CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution
Natural selection may favor traits underlying aging-related diseases if they benefit the young. Wang et al. find that oxidative activation of CaMKII provides physiological benefits critical to the initial and continued success of vertebrates but at the cost of disease, frailty, and shortened lifespa...
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2021-05-01
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Online Access: | https://doi.org/10.1038/s41467-021-23549-3 |
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doaj-6c13420d75db4c89a9f1e7180f0d05762021-05-30T11:14:45ZengNature Publishing GroupNature Communications2041-17232021-05-0112111710.1038/s41467-021-23549-3CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolutionQinchuan Wang0Erick O. Hernández-Ochoa1Meera C. Viswanathan2Ian D. Blum3Danh C. Do4Jonathan M. Granger5Kevin R. Murphy6An-Chi Wei7Susan Aja8Naili Liu9Corina M. Antonescu10Liliana D. Florea11C. Conover Talbot12David Mohr13Kathryn R. Wagner14Sergi Regot15Richard M. Lovering16Peisong Gao17Mario A. Bianchet18Mark N. Wu19Anthony Cammarato20Martin F. Schneider21Gabriel S. Bever22Mark E. Anderson23Department of Medicine, Johns Hopkins School of MedicineDepartment of Biochemistry and Molecular Biology, University of Maryland School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Neurology, Johns Hopkins School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Electrical Engineering, Graduate Institute of Biomedical Electronics and Bioinformatics, National Taiwan UniversityDepartment of Neuroscience, Johns Hopkins School of MedicineCenter for Genetic Muscle Disorders, Kennedy Krieger InstituteJohns Hopkins Computational Biology Consulting CoreJohns Hopkins Computational Biology Consulting CoreInstitute for Basic Biomedical Sciences, Johns Hopkins School of MedicineJohns Hopkins School of Medicine Genetic Resources Core FacilityDepartment of Neurology, Johns Hopkins School of MedicineDepartment of Molecular Biology & Genetics, Johns Hopkins School of MedicineDepartment of Orthopaedics, University of Maryland School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Neurology, Johns Hopkins School of MedicineDepartment of Neurology, Johns Hopkins School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Biochemistry and Molecular Biology, University of Maryland School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineDepartment of Medicine, Johns Hopkins School of MedicineNatural selection may favor traits underlying aging-related diseases if they benefit the young. Wang et al. find that oxidative activation of CaMKII provides physiological benefits critical to the initial and continued success of vertebrates but at the cost of disease, frailty, and shortened lifespan.https://doi.org/10.1038/s41467-021-23549-3 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Qinchuan Wang Erick O. Hernández-Ochoa Meera C. Viswanathan Ian D. Blum Danh C. Do Jonathan M. Granger Kevin R. Murphy An-Chi Wei Susan Aja Naili Liu Corina M. Antonescu Liliana D. Florea C. Conover Talbot David Mohr Kathryn R. Wagner Sergi Regot Richard M. Lovering Peisong Gao Mario A. Bianchet Mark N. Wu Anthony Cammarato Martin F. Schneider Gabriel S. Bever Mark E. Anderson |
spellingShingle |
Qinchuan Wang Erick O. Hernández-Ochoa Meera C. Viswanathan Ian D. Blum Danh C. Do Jonathan M. Granger Kevin R. Murphy An-Chi Wei Susan Aja Naili Liu Corina M. Antonescu Liliana D. Florea C. Conover Talbot David Mohr Kathryn R. Wagner Sergi Regot Richard M. Lovering Peisong Gao Mario A. Bianchet Mark N. Wu Anthony Cammarato Martin F. Schneider Gabriel S. Bever Mark E. Anderson CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution Nature Communications |
author_facet |
Qinchuan Wang Erick O. Hernández-Ochoa Meera C. Viswanathan Ian D. Blum Danh C. Do Jonathan M. Granger Kevin R. Murphy An-Chi Wei Susan Aja Naili Liu Corina M. Antonescu Liliana D. Florea C. Conover Talbot David Mohr Kathryn R. Wagner Sergi Regot Richard M. Lovering Peisong Gao Mario A. Bianchet Mark N. Wu Anthony Cammarato Martin F. Schneider Gabriel S. Bever Mark E. Anderson |
author_sort |
Qinchuan Wang |
title |
CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
title_short |
CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
title_full |
CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
title_fullStr |
CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
title_full_unstemmed |
CaMKII oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
title_sort |
camkii oxidation is a critical performance/disease trade-off acquired at the dawn of vertebrate evolution |
publisher |
Nature Publishing Group |
series |
Nature Communications |
issn |
2041-1723 |
publishDate |
2021-05-01 |
description |
Natural selection may favor traits underlying aging-related diseases if they benefit the young. Wang et al. find that oxidative activation of CaMKII provides physiological benefits critical to the initial and continued success of vertebrates but at the cost of disease, frailty, and shortened lifespan. |
url |
https://doi.org/10.1038/s41467-021-23549-3 |
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