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Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4

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Bibliographic Details
Published in:Journal of Cachexia, Sarcopenia and Muscle
Format: Online Article RSS Article
Published: 2026
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container_title Journal of Cachexia, Sarcopenia and Muscle
description
discipline_display Physical Medicine and Rehabilitation
discipline_facet Physical Medicine and Rehabilitation
format Online Article
RSS Article
genre Journal Article
id rss_article:102081
institution FRELIP
journal_source_facet Journal of Cachexia, Sarcopenia and Muscle
last_indexed 2026-07-12T03:34:47.673Z
publishDate 2026
publishDateSort 2026
record_format rss_article
spellingShingle Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
Physical Medicine and Rehabilitation
General
Physical Medicine and Rehabilitation
sub_discipline_display General
sub_discipline_facet General
subject_display Physical Medicine and Rehabilitation
General
Physical Medicine and Rehabilitation
subject_facet Physical Medicine and Rehabilitation
General
Physical Medicine and Rehabilitation
title Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_alt Dnajb5 de peces antárticos revela un mecanismo sensible al redox que coordina la regeneración muscular a través de mTORC1 y HDAC4
Dnajb5 du poisson antarctique révèle un mécanisme sensible au redox coordonnant la régénération musculaire via mTORC1 et HDAC4
Dnajb5 de Peixe Antártico Revela um Mecanismo Sensível a Redox que Coordena a Regeneração Muscular via mTORC1 e HDAC4
title_auth Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_es_txt Dnajb5 de peces antárticos revela un mecanismo sensible al redox que coordina la regeneración muscular a través de mTORC1 y HDAC4
title_fr_txt Dnajb5 du poisson antarctique révèle un mécanisme sensible au redox coordonnant la régénération musculaire via mTORC1 et HDAC4
title_full Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_fullStr Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_full_unstemmed Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_pt_txt Dnajb5 de Peixe Antártico Revela um Mecanismo Sensível a Redox que Coordena a Regeneração Muscular via mTORC1 e HDAC4
title_short Dnajb5 From Antarctic Fish Reveals a Redox‐Sensitive Mechanism Coordinating Muscle Regeneration via mTORC1 and HDAC4
title_sort dnajb5 from antarctic fish reveals a redox‐sensitive mechanism coordinating muscle regeneration via mtorc1 and hdac4
topic Physical Medicine and Rehabilitation
General
Physical Medicine and Rehabilitation
url https://onlinelibrary.wiley.com/doi/10.1002/jcsm.70332?af=R