews Molecular Cell Biology (2022) Vol. 23, Iss. 7, pp. 481-497
Open Access | Times Cited: 266
Hominoid-Specific Transposable Elements and KZFPs Facilitate Human Embryonic Genome Activation and Control Transcription in Naive Human ESCs
Julien Pontis, Evarist Planet, Sandra Offner, et al.
Cell stem cell (2019) Vol. 24, Iss. 5, pp. 724-735.e5
Open Access | Times Cited: 256
Host–transposon interactions: conflict, cooperation, and cooption
Rachel Cosby, Ni‐Chen Chang, Cédric Feschotte
Genes & Development (2019) Vol. 33, Iss. 17-18, pp. 1098-1116
Open Access | Times Cited: 254
Transposable elements shape the evolution of mammalian development
Anna D. Senft, Todd S. Macfarlan
Nature Reviews Genetics (2021) Vol. 22, Iss. 11, pp. 691-711
Closed Access | Times Cited: 206
Transposable elements as a potent source of diverse cis -regulatory sequences in mammalian genomes
Vasavi Sundaram, Joanna Wysocka
Philosophical Transactions of the Royal Society B Biological Sciences (2020) Vol. 375, Iss. 1795, pp. 20190347-20190347
Open Access | Times Cited: 185
Recurrent evolution of vertebrate transcription factors by transposase capture
Rachel Cosby, Julius Judd, Ruiling Zhang, et al.
Science (2021) Vol. 371, Iss. 6531
Open Access | Times Cited: 136
Endogenous retroviruses in the origins and treatment of cancer
Natasha Jansz, Geoffrey J. Faulkner
Genome biology (2021) Vol. 22, Iss. 1
Open Access | Times Cited: 113
Taming transposable elements in vertebrates: from epigenetic silencing to domestication
Miguel Vasconcelos Almeida, Grégoire Vernaz, Audrey L. K. Putman, et al.
Trends in Genetics (2022) Vol. 38, Iss. 6, pp. 529-553
Closed Access | Times Cited: 100
Transcription of MERVL retrotransposons is required for preimplantation embryo development
Akihiko Sakashita, Tomohiro Kitano, Hirotsugu Ishizu, et al.
Nature Genetics (2023) Vol. 55, Iss. 3, pp. 484-495
Open Access | Times Cited: 83
An encyclopedia of enhancer-gene regulatory interactions in the human genome
Andreas R. Gschwind, Kristy S. Mualim, Alireza Karbalayghareh, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2023)
Open Access | Times Cited: 46
Regulation of human trophoblast gene expression by endogenous retroviruses
Jennifer M. Frost, Samuele M. Amante, Hiroaki Okae, et al.
Nature Structural & Molecular Biology (2023) Vol. 30, Iss. 4, pp. 527-538
Open Access | Times Cited: 43
Towards targeting transposable elements for cancer therapy
Yonghao Liang, Xuan Qu, Nakul M. Shah, et al.
Nature reviews. Cancer (2024) Vol. 24, Iss. 2, pp. 123-140
Closed Access | Times Cited: 26
LINE-1 transcription activates long-range gene expression
Xiufeng Li, Luyao Bie, Yang Wang, et al.
Nature Genetics (2024) Vol. 56, Iss. 7, pp. 1494-1502
Closed Access | Times Cited: 23
Functional evaluation of transposable elements as enhancers in mouse embryonic and trophoblast stem cells
Christopher D Todd, Özgen Deniz, Darren Taylor, et al.
eLife (2019) Vol. 8
Open Access | Times Cited: 131
Endogenous retroviruses are a source of enhancers with oncogenic potential in acute myeloid leukaemia
Özgen Deniz, Mamataz Ahmed, Christopher D Todd, et al.
Nature Communications (2020) Vol. 11, Iss. 1
Open Access | Times Cited: 117
Reconstitution of prospermatogonial specification in vitro from human induced pluripotent stem cells
Young Sun Hwang, Shinnosuke Suzuki, Yasunari Seita, et al.
Nature Communications (2020) Vol. 11, Iss. 1
Open Access | Times Cited: 107
Our Conflict with Transposable Elements and Its Implications for Human Disease
Kathleen H. Burns
Annual Review of Pathology Mechanisms of Disease (2020) Vol. 15, Iss. 1, pp. 51-70
Open Access | Times Cited: 104
Human endogenous retrovirus HERV-K(HML-2) RNA causes neurodegeneration through Toll-like receptors
Paul Dembny, Andrew G. Newman, Manvendra Singh, et al.
JCI Insight (2020) Vol. 5, Iss. 7
Open Access | Times Cited: 100
Transposable Elements: A Common Feature of Neurodevelopmental and Neurodegenerative Disorders
Marie E. Jönsson, Raquel Garza, Pia A. Johansson, et al.
Trends in Genetics (2020) Vol. 36, Iss. 8, pp. 610-623
Open Access | Times Cited: 93
Human Endogenous Retrovirus K (HML-2) in Health and Disease
Bei Xue, Leonardo A. Sechi, David J. Kelvin
Frontiers in Microbiology (2020) Vol. 11
Open Access | Times Cited: 86
TFs for TEs: the transcription factor repertoire of mammalian transposable elements
Clara Hermant, Maria‐Elena Torres‐Padilla
Genes & Development (2021) Vol. 35, Iss. 1-2, pp. 22-39
Open Access | Times Cited: 82
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