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MicroRNA in Regenerative Medicine
Chandan K. Sen
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eBook - ePub
MicroRNA in Regenerative Medicine
Chandan K. Sen
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Ă propos de ce livre
This work encapsulates the uses of miRNA across stem cells, developmental biology, tissue injury and tissue regeneration. In particular contributors provide focused coverage of methodologies, intervention and tissue engineering.
Regulating virtually all biological processes, the genome's 1048 encoded microRNAs appear to hold considerable promise for the potential repair and regeneration of tissues and organs in future therapies. In this work, 50 experts address key topics of this fast-emerging field. Concisely summarizing and evaluating key findings emerging from fundamental research into translational application, they point to the current and future significance of clinical research in the miRNA area. Coverage encompasses all major aspects of fundamental stem cell and developmental biology, including the uses of miRNA across repair and regeneration, and special coverage of methodologies and interventions as they point towards organ and tissue engineering
- Multi-colour text layout with 150 colour figures to illustrate important findings
- Take home messages encapsulate key lessons throughout text
- Short chapters offer focused discussion and clear 'voice'
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Informations
Sujet
Biological SciencesSous-sujet
Genetics & GenomicsPart 1
Stem Cells
Chapter 1
MicroRNA Biogenesis in Regenerative Medicine
Subhadip Ghatak, and Chandan K. Sen Center for Regenerative Medicine and Cell-Based Therapies, Davis Heart and Lung Research Institute, The Ohio State University Wexner Medical Center
Abstract
Regenerative medicine is a new scientific and medical discipline for developing regenerative capabilities to restore function to damaged cells, tissues, and organs. MicroRNAs (miRNAs) are a novel class of small regulatory RNAs that have emerged as post-transcriptional gene silencers. miRNAs drive tissue regeneration, and their dysregulation may disrupt it. For this reason they represent a new direction in regenerative medicine strategies. In this chapter, we review the role of miRNAs in regenerative medicine with special emphasis on miRNA biogenesis.
Keywords
gene regulation; microRNA; DGCR8; Dicer; stem cell; bioinformatics; regenerative medicine; tissue engineering; cell-based therapiesGlossary
3âČUTR
the untranslated region at the 3âČ end of eukaryotic messenger RNA, which is important in translation regulation.
Allogeneic cells
cells genetically different although belonging to or obtained from the same species, such as those obtained from one human for treatment of another human.
Antagomirs
chemically modified antisense oligonucleotides for silencing endogenous miRNAs. They are used for inhibiting miRNAâmRNA interactions.
Argonaute (Ago)
the catalytic components of the RNA-induced silencing complex (RISC); named after the Argonaute (Ago) phenotype of Arabidopsis mutants, which itself was named after its resemblance to argonautes. Ago creates 5âČ-phosphate and 3âČ-hydroxyl termini, leaving 2-nucleotide 3âČ overhangs.
Dicer
a member of the RNase III family of ribonucleases; it cleaves dsRNAs into small interfering RNAs and pre-miRNAs, and mirtrons into miRNAs.
Differentiation
cellular progression to a more specialized type; the process of development that increases the level of organization or complexity of a cell or tissue, accompanied by a more specialized function.
Double-stranded RNAâbinding domain (dsRBD)
a protein domain that binds to the A-form double-stranded RNA helix: proteins that contain a dsRBD function in RNA localization, editing, translational repression, and post-transcriptional gene silencing.
Drosha
an endoribonuclease in the RNase III family that cleaves pri-miRNAs into pre-miRNAs.
Exportin 5 (EXP5)
a pre-miRNAâspecific export carrier that mediates nuclear export of pre-miRNAs to cytosol.
Functional tissue engineering
the study of the structure and function of living tissues, with the aim of recreating them in the laboratory. Such engineered tissues can be used to replace damaged body parts or to study complex biological problems in a controlled environment.
Hematopoietic stem cells
the precursors of mature blood cells that are defined by their ability to replace the bone marrow system following its obliteration (e.g., by gamma irradiation); these cells continue to produce mature blood cells.
Heterochromatin
highly condensed regions of the genome in which transcription is generally limited.
Human embryonic stem cell
a stem cell derived from the inner cell mass of a blastocyst; it can differentiate into several tissue types in culture.
Mesenchymal stem cells
also known as bone marrow stromal cells, rare cells mainly found in bone marrow that can give rise to a large number of tissue types such as bone, cartilage (the lining of joints), and fat and connective tissue (tissue that is between organs and structures in the body).
miRNA signature
the specific miRNA expression profile in a tissue/organ under a certain physiological or pathological condition.
miRNAâ
a miRNA duplex generated by the pre-miRNA processed by Dicer, containing the miRNA strand and the miRNAâ strand, one of which is loaded into the RNA-induced silencing complex (RISC).
Mirtron
a miRNA generated from short spliced introns without Drosha-mediated cleavage.
Off-target effects
any detectible phenotypic change that is triggered by RNAi treatment, other than changes derived directly or indirectly from silencing of the targeted mRNA.
Paralog
a gene or protein with a highly similar sequence to another gene or protein that is encoded in the same genome.
Pluripotent stem cells
stem cells that can become all the cell types found in an implanted embryo, fetus, or developed organism, but not embryonic components of the trophoblast and placenta (these are usually called extra-embryonic).
Poly-cistronic transcription unit
a transcript that includes regions representing multiple, nonoverlapping gene products.
Precursor miRNAs (pre-miRNAs)
hairpin precursors of miRNAs formed by the cleavage of pri-miRNAs by Drosha and DCGR8.
Primary miRNAs (pri-miRNAs)
the initial transcriptional products of miRNA genes; they are generally more than 100 nucleotides long and may contain one or more miRNA stem loops that are processed by the miRNA biogenesis pathway.
Processing bodies (P-bodies)
regions within the cytoplasm of the eukaryotic cell consisting of many enzymes involved in mRNA turnover, including mRNA degradation and sequestration.
Regenerative medicine
clinical procedures that aim to repair damaged tissue or organs, most often by using tissue-engineered scaffolds and stem cells to replace cells and tissues damaged by aging and by disease. In some cases, medical devices are part of the therapeutic procedure.
RNA-induced silencing complex (RISC)
a group of proteins, including one of the Argonaute proteins, that induce target mRNA cleavage based on loaded small interfering RNA or miRNA guide strands.
RNase III-type protein
an endonuclease that cleaves double-stranded RNAs.
Scaffold
in the context of engineered tissue, a biomaterial that can be formed in the shape of tissue that needs to be replaced. The scaffold is typically impregnated (seeded) with a patientâs cells before implantation. It is designed to âdissolveâ in several months as the cells grow on it.
Seed
a sequence of seven bases in a miRNA complementary to the mRNA target. This sequence is essential for the initial binding of the miRNA to most targets. See...
Table des matiĂšres
- Cover image
- Title page
- Table of Contents
- Copyright
- Dedication
- Contributors
- Part 1. Stem Cells
- Part 2. Development
- Part 3. Repair
- Part 4. Regeneration
- Part 5. Methodology
- Part 6. Intervention
- Part 7. Tissue Engineering
- Glossary
- Index
Normes de citation pour MicroRNA in Regenerative Medicine
APA 6 Citation
[author missing]. (2014). MicroRNA in Regenerative Medicine ([edition unavailable]). Elsevier Science. Retrieved from https://www.perlego.com/book/1832664/microrna-in-regenerative-medicine-pdf (Original work published 2014)
Chicago Citation
[author missing]. (2014) 2014. MicroRNA in Regenerative Medicine. [Edition unavailable]. Elsevier Science. https://www.perlego.com/book/1832664/microrna-in-regenerative-medicine-pdf.
Harvard Citation
[author missing] (2014) MicroRNA in Regenerative Medicine. [edition unavailable]. Elsevier Science. Available at: https://www.perlego.com/book/1832664/microrna-in-regenerative-medicine-pdf (Accessed: 15 October 2022).
MLA 7 Citation
[author missing]. MicroRNA in Regenerative Medicine. [edition unavailable]. Elsevier Science, 2014. Web. 15 Oct. 2022.