This book provides a comprehensive overview of circular RNAs (circRNAs), a novel class of non-coding RNAs with diverse regulatory roles and clinical relevance. Covering recent advances in circRNA biogenesis, molecular mechanisms, computational tools, and disease associations, it offers a structured and up-to-date resource. Readers will gain insights into how circRNAs influence gene regulation, participate in human diseases, and serve as potential biomarkers and therapeutic targets. This book is ideal for researchers, clinicians, and students interested in RNA biology, bioinformatics, and precision medicine.
Part I: Overview.
Chapter 1: An Overview of Circular RNAs.
Chapter 2:
Guidelines for the naming of circular RNAs.- Part II: Bioinformatics for
Circular RNAs.
Chapter 3: Circular RNA detection and bioinformatic
analysis.
Chapter 4: Online databases in circular RNAs.
Chapter 5:
Prediction of circular RNA secondary structures and their targets.
Chapter6:
Circular RNA Identification and Characterization with CircRNAFlow: A
Bioinformatics Approach.- Part III: Biogenesis of Circular RNAs.
Chapter 7:
The formation of circular RNAs.
Chapter 8: RNA binding proteins (RBPs) and
circular RNA biogenesis.
Chapter 9: The internal ribosome entry site in
circular RNAs.- Part IV: Molecular Mechanisms and Gene Regulation of Circular
RNAs.
Chapter 10: Circular RNAs binding to RNA-Binding Proteins.
Chapter
11: Circular RNAs regulate transcription and translation.- Part V: Circular
RNAs as Potential Disease Biomarkers.
Chapter 12: Circular RNA in Exosomes
and its clinical significance.
Chapter 13: Circular RNAs in Blood and its
clinical relevance.
Chapter 14: Circular RNAs as Biomarkers in the diagnosis
of Human Diseases.-
Chapter 15: Circular RNAs as Novel Biomarkers and
application in cardiovascular diseases.-
Chapter 16: Circular RNAs synthesis
and applications.-Part VI: Circular RNAs and Human Diseases.
Chapter 17:
Circular RNAs in heart diseases.
Chapter 18: Circular RNAs in cancers.-
Chapter 19: Circular RNAs in organ fibrosis.
Chapter 20: Circular RNAs in
metabolic diseases.
Chapter 21: Circular RNAs in liver diseases.
Chapter
22: Circular RNAs in respiratory diseases.
Chapter 23: Circular RNAs in
brain physiology and neurologic diseases.
Chapter 24: Circular RNAs in
immune-related diseases.
Chapter 25: Circular RNAs in musculoskeletal
diseases.- Part VII: Circular RNAs in Archaea.
Chapter 26: Circular RNAs in
Archaea.
Dr. Junjie Xiao is the executive dean of the School of Life Science, Shanghai University, China. In addition, he is the director of the Key Laboratory of Biomedical Materials and Technology for Organ Regeneration of the Ministry of Education, the director of the Shanghai Organ Regeneration Engineering Technology Research Centre, and the head of the Cardiovascular Research Institute of Shanghai University. He is an Associate Editor of Journal of Molecular and Cellular Cardiology and Journal of Cardiovascular Translational Research, and is on the editorial boards of several other notable journals. He has authored or co-authored in journals such as Cell Metabolism, Circulation, Circulation Research, and Nature Communications, etc. His research focuses on heart failure intervention and risk prediction, with a particular emphasis on exercise-induced cardiac regeneration and the identification of novel therapeutic targets. He is also interested in epigenetic and metabolic regulations of cardiac function upon exercise and under pathological conditions.
