Evolutionarily Conserved Roles for Apontic in Induction and Subsequent Decline of Cyclin E Expression

Evolutionarily Conserved Roles for Apontic in Induction and Subsequent Decline of Cyclin E Expression

Summary: Cyclin E is a key factor for S phase entry, and deregulation of Cyclin E results in developmental defects and tumors. Therefore, proper cycling of Cyclin E is crucial for normal growth. Here we found that transcription factors Apontic (Apt) and E2f1 cooperate to induce cyclin E in Drosophil...

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Bibliographic Details
Main Authors: Xian-Feng Wang, Jin-Xiao Liu, Zhi-Yuan Ma, Yang Shen, Hao-Ran Zhang, Zi-Zhang Zhou, Emiko Suzuki, Qing-Xin Liu, Susumu Hirose
Format: Article
Language:English
Published: Elsevier 2020-08-01
Series:iScience
Subjects:
Biological Sciences
Molecular Biology
Cell Biology
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004220305575
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Summary:Summary: Cyclin E is a key factor for S phase entry, and deregulation of Cyclin E results in developmental defects and tumors. Therefore, proper cycling of Cyclin E is crucial for normal growth. Here we found that transcription factors Apontic (Apt) and E2f1 cooperate to induce cyclin E in Drosophila. Functional binding motifs of Apt and E2f1 are clustered in the first intron of Drosophila cyclin E and directly contribute to the cyclin E transcription. Knockout of apt and e2f1 together abolished Cyclin E expression. Furthermore, Apt up-regulates Retinoblastoma family protein 1 (Rbf1) for proper chromatin compaction, which is known to repress cyclin E. Notably, Apt-dependent up-regulation of Cyclin E and Rbf1 is evolutionarily conserved in mammalian cells. Our findings reveal a unique mechanism underlying the induction and subsequent decline of Cyclin E expression.
ISSN:2589-0042

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