Published May 12, 2022
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Integrated Deadenylase Genetic Association Network and Transcriptome Analysis in Thoracic Carcinomas.

Creators

  • 1. Department of Biochemistry and Biotechnology, University of Thessaly, Biopolis, 415 00 Larissa, Greece.
  • 2. Department of Respiratory Medicine, Faculty of Medicine, University of Thessaly, Biopolis, 411 10 Larissa, Greece.
  • 3. Department of Pneumonology-Oncology, Theagenio Cancer Hospital, 540 07 Thessaloniki, Greece.
  • 4. Department of Physiology, Faculty of Medicine, University of Thessaly, Biopolis, 415 00 Larissa, Greece.
  • 5. University Research Institute of Maternal and Child Health and Precision Medicine, 'Aghia Sophia' Children's Hospital, National and Kapodistrian University of Athens, 115 27 Athens, Greece.
  • 6. National and Kapodistrian University of Athens
  • 7. UNESCO Chair on Adolescent Health Care, 'Aghia Sophia' Children's Hospital, National and Kapodistrian University of Athens, 115 27 Athens, Greece.
  • 8. Center of Clinical, Experimental Surgery and Translational Research, Division of Endocrinology and Metabolism, Biomedical Research Foundation of the Academy of Athens, 115 27 Athens, Greece.
  • 9. Laboratory of Genetics, Department of Biotechnology, School of Applied Biology and Biotechnology, Agricultural University of Athens, 118 55 Athens, Greece.

Description

The poly(A) tail at the 3' end of mRNAs determines their stability, translational efficiency, and fate. The shortening of the poly(A) tail, and its efficient removal, triggers the degradation of mRNAs, thus, regulating gene expression. The process is catalyzed by a family of enzymes, known as deadenylases. As the dysregulation of gene expression is a hallmark of cancer, understanding the role of deadenylases has gained additional interest. Herein, the genetic association network shows that CNOT6 and CNOT7 are the most prevalent and most interconnected nodes in the equilibrated diagram. Subsequent silencing and transcriptomic analysis identifies transcripts possibly regulated by specific deadenylases. Furthermore, several gene ontologies are enriched by common deregulated genes. Given the potential concerted action and overlapping functions of deadenylases, we examined the effect of silencing a deadenylase on the remaining ones. Our results suggest that specific deadenylases target unique subsets of mRNAs, whilst at the same time, multiple deadenylases may affect the same mRNAs with overlapping functions.
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