Difference between revisions of "Mitochondrial states and rates - terminology beyond MitoEAGLE 2020"
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m (Gnaiger Erich moved page States and rates - terminology beyond MitoEAGLE 2020 to Mitochondrial states and rates - terminology beyond MitoEAGLE 2020) |
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Revision as of 11:48, 27 March 2023
On termonology
- 666 coauthors of the 'MitoEAGLE white paper' [1] collaborated to reach a consensus on terminology related to mitochondrial respiratory states and rates. This page is intended to prepare a questionnaire and follow-up publication.
- Why do coauthors of the 'MitoEAGLE white paper' not yet contribute to the mission on harmonization of terminology?
- This question was answered by ChatGPT (2023-03-27)
- It is possible that some coauthors may not have contributed to the mission on harmonization of terminology due to competing priorities, different perspectives, lack of expertise/resources, or other undisclosed reasons. However, it is important to continue engaging with all coauthors and encouraging their participation in ongoing efforts.
- Why do coauthors of the 'MitoEAGLE white paper' not yet contribute to the mission on harmonization of terminology?
- 1. Gnaiger E et al โ MitoEAGLE Task Group (2020) Mitochondrial physiology. Bioenerg Commun 2020.1. https://doi.org/10.26124/bec:2020-0001.v1
Supporting harmonization of terminology
Not (yet) supporting harmonization of terminology
Year | Reference | |
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Jarmuszkiewicz 2023 Front Biosci (Landmark Ed) | 2023 | Jarmuszkiewicz W, Dominiak K, Budzinska A, Wojcicki K, Galganski L (2023) Mitochondrial coenzyme Q redox homeostasis and reactive oxygen species production. https://doi.org/10.31083/j.fbl2803061 |
Vercellino 2022 Nat Rev Mol Cell Biol | 2022 | Vercellino I, Sazanov LA (2022) The assembly, regulation and function of the mitochondrial respiratory chain. Nat Rev Mol Cell Biol 23:141-161. doi: 10.1038/s41580-021-00415-0 |
Bina 2022 Mol Cell Biochem | 2022 | Bรฎnฤ AM, Aburel OM, Avram VF, Lelcu T, Linศa AV, Chiriac DV, Mocanu AG, Bernad E, Borza C, Craina ML, Popa ZL, Muntean DM, Creศu OM (2022) Impairment of mitochondrial respiration in platelets and placentas: a pilot study in preeclamptic pregnancies. https://doi.org/10.1007/s11010-022-04415-2 |
Tomar 2022 Biochim Biophys Acta Bioenerg | 2022 | Tomar N, Zhang X, Kandel SM, Sadri S, Yang C, Liang M, Audi SH, Cowley AW Jr, Dash RK (2022) Substrate-dependent differential regulation of mitochondrial bioenergetics in the heart and kidney cortex and outer medulla. https://doi.org/10.1016/j.bbabio.2021.148518 |
Turton 2022 Int J Mol Sci | 2022 | Turton N, Cufflin N, Dewsbury M, Fitzpatrick O, Islam R, Watler LL, McPartland C, Whitelaw S, Connor C, Morris C, Fang J, Gartland O, Holt L, Hargreaves IP (2022) The biochemical assessment of mitochondrial respiratory chain disorders. Int J Mol Sci 23:7487. https://doi.org/10.3390/ijms23137487 |
Schmidt 2021 J Biol Chem | 2021 | Schmidt CA, Fisher-Wellman KH, Neufer PD (2021) From OCR and ECAR to energy: perspectives on the design and interpretation of bioenergetics studies. J Biol Chem 207:101140. https://doi.org/10.1016/j.jbc.2021.101140 |
Avram 2021 Life (Basel) | 2021 | Avram VF, Bina AM, Sima A, Aburel OM, Sturza A, Burlacu O, Timar RZ, Muntean DM, Elmer E, Cretu OM (2021) Improvement of platelet respiration by cell-permeable succinate in diabetic patients treated with statins. Life (Basel) 11:288. |
Zhang 2021 PLOS ONE | 2021 | Zhang X, Yuan T, Keijer J, de Boer VCJ (2021) OCRbayes: a Bayesian hierarchical modeling framework for Seahorse extracellular flux oxygen consumption rate data analysis. PLOS ONE 16:e0253926. |