05854nam 2201765z- 450 991055758700332120231214133527.0(CKB)5400000000043778(oapen)https://directory.doabooks.org/handle/20.500.12854/69316(EXLCZ)99540000000004377820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMuscle Homeostasis and RegenerationFrom Molecular Mechanisms to Therapeutic OpportunitiesBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (500 p.)3-03943-436-5 3-03943-437-3 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.Muscle Homeostasis and Regeneration Research & information: generalbicsscBiology, life sciencesbicssclysinemTORC1satellite cellsproliferationskeletal muscle growthmuscle satellite celltransthyretinthyroid hormonemyogenesisexosomesskeletal musclegenotypegenetic variationmuscle phenotypessarcopeniaagingcalcium homeostasishibernationmitochondriasarcoplasmic reticulumAcvr1bTgfbr1myostatinCol1a1fibrosisatrophyIGF2Rmuscle homeostasisinflammationmuscular dystrophypericytesmacrophagesNfixphagocytosisRhoA-ROCK1splicing isoformsCRISPR-Cas9exon deletionNF-Ymuscle differentiationC2C12 cellsdenervationneuromuscular junctionheavy resistance exerciseacetylcholine receptorcell cultureneonatal myosinneural cell adhesion moleculebiomarkersmitophagymitochondrial dynamicsmitochondrial quality controlmitochondrial-derived vesicles (MDVs)mitochondrial-lysosomal axisHibernationelectron microscopyimmunocytochemistryα-smooth muscle actinconfocal microscopyconnexin 43connexin 26gap junctionsmyofibroblastsPlatelet-Rich Plasmatransforming growth factor (TGF)-β1muscle regenerationinflammatory responsecell precursorsexperimental methodsstem cell markersmusclesheterotopic ossificationskeletal muscle stem and progenitor cellsHO precursorsmuscle atrophysepticemiamitochondrial fusionmitochondrial fissioniPSCextracellular vesiclesDrosophilamusclegenetic controlmuscle diversificationfasciclemyofibermyofibrilsarcomerehypertrophyhyperplasiasplittingradial growthlongitudinal growthexercisemuscle stem cellsstem cells nicheneuromuscular disordersDuchenne muscular dystrophypharmacological approachsingle-cellmass cytometryskeletal muscle regenerationskeletal muscle homeostasisfibro/adipogenic progenitorsmyogenic progenitorsmuscle populationsevolutionmetazoansdifferentiationtransdifferentiationmuscle precursorsregenerative medicinestem cellsFAPstissue nichegrowth factorsmuscle pathologyResearch & information: generalBiology, life sciencesMusarò Antonioedt1318574Musarò AntonioothBOOK9910557587003321Muscle Homeostasis and Regeneration3033418UNINA