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This book brings together what is currently known in terms of basic research in the field of long noncoding RNAs (lncRNAs) and builds on this to delve more deeply in the specific roles that lncRNAs are playing during inflammation. The book provides readers with basic knowledge on lncRNAs: from understanding the complexity of the transcriptome, conservation, structure and the tools used to investigate these aspects, to how we use this information to study lncRNAs in a specific biological context. The volume covers the emerging roles of lncRNAs in the initial stages of inflammation as well as their roles in specific inflammatory diseases including arthritis, lupus, diabetes and cardiovascular disease. The book also shows the emerging interest in using lncRNAs as a therapeutic target and how this could impact our ability to diagnose and treat inflammatory diseases in the future.
Covers lncRNAs from basic biology to therapeutic application Provides in-depth analysis of the role that lncRNA play in inflammation Discusses pros and cons of current approaches and speculates on the future of the field
Autorentext
Susan Carpenter is an assistant professor of Molecular, Cell and Developmental Biology at UC Santa Cruz.
Susan's lab focuses on understanding the complex molecular mechanisms that control the body's essential protection against infection. Any perturbation to these mechanisms can have devastating consequences and result in inflammatory conditions such as rheumatoid arthritis. Recent evidence shows that a group of RNA molecules known as long noncoding RNA or lncRNA plays important roles in diverse biological functions, including the inflammatory response. They are studying lncRNAs to gain an understanding of their function within the immune system, which could lead to insight into human disease and perhaps novel targets for therapeutic intervention for inflammatory conditions
Susan earned her PhD in Biochemistry from Trinity College in Dublin, Ireland, studying novel proteins important within innate immune signaling pathways, working under the supervision of Professor Luke O'Neill. Her post-doctoral research with Prof. Kate Fitzgerald at UMASS medical school continued in this area, and there she focused her attention on the role of lncRNA in inflammatory signaling pathways. Since her research bridges the fields of immunology and RNA biology, she also took the opportunity to work at UCSF in the laboratory of Dr. Michael McManus, who is a pioneer in high throughput technologies. There she worked on developing high throughput genomic approaches to study lncRNAs important for human innate immune signaling in host defense mechanisms.
Inhalt
Section 1: Overview.- Chapter 1: Introduction and overview.- Section 2: Basics of long noncoding RNA Classifications and functions.- Chapter 2: The Complexity of the Mammalian Transcriptome.- Chapter 3: Towards molecular mechanism in long non-coding RNAs: linking structure and function.- Section 3: Long noncoding RNA and inflammation.- Chapter 4: Long noncoding RNAs in Rheumatology.- Chapter 5: LncRNA and Cardiovascular Disease.- Chapter 6: A role for lncRNAs in regulating inflammatory and autoimmune responses underlying type 1 diabetes.- Section 4: Long noncoding RNAs as Therapeutic targets.- Chapter 7: LncRNA Biomarkers of Inflammation and Cancer.- Chapter 8: Functional Implications of Intergenic GWAS SNPs in Immune Related lncRNAs.- Chapter 9: Long noncoding RNAs as Therapeutic Targets.- Section 5: Challenges and Future Directions.- Chapter 10: Challenges and future directions for LncRNAs and inflammation.