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Publications by Satonari Akutsu

Satellite Cells and Utrophin Are Not Directly Correlated With the Degree of Skeletal Muscle Damage in MDX Mice

American Journal of Physiology - Cell Physiology

English

Related publications

Muscle Structure Influences Utrophin Expression in MDX Mice

Molecular Biology

Cancer Research

English

Aquaporin-4 Deficiency in Skeletal Muscle and Brain of Dystrophic MDX Mice

Molecular Biology

English

Satellite Cells in Human Skeletal Muscle Plasticity

Frontiers in Physiology

English

Differential Effects of Dystrophin and Utrophin Gene Transfer in Immunocompetent Muscular Dystrophy (Mdx) Mice

Physiological Genomics

English

Analyses of the Differentiation Potential of Satellite Cells From myoD -/-, Mdx, and PMP22 C22 Mice

BMC Musculoskeletal Disorders

Sports Medicine

English

Myogenin Regulates Exercise Capacity but Is Dispensable for Skeletal Muscle Regeneration in Adult MDX Mice

Multidisciplinary

English

Pericytes Resident in Postnatal Skeletal Muscle Differentiate Into Muscle Fibres and Generate Satellite Cells

Nature Communications

Molecular Biology

English

Muscle Satellite Cells From GRMD Dystrophic Dogs Are Not Phenotypically Distinguishable From Wild Type Satellite Cells in Ex Vivo Culture

Neuromuscular Disorders

English

Abortive Potency of Chlamydophila Abortus in Pregnant Mice Is Not Directly Correlated With Placental and Fetal Colonization Levels

Infection and Immunity

Infectious Diseases

English