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- ...isms and functions of intercellular mitochondrial transfer. Front Cell Dev Biol 4:107. eCollection 2016. |journal=Front Cell Dev Biol2 KB (210 words) - 19:04, 16 January 2021
- ...al bioenergetics and the pathogenesis of hepatic disorders. Front Cell Dev Biol 3:40. |journal=Front Cell Dev Biol2 KB (285 words) - 18:23, 31 May 2022
- ...rment in Parkinson's disease: challenges and opportunities. Front Cell Dev Biol 8:615461. https://doi.org/10.3389/fcell.2020.615461 |journal=Front Cell Dev Biol2 KB (303 words) - 17:45, 5 October 2023
- ...oxicity: effects on mitochondrial electron transport chain. Front Cell Dev Biol 8:604377. https://doi.org/10.3389/fcell.2020.604377 |journal=Front Cell Dev Biol1 KB (205 words) - 20:00, 14 October 2023
- ...mprehensive review of comparative and experimental studies. Front Cell Dev Biol 9:628157. https://doi.org/10.3389/fcell.2021.628157 |journal=Front Cell Dev Biol2 KB (360 words) - 14:54, 8 October 2023
- ...n cardiovascular diseases: potential targets for treatment. Front Cell Dev Biol 10:841523. https://doi.org/10.3389/fcell.2022.841523 |journal=Front Cell Dev Biol2 KB (220 words) - 18:31, 13 October 2023
- ...erapy-resistant cancers: permanent and plastic adaptations. Front Cell Dev Biol 11:1254313. https://doi.org/10.3389/fcell.2023.1254313 |journal=Front Cell Dev Biol2 KB (284 words) - 04:15, 11 November 2023
- ...ion-a hallmark pathology of idiopathic Parkinson's disease? Front Cell Dev Biol 10:874596. https://doi.org/10.3389/fcell.2022.874596 |journal=Front Cell Dev Biol1 KB (199 words) - 11:43, 11 November 2023
- #REDIRECT [[Floenes 2022 Front Cell Dev Biol]]46 bytes (6 words) - 18:47, 22 October 2023
- ...tabolism in photoreceptor survival, development and repair. Front Cell Dev Biol 10:887764. https://doi.org/10.3389/fcell.2022.887764 |journal=Front Cell Dev Biol2 KB (344 words) - 05:01, 10 November 2023
Page text matches
- #REDIRECT [[Floenes 2022 Front Cell Dev Biol]]46 bytes (6 words) - 18:47, 22 October 2023
- ...ion-a hallmark pathology of idiopathic Parkinson's disease? Front Cell Dev Biol 10:874596. https://doi.org/10.3389/fcell.2022.874596 |journal=Front Cell Dev Biol1 KB (199 words) - 11:43, 11 November 2023
- ...n cardiovascular diseases: potential targets for treatment. Front Cell Dev Biol 10:841523. https://doi.org/10.3389/fcell.2022.841523 |journal=Front Cell Dev Biol2 KB (220 words) - 18:31, 13 October 2023
- ...oxicity: effects on mitochondrial electron transport chain. Front Cell Dev Biol 8:604377. https://doi.org/10.3389/fcell.2020.604377 |journal=Front Cell Dev Biol1 KB (205 words) - 20:00, 14 October 2023
- ...erapy-resistant cancers: permanent and plastic adaptations. Front Cell Dev Biol 11:1254313. https://doi.org/10.3389/fcell.2023.1254313 |journal=Front Cell Dev Biol2 KB (284 words) - 04:15, 11 November 2023
- ...rment in Parkinson's disease: challenges and opportunities. Front Cell Dev Biol 8:615461. https://doi.org/10.3389/fcell.2020.615461 |journal=Front Cell Dev Biol2 KB (303 words) - 17:45, 5 October 2023
- ...isms and functions of intercellular mitochondrial transfer. Front Cell Dev Biol 4:107. eCollection 2016. |journal=Front Cell Dev Biol2 KB (210 words) - 19:04, 16 January 2021
- ...mprehensive review of comparative and experimental studies. Front Cell Dev Biol 9:628157. https://doi.org/10.3389/fcell.2021.628157 |journal=Front Cell Dev Biol2 KB (360 words) - 14:54, 8 October 2023
- ...tabolism in photoreceptor survival, development and repair. Front Cell Dev Biol 10:887764. https://doi.org/10.3389/fcell.2022.887764 |journal=Front Cell Dev Biol2 KB (344 words) - 05:01, 10 November 2023
- ...al bioenergetics and the pathogenesis of hepatic disorders. Front Cell Dev Biol 3:40. |journal=Front Cell Dev Biol2 KB (285 words) - 18:23, 31 May 2022
- ...mplex II ambiguities ― FADH<sub>2</sub> in the electron transfer system. J Biol Chem 300: 105470. https://doi.org/10.1016/j.jbc.2023.105470 ...'' Solhaug A, Gjessing M, Sandvik M, Eriksen GS (2023) The gill epithelial cell lines RTgill-W1, from Rainbow trout and ASG-10, from Atlantic salmon, exert16 KB (2,064 words) - 08:21, 22 March 2024
- ...low aging in bivalves as a model for the study of lifespan. Semin Cell Dev Biol 70:130-40. ...d with increased peroxidation resistance in mitochondrial membranes. Aging Cell 11:845-55.5 KB (646 words) - 13:37, 19 September 2019
- ...(2014) Cellular senescence: from physiology to pathology. Nat Rev Mol Cell Biol 15:482-96. ...ndrial dysfunction induces senescence with a distinct secretory phenotype. Cell Metab 23:303-14.7 KB (971 words) - 10:29, 16 October 2018
- ..., r, that consume O<sub>2</sub> in the cells of an organism, contribute to cell respiration, ''J''<sub>rO2</sub>. In addition to mitochondrial catabolic re ...ive phosphorylation. PLoS Comput Biol 1(4):e36. - [[Beard 2005 PLOS Comput Biol |»Bioblast link«]]38 KB (5,252 words) - 08:27, 8 January 2023
- ...mplex II ambiguities ― FADH<sub>2</sub> in the electron transfer system. J Biol Chem 300:105470. https://doi.org/10.1016/j.jbc.2023.105470 |journal=J Biol Chem135 KB (18,133 words) - 09:53, 21 December 2023
- ...pathways; ACE1 and ACE2 pathways; wider immune function; airway epithelial cell tight-junction function and integrity; and mitochondrial related, energetic ...Obesity on Influenza A Virus Pathogenesis, Immune Response, and Evolution. Front Immunol. 2019; 10: 1071. doi: 10.3389/fimmu.2019.0107127 KB (3,615 words) - 08:19, 8 January 2023
- ...ive phosphorylation. PLoS Comput Biol 1(4):e36. - [[Beard 2005 PLOS Comput Biol |»Bioblast link«]]59 KB (8,149 words) - 16:29, 21 January 2024
