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Deep metazoan phylogeny : the backbone of the tree of life : new insights from analyses of molecules, morphology, and theory of data analysis
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ISBN: 3110372967 3110277522 9783110277524 9783110372960 9783110277463 3110277468 Year: 2014 Publisher: Berlin, Germany : De Gruyter,

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The growing success of molecular methods has challenged traditional views of animal evolution and a large number of alternative hypotheses are hotly debated today. For the deep metazoan phylogeny project, data sets of hitherto unmatched quality and quantity were compiled and analysed with innovative bioinformatics tools. The book begins at the base of the tree of life to discuss the origin of animals and early branches of the phylogenetic tree. The following section presents special data sets gained from mitochondrial genomes and from morphology, with a focus on nervous systems. The final

Metazoan life without oxygen
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ISBN: 0412333600 Year: 1991 Publisher: London New York Tokyo Chapman and Hall

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The early evolution of metazoa and the significance of problematic taxa: proceedings of an international symposium at the University of Camerino 27-31 March 1989
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ISBN: 0521402425 Year: 1991 Publisher: Cambridge Cambridge University Press

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Evolution of the Metazoan life cycle : a comprehensive theory
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ISBN: 0123799503 9780123799500 Year: 1972 Publisher: London: Academic press,

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The Holobiont Imperative : Perspectives from Early Emerging Animals
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ISBN: 3709118948 3709118964 Year: 2016 Publisher: Vienna : Springer Vienna : Imprint: Springer,

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This book examines how the growing knowledge of the huge range of animal-bacterial interactions, whether in shared ecosystems or intimate symbioses, is fundamentally altering our understanding of animal biology. Individuals from simple invertebrates to human are not solitary, homogenous entities but consist of complex communities of many species that likely evolved during a billion years of coexistence. Defining the individual microbe-host conversations in these consortia, is a challenging but necessary step on the path to understanding the function of the associations as a whole. The hologenome theory of evolution considers the holobiont with its hologenome as a unit of selection in evolution. This new view may have profound impact on understanding a strictly microbe/symbiont-dependent life style and its evolutionary consequences. It may also affect the way how we approach complex environmental diseases from corals (coral bleaching) to human (inflammatory bowel disease etc). The book is written for scientists as well as medically interested persons in the field of immunobiology, microbiology, evolutionary biology, evolutionary medicine and corals.


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Muscle Homeostasis and Regeneration : From Molecular Mechanisms to Therapeutic Opportunities
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Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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The book is a collection of original research and review articles addressing the intriguing field of the cellular and molecular players involved in muscle homeostasis and regeneration. One of the most ambitious aspirations of modern medical science is the possibility of regenerating any damaged part of the body, including skeletal muscle. This desire has prompted clinicians and researchers to search for innovative technologies aimed at replacing organs and tissues that are compromised. In this context, the papers, collected in this book, addressing a specific aspects of muscle homeostasis and regeneration under physiopathologic conditions, will help us to better understand the underlying mechanisms of muscle healing and will help to design more appropriate therapeutic approaches to improve muscle regeneration and to counteract muscle diseases.

Keywords

Research & information: general --- Biology, life sciences --- lysine --- mTORC1 --- satellite cells --- proliferation --- skeletal muscle growth --- muscle satellite cell --- transthyretin --- thyroid hormone --- myogenesis --- exosomes --- skeletal muscle --- genotype --- genetic variation --- muscle phenotypes --- sarcopenia --- aging --- calcium homeostasis --- hibernation --- mitochondria --- sarcoplasmic reticulum --- Acvr1b --- Tgfbr1 --- myostatin --- Col1a1 --- fibrosis --- atrophy --- IGF2R --- muscle homeostasis --- inflammation --- muscular dystrophy --- pericytes --- macrophages --- Nfix --- phagocytosis --- RhoA-ROCK1 --- splicing isoforms --- CRISPR-Cas9 --- exon deletion --- NF-Y --- muscle differentiation --- C2C12 cells --- denervation --- neuromuscular junction --- heavy resistance exercise --- acetylcholine receptor --- cell culture --- neonatal myosin --- neural cell adhesion molecule --- biomarkers --- mitophagy --- mitochondrial dynamics --- mitochondrial quality control --- mitochondrial-derived vesicles (MDVs) --- mitochondrial-lysosomal axis --- Hibernation --- electron microscopy --- immunocytochemistry --- α-smooth muscle actin --- confocal microscopy --- connexin 43 --- connexin 26 --- gap junctions --- myofibroblasts --- Platelet-Rich Plasma --- transforming growth factor (TGF)-β1 --- muscle regeneration --- inflammatory response --- cell precursors --- experimental methods --- stem cell markers --- muscles --- heterotopic ossification --- skeletal muscle stem and progenitor cells --- HO precursors --- muscle atrophy --- septicemia --- mitochondrial fusion --- mitochondrial fission --- iPSC --- extracellular vesicles --- Drosophila --- muscle --- genetic control --- muscle diversification --- fascicle --- myofiber --- myofibril --- sarcomere --- hypertrophy --- hyperplasia --- splitting --- radial growth --- longitudinal growth --- exercise --- muscle stem cells --- stem cells niche --- neuromuscular disorders --- Duchenne muscular dystrophy --- pharmacological approach --- single-cell --- mass cytometry --- skeletal muscle regeneration --- skeletal muscle homeostasis --- fibro/adipogenic progenitors --- myogenic progenitors --- muscle populations --- evolution --- metazoans --- differentiation --- transdifferentiation --- muscle precursors --- regenerative medicine --- stem cells --- FAPs --- tissue niche --- growth factors --- muscle pathology


Book
Muscle Homeostasis and Regeneration : From Molecular Mechanisms to Therapeutic Opportunities
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Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

The book is a collection of original research and review articles addressing the intriguing field of the cellular and molecular players involved in muscle homeostasis and regeneration. One of the most ambitious aspirations of modern medical science is the possibility of regenerating any damaged part of the body, including skeletal muscle. This desire has prompted clinicians and researchers to search for innovative technologies aimed at replacing organs and tissues that are compromised. In this context, the papers, collected in this book, addressing a specific aspects of muscle homeostasis and regeneration under physiopathologic conditions, will help us to better understand the underlying mechanisms of muscle healing and will help to design more appropriate therapeutic approaches to improve muscle regeneration and to counteract muscle diseases.

Keywords

lysine --- mTORC1 --- satellite cells --- proliferation --- skeletal muscle growth --- muscle satellite cell --- transthyretin --- thyroid hormone --- myogenesis --- exosomes --- skeletal muscle --- genotype --- genetic variation --- muscle phenotypes --- sarcopenia --- aging --- calcium homeostasis --- hibernation --- mitochondria --- sarcoplasmic reticulum --- Acvr1b --- Tgfbr1 --- myostatin --- Col1a1 --- fibrosis --- atrophy --- IGF2R --- muscle homeostasis --- inflammation --- muscular dystrophy --- pericytes --- macrophages --- Nfix --- phagocytosis --- RhoA-ROCK1 --- splicing isoforms --- CRISPR-Cas9 --- exon deletion --- NF-Y --- muscle differentiation --- C2C12 cells --- denervation --- neuromuscular junction --- heavy resistance exercise --- acetylcholine receptor --- cell culture --- neonatal myosin --- neural cell adhesion molecule --- biomarkers --- mitophagy --- mitochondrial dynamics --- mitochondrial quality control --- mitochondrial-derived vesicles (MDVs) --- mitochondrial-lysosomal axis --- Hibernation --- electron microscopy --- immunocytochemistry --- α-smooth muscle actin --- confocal microscopy --- connexin 43 --- connexin 26 --- gap junctions --- myofibroblasts --- Platelet-Rich Plasma --- transforming growth factor (TGF)-β1 --- muscle regeneration --- inflammatory response --- cell precursors --- experimental methods --- stem cell markers --- muscles --- heterotopic ossification --- skeletal muscle stem and progenitor cells --- HO precursors --- muscle atrophy --- septicemia --- mitochondrial fusion --- mitochondrial fission --- iPSC --- extracellular vesicles --- Drosophila --- muscle --- genetic control --- muscle diversification --- fascicle --- myofiber --- myofibril --- sarcomere --- hypertrophy --- hyperplasia --- splitting --- radial growth --- longitudinal growth --- exercise --- muscle stem cells --- stem cells niche --- neuromuscular disorders --- Duchenne muscular dystrophy --- pharmacological approach --- single-cell --- mass cytometry --- skeletal muscle regeneration --- skeletal muscle homeostasis --- fibro/adipogenic progenitors --- myogenic progenitors --- muscle populations --- evolution --- metazoans --- differentiation --- transdifferentiation --- muscle precursors --- regenerative medicine --- stem cells --- FAPs --- tissue niche --- growth factors --- muscle pathology


Book
Muscle Homeostasis and Regeneration : From Molecular Mechanisms to Therapeutic Opportunities
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Bookmark

Abstract

The book is a collection of original research and review articles addressing the intriguing field of the cellular and molecular players involved in muscle homeostasis and regeneration. One of the most ambitious aspirations of modern medical science is the possibility of regenerating any damaged part of the body, including skeletal muscle. This desire has prompted clinicians and researchers to search for innovative technologies aimed at replacing organs and tissues that are compromised. In this context, the papers, collected in this book, addressing a specific aspects of muscle homeostasis and regeneration under physiopathologic conditions, will help us to better understand the underlying mechanisms of muscle healing and will help to design more appropriate therapeutic approaches to improve muscle regeneration and to counteract muscle diseases.

Keywords

Research & information: general --- Biology, life sciences --- lysine --- mTORC1 --- satellite cells --- proliferation --- skeletal muscle growth --- muscle satellite cell --- transthyretin --- thyroid hormone --- myogenesis --- exosomes --- skeletal muscle --- genotype --- genetic variation --- muscle phenotypes --- sarcopenia --- aging --- calcium homeostasis --- hibernation --- mitochondria --- sarcoplasmic reticulum --- Acvr1b --- Tgfbr1 --- myostatin --- Col1a1 --- fibrosis --- atrophy --- IGF2R --- muscle homeostasis --- inflammation --- muscular dystrophy --- pericytes --- macrophages --- Nfix --- phagocytosis --- RhoA-ROCK1 --- splicing isoforms --- CRISPR-Cas9 --- exon deletion --- NF-Y --- muscle differentiation --- C2C12 cells --- denervation --- neuromuscular junction --- heavy resistance exercise --- acetylcholine receptor --- cell culture --- neonatal myosin --- neural cell adhesion molecule --- biomarkers --- mitophagy --- mitochondrial dynamics --- mitochondrial quality control --- mitochondrial-derived vesicles (MDVs) --- mitochondrial-lysosomal axis --- Hibernation --- electron microscopy --- immunocytochemistry --- α-smooth muscle actin --- confocal microscopy --- connexin 43 --- connexin 26 --- gap junctions --- myofibroblasts --- Platelet-Rich Plasma --- transforming growth factor (TGF)-β1 --- muscle regeneration --- inflammatory response --- cell precursors --- experimental methods --- stem cell markers --- muscles --- heterotopic ossification --- skeletal muscle stem and progenitor cells --- HO precursors --- muscle atrophy --- septicemia --- mitochondrial fusion --- mitochondrial fission --- iPSC --- extracellular vesicles --- Drosophila --- muscle --- genetic control --- muscle diversification --- fascicle --- myofiber --- myofibril --- sarcomere --- hypertrophy --- hyperplasia --- splitting --- radial growth --- longitudinal growth --- exercise --- muscle stem cells --- stem cells niche --- neuromuscular disorders --- Duchenne muscular dystrophy --- pharmacological approach --- single-cell --- mass cytometry --- skeletal muscle regeneration --- skeletal muscle homeostasis --- fibro/adipogenic progenitors --- myogenic progenitors --- muscle populations --- evolution --- metazoans --- differentiation --- transdifferentiation --- muscle precursors --- regenerative medicine --- stem cells --- FAPs --- tissue niche --- growth factors --- muscle pathology

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