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Essentials of Noncoding RNA in Neuroscience: Ontogenetics, Plasticity of the Vertebrate Brain focuses on the role of miRNAs in neurogenesis, gliogenesis, neuronal network formation, and the cell biology of forebrain development. The important role miRNAs play in neuronal maturation, neocortex function, and in some neurodevelopmental disorders is discussed, as are the computational challenges and methods used in the identification of miRNA targets. This book is a valuable reference for neuroscientists who wish to better understand the role of miRNAs in complex processes. It is of strong interest to those working to develop enabling technologies to detect and monitor miRNA expression and function, and to evaluate its roles in neural progenitor proliferation/differentiation, neuronal plasticity, and learning and memory.

Non-coding RNA. --- Neurosciences.

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Non-coding RNA. --- Neurosciences. --- fRNA --- Functional RNA --- ncRNA --- nmRNA --- Non-messenger RNA --- Non-translated RNA --- Noncoding RNA --- Nontranslated RNA --- Small non-messenger RNA --- Small RNA --- snmRNA --- sRNA --- Untranslated RNA --- RNA --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system

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Eukaryotes have evolved a wide variety of RNA decay pathways to maintain cellular homeostasis, carry out programs of gene expression, and respond to changing environmental conditions. Individual RNA turnover mechanisms can operate constitutively or under only particular cellular conditions; similarly, some target many RNAs, while others act with great specificity. It has become increasingly clear that there are extensive interactions between viruses and the host RNA decay machinery. Often, the cellular RNA decay machinery poses a threat to viral gene expression, but viruses can also manipulate RNA decay pathways to promote viral replication. This special issue focuses on how cellular RNA decay factors recognize and degrade viral RNAs and viral strategies to subvert or evade these pathways.

Nonsensense-mediated mRNA decay --- RNA decay --- viruses and RNA decay

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This contributed volume offers a comprehensive and detailed overview of the various aspects of long non-coding RNAs and discusses their emerging significance. Written by leading experts in the field, it motivates young researchers around the globe, and offers graduate and postgraduate students fascinating insights into genes and their regulation in eukaryotes and higher organisms.

Non-coding RNA. --- fRNA --- Functional RNA --- ncRNA --- nmRNA --- Non-messenger RNA --- Non-translated RNA --- Noncoding RNA --- Nontranslated RNA --- Small non-messenger RNA --- Small RNA --- snmRNA --- sRNA --- Untranslated RNA --- Medicine. --- Gene expression. --- Medical genetics. --- Nucleic acids. --- Developmental biology. --- Biomedicine. --- Gene Expression. --- Developmental Biology. --- Gene Function. --- Nucleic Acid Chemistry. --- Development (Biology) --- Biology --- Growth --- Ontogeny --- Polynucleotides --- Biomolecules --- Clinical genetics --- Diseases --- Heredity of disease --- Human genetics --- Medical sciences --- Pathology --- Genetic disorders --- Genes --- Genetic regulation --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Physicians --- Genetic aspects --- Expression --- RNA

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Viruses are widely present in nature, and numerous viral species with a variety of unique characteristics have been identified so far. Even now, new emerging or re-emerging viruses are being found or re-found as novel viral classes or as quasi-species. Indeed, viruses are everywhere. Of note, viruses are pivotal as targets and tools of basic and applied sciences. On one hand, portions of the viruses are infectious for animals including humans, and cause various diseases in infected hosts by distinct mechanisms and at a different level of severity. While many of viruses are known to co-exist quietly with their hosts, pathogenic viruses certainly affect and threaten our society as well as individuals to provoke serious medical or economic attention. We should act against certain dreadful and highly infectious viruses as a global problem. Animal RNA viruses can readily mutate to adapt themselves in their hostile environments for their survival. Resultant viruses may sometimes show essentially altered phenotypes from the original parental strains. This fundamental and general property of animal RNA viruses represents major extensive issues of scientific, medical, and/or economic importance. In this Research Topic, we have focused on the high mutability of animal RNA viruses, and selected relevant articles on animal viruses of broad-ranges such as primate lentiviruses, influenza viruses, paramyxoviruses, flaviviruses, rabies virus, norovirus, picornaviruses, and picobirnavirus. Each article has taken up intriguing aspects of the subject viruses. We are sure that readers acquire important information on virus mutation, adaptation, diversification, and evolution, and hope that researchers in the field related to virology gain some solid hints from the reported articles for further virological and /or medical studies. Finally, we thank all the contributing researchers in this Research Topic, entitled “Highly Mutable Animal RNA Viruses: Adaptation and Evolution”, for their elegant and interesting works.

mutation --- phylogenetic trees --- animal RNA viruses --- adaptation --- diversification