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ESCI 2023 Prague CZ + (57th ESCI meeting, Prague, Czech Republic, 2023)
Targeting Mitochondria World Congress 2014 + (5th Targeting Mitochondria World Congress - [http://www.targeting-mitochondria.com/ Targeting Mitochondria], Berlin DE)
5th Academic Symposium of Metabolic Biology Branch of Chinese Biophysical Society 2022 Zunyi CN + (5th Academic Symposium of Metabolic Biology Branch of Chinese Biophysical Society, Zunyi, China, 2022)
5th International Conference of Mitochondrial Medicine + (5th International Mitochondrial Medicine Conference Mitochondrial, Online, 2021)
NHLBI Mitochondrial Biology Symposium 2019 Bethesda US + (5th NHLBI Mitochondrial Biology Symposium, … 5th NHLBI Mitochondrial Biology Symposium, Bethesda, Maryland, USA, 2019 == General information == ::::On September 26-27, 2019, experts from around the world will gather on the NIH Campus in Bethesda, Maryland to review advances in our understanding of how mitochondrial structure, function, and interactions within the cell contribute to diseases and aging; and to highlight recent progress made with animal models and therapeutic interventions.== Venue == :::: William H. Natcher Conference Center – Building 45:::: National Institutes of Health:::: 45 Center Drive:::: Bethesda, MD 20814:::: [https://2019mbs.com/meeting-venue/ How to get there]== Organizer ==:::: [https://2019mbs.com/organizers/ Information available here]== Programme ==:::: [https://2019mbs.com/agenda/ Agenda]== Speakers == :::: List of speakers can be found [https://2019mbs.com/featured-speakers/ here]== Registration ==:::: [https://www.eventbrite.com/e/the-2019-nhlbi-mitochondrial-biology-symposium-registration-54765893261 Registration and more information]:::: The abstracts submission deadline is Friday, June 28, 2019, at 11:59PM EST. :::: All submissions must be made through the abstract submission portal. :::: Abstracts should be no longer than 500 words and include four clearly identifiable components: Background, Methods, Results, and Conclusion. :::: Abstracts will be reviewed by the Organizing Committee. Acceptance will be based on the quality of the abstract and availability of space. Four high-quality abstracts will be selected for oral presentation.ts will be selected for oral presentation.)
5th edition Metabolism & Cancer 2023 Nice FR + (5th edition Metabolism & Cancer, Nice, … 5th edition Metabolism & Cancer, Nice, France, 2023 == Venue ==:::: [https://www.metabolism-cancer.com/?utm_source=altemail&utm_medium=email&utm_campaign=2023-01-04%20METABO%202023%201 How to get there]== Program ==:::: Program available [https://www.metabolism-cancer.com/?utm_source=altemail&utm_medium=email&utm_campaign=2023-01-04%20METABO%202023%201 here]== Organizers ==:::: The list of organizers can be found [https://www.metabolism-cancer.com/?utm_source=altemail&utm_medium=email&utm_campaign=2023-01-04%20METABO%202023%201 here]== Registration ==:::: [https://www.metabolism-cancer.com/?utm_source=altemail&utm_medium=email&utm_campaign=2023-01-04%20METABO%202023%201 Registration and more information]utm_campaign=2023-01-04%20METABO%202023%201 Registration and more information])
BPS19 2019 Baltimore US + (63rd Annual Meeting of the Biophysical Soc … 63rd Annual Meeting of the Biophysical Society, Baltimore, Maryland USA, 2019 == General information==:::: The Biophysical Society meeting is the only major scientific meeting in the United States that routinely includes bioenergetics and mitochondrial topics. The Bioenergetics, Mitochondria, and Metabolism Subgroup has its two symposia on the first day of the meeting, March 2nd, and these two symposia have a distinguished group of speakers who are leaders in the field of bioenergetics. == Venue == :::: Baltimore Convention Center:::: 1 W. Pratt Street:::: Baltimore, Maryland 21201::::[https://www.biophysics.org/2019meeting/hotel-travel Hotel and Travel]== Programme ==:::: [https://www.biophysics.org/2019meeting/program here]== Registration ==:::: [https://www.biophysics.org/2019meeting/registration Registration and more information]tration Registration and more information])
AMI 2023 Jhansi IN + (64th Annual International Conference of the Associate of Microbiologists of India, Jhansi, India, 2023)
BPS2023 San Diego US + (67th Annual Meeting of the Biophysical Society, San Diego, California, USA, 2023)
ISOTT 2017 Halle/Saale DE + (6th 45th Annual Meeting of the International Society on Oxygen Transport to Tissue (ISOTT), Halle/Saale, Germany.)
6th Annual Conference of Chinese Society for Neurobiological Control of Metabolism 2024 Quanzhou CN + (6th Annual Conference of Chinese Society for Neurobiological Control of Metabolism, Quanzhou, China, 2024)
SMRM2017 New Delhi IN + (6th Annual Conference of the Society for Mitochondrial Research and Medicine, New Delhi, India.)
MiPschool Copenhagen DK 2013 + (6th MiP''summer school'' on Mitochondrial Physiology, 2013 August 26-30, Copenhagen, Denmark.)
6th Biannual Meeting on Mitochondria Apoptosis & Cancer 2019 Prague CZ + (6th Biannual Meeting on Mitochondria Apoptosis & Cancer, Prague, Czech Republic, 2019)
6th EU-Cardioprotection Meeting 2021 Riga LV + (6th EU-Cardioprotection WG Meeting CA16625 on mito and metabolism as targets for cardioprotection., Virtual Event, 2021)
6th International Conference on Tumor Microenvironment and Cellular Stress 2019 Crete GR + (6th International Conference on Tumor Microenvironment and Cellular Stress: Signaling, Metabolism, Imaging and Therapeutic Targets, Chania, Crete, Greece, 2019)
6th Research Day Innsbruck AT + (6th Research Day, Innsbruck, Austria, 2023)
77th Annual Meeting of the JCA 2018 Osaka JP + (77th Annual Meeting of the Japanese Cancer Association at the Osaka International Convention Center and RIHGA, Osaka, Japan, 2018)
The 77th Japanese Society of Physical Fitness and Sports Medicine 2022 Tochigi JP + (77th Japanese Society of Physical Fitness and Sports Medicine, Tochigi, 2022)
ISOTT 2018 Seoul KR + (7th 46th Annual Meeting of the International Society on Oxygen Transport to Tissue (ISOTT). Seoul, South Korea, 2018)
ISAP 2021 Virtual + (7th Conference of the International Society for Applied Phycology - ISAP2021, Tsukuba, Japan, 2021)
7th European Phycological Congress 2019 Zagreb HR + (7th European Phycological Congress, Zagreb, Croatia, 2019)
7th Molecular Mechanisms of Axon Degeneration Meeting Loch Lomond GB + (7th Molecular Mechanisms of Axon Degeneration Meeting, Loch Lomond, Scotland, Great Britain, 2019)
7th World Congress on Targeting Microbiota 2019 Krakow PL + (7th World Congress on Targeting Microbiota … 7th World Congress on Targeting Microbiota, Krakow, Poland, 2019 == Venue == :::: Park Inn by Radisson Krakow Hotel:::: Ul. Monte Cassino 2 PL:::: 30337 - Krakow - Poland:::: [https://www.microbiota-site.com/venue.html More information]== Organizer ==:::: [https://www.microbiota-site.com/committee.html Information available here]== Programme ==:::: [https://www.microbiota-site.com/images/2019/PDF/Targeting_Microbiota_2019_Agenda_-_V7.pdf Agenda]== Speakers == :::: List of speakers can be found [https://www.microbiota-site.com/microbiota-2019-speakers.html here]== Registration ==:::: [https://www.microbiota-site.com/registrations.html Registration and more information]ns.html Registration and more information])
MiPschool London 2015 + (8th MiP''school'' on Mitochondrial Physiology, 2015 Apr 20-24, London, UK.)

(8th MiP''school'' on Mitochondrial Physiology, 2015 Apr 20-24)

SMRM2020 Virtual + (8th Annual Meeting of the Society for Mitochondria Research and Medicine-India , Virtual.)
8th SMRM and Mitochondria-Metabolism Network Meeting 2020 Pune IN + (8th SMRM and Mitochondria-Metabolism Netwo … 8th SMRM and Mitochondria-Metabolism Network Meeting, Pune, India, 2020 == General information == :::: Flyer available for [https://www.mitoeagle.org/images/b/b2/8th_SMRM_and_Mitochondria-Metabolism_Network_Meeting_Poster.pdf download]== Venue == :::: Indian Institute of Science Education and Research (ISER Pune):::: Dr. Homi Bhabha Road:::: Pashan, Pune 411 008:::: INDIA::::[http://www.iiserpune.ac.in/facilities/guesthouse-cum-convention-centre Hotel and Travel]== Programme ==:::: [https://indico.tifr.res.in/indico/internalPage.py?pageId=12&confId=7288 here]== Speakers == :::: List of speakers can be found [https://indico.tifr.res.in/indico/internalPage.py?pageId=0&confId=7288 here]== Organizers ==:::: The list of organizers can be found [https://indico.tifr.res.in/indico/internalPage.py?pageId=9&confId=7288 here]== Registration ==:::: [https://indico.tifr.res.in/indico/internalPage.py?pageId=6&confId=7288 Registration and more information]ageId=6&confId=7288 Registration and more information])
TriMAD Sysposium 2018 Pennsylvania US + (8th Translational Research in Mitochondria … 8th Translational Research in Mitochondria, Aging, and Disease (TRiMAD) Symposium, Pennsylvania, United States, 2018 == General information ==:::: TRiMAD is a collaborative venture between The Pennsylvania State University, University of Pittsburgh Medical Center, The Children’s Hospital of Philadelphia (CHoP) Research Institute, and The University of Pennsylvania Perelman School of Medicine ([https://www.huck.psu.edu/node/15830 Website])== Venue == :::: The Pennsylvania State University:::: 100 Huck Life Sciences Building:::: University Park, Pennsylvania 16802:::: [http://www.cvent.com/events/8th-regional-translational-research-in-mitochondria-aging-and-disease-symposium/directions-16730cf0fe2c47a1b79f1a3b9ab0b364.aspx directions]== Organizers ==:::: Kateryna Makova, PhD - Penn State, University Park:::: Donna Korzick, PhD - Penn State, University Park[[File:Image001.jpg|right|550px]]== Programme ==:::: Please find the programme [http://www.cvent.com/events/8th-regional-translational-research-in-mitochondria-aging-and-disease-symposium/agenda-16730cf0fe2c47a1b79f1a3b9ab0b364.aspx here]== Registration ==:::: [https://www.cvent.com/events/8th-regional-translational-research-in-mitochondria-aging-and-disease-symposium/registration-16730cf0fe2c47a1b79f1a3b9ab0b364.aspx?fqp=true Register here] == Lecturers and tutors ==:::: The list of speakers can be found [http://www.cvent.com/events/8th-regional-translational-research-in-mitochondria-aging-and-disease-symposium/custom-18-16730cf0fe2c47a1b79f1a3b9ab0b364.aspx here]6730cf0fe2c47a1b79f1a3b9ab0b364.aspx here])
SBC 2023 Goa IN + (92nd Annual Meet of The Society of Biological Chemists, Goa, India, 2023)
Annual Meeting of the DPG 2016 Luebeck DE + (95th Annual Meeting of the DPG, [http://www.dpg2016.de/ DPG 2016], Luebeck, DE)
ASMRM 2012 Bejing CN + (9th Conference of t … 9th Conference of the Asian Society of Mitochondrial Research and Medicine and 5th Conference of Chinese Society of Mitochondrial Research and Medicine (Chinese-Mit), [http://asmrm2012.csp.escience.cn/dct/page/65540 ASMRM 2012], Bejing CN://asmrm2012.csp.escience.cn/dct/page/65540 ASMRM 2012], Bejing CN)
DNA Forensics 2014 + (9th International Y-chromosome workshop & 6th International EMPOP meeting, Brussels, Belgium; DNA Forensics 2014)
MiPschool Greenville 2015 + (9th MiP''school'' f … 9th MiP''school'' for cellular bioenergetics and mitochondrial physiology students, 2015 Aug 10-14, Greenville, US.» [http://www.ecu.edu/cs-admin/news/mip.cfm '''Global conference highlights mitochondria expertise at ECU'''], by Kathryn Kennedy ECU News Services.tise at ECU'''], by Kathryn Kennedy ECU News Services.)
SMRM2023 Hyderabad IN + (9th Annual Conference of the SMRM, Hyderabad, India.)
9th ÖGMBT Annual Meeting & 8th Life Science Meeting 2017 Innsbruck AT + (9th ÖGMBT Annual Meeting & 8th Life Science Meeting, Innsbruck, Austria)
Crispim 2019 MitoFit Preprint Arch EA + ( ::: Version 2 ('''v2''') '' … ::: Version 2 ('''v2''') '''2019-06-27''' [https://www.mitofit.org/images/6/68/Crispim_2019_MitoFit_Preprint_Arch_doi_10.26124mitofitea19.MiPSchool.0007.v2.pdf doi:10.26124/mitofit:ea19.MiPSchool.0007.v2]; v1 2019-06-17 [https://wiki.oroboros.at/images/8/81/Crispim_2019_MitoFit_Preprint_Arch_doi_10.26124mitofitea19.MiPSchool.0007.pdf doi:10.26124/mitofit:ea19.MiPSchool.0007]::: Version 1 (v1) [https://wiki.oroboros.at/images/8/81/Crispim_2019_MitoFit_Preprint_Arch_doi_10.26124mitofitea19.MiPSchool.0007.pdf doi:10.26124/mitofit:ea19.MiPSchool.0007]== Although atovaquone is one of the newest antimalarial compounds discovered, resistant parasites have already been reported1. Atovaquone mechanism of action is established to be the competition with ubiquinol (UQH2) for the bc1 union at mitochondrial cytochrome bc1 complex and preventing the parasite from maintaining an oxidized ubiquinone (UQ) pool, essential for the DHODH activity and consequently for the pyrimidine's biosynthesis. In this sense, possible inhibitors of the ubiquinone biosynthesis pathway would be candidates by stimulating the effects of atovaquone. 4-nitrobenzoate (4-NB) is a well-known inhibitor of 4HPT (4-hydroxybenzoate polyprenyltransferase), the first enzyme of UQ biosynthesis. 4-NB also showed an important effect on reducing the UQs pool in P. falciparum. Herein is presenting the effect of atovaquone and 4-NB on parasitic respiration UQ biosynthesis. The purpose of this study was to better understand the atovaquone mechanism of action in a molecular scale, drug target potential of UQ biosynthesis. Oxygen consumption assays revealed 4-NB potentiates atovaquone mitochondrial effects and showed itself the ability to decrease the respiration rate. ==- ''Extended abstract''crease the respiration rate. == - ''Extended abstract'' )
Gnaiger 2019 MitoFit Preprints Editorial + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2019-04-24''' [http://www.mitofit.org/images/d/d3/Gnaiger_2019_MitoFit_Preprint_Arch_doi_10.26124_mitofit_190002.v2.pdf doi:10.26124/mitofit:190002.v2]::: Version 1 (v1) 2019-04-01 [http://www.mitofit.org/images/archive/d/d3/20190424180311%21Gnaiger_2019_MitoFit_Preprint_Arch_doi_10.26124_mitofit_190002.v2.pdf doi:10.26124/mitofit:190002] - [http://www.mitofit.org/index.php/File:Gnaiger_2019_MitoFit_Preprint_Arch_doi_10.26124_mitofit_190002.v2.pdf#Links_to_all_versions »Link to all versions«]A manuscript in preparation for publication on ‘Mitochondrial states and rates’ is the first preprint posted on ''[[MitoFit Preprints]]'' (Gnaiger ''et al'' 2019). It actually triggered the initiation of a preprint server for mitochondrial physiology and bioenergetics. This editorial presents the story behind starting ''MitoFit Preprints'', to develop a vision of science communication beyond traditional journal and preprint publication. This is an open invitation to scientists of mitochondrial physiology and bioenergetics to join the preprint community by submitting manuscripts as preprints. We face the ''reproducibility crisis'' in the battle to separate doubtful data from relevant information. This is linked to the ''inflation crisis'' emanating from an exponential increase of scientific articles published per day. Unsustainable exponential growth leads to the ''value-impact crisis'' in the struggle to forge scientific innovation into knowledge and community benefits. forge scientific innovation into knowledge and community benefits. )
Gnaiger 2020 MitoFit x + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2021-09-06''' [https://www.mitofit.org/images/4/4a/Gnaiger_MitoFit_Preprint_Arch_2020.4_doi_10.26214mitofit.200004.pdf doi:10.26124/mitofit:200004.v2]::: Version 1 ('''v1''') 2020-08-11 [https://wiki.oroboros.at/images/archive/4/4a/20210906072525%21Gnaiger_MitoFit_Preprint_Arch_2020.4_doi_10.26214mitofit.200004.pdf doi:10.26124/mitofit:200004] — [https://www.mitofit.org/index.php/File:Gnaiger_MitoFit_Preprint_Arch_2020.4_doi_10.26214mitofit.200004.pdf »Link to all versions«]“The International System of Units, the SI, has been used around the world as the preferred system of units, the basic language for science, technology, industry and trade since it was established in 1960.” This statement heralds the 9th edition of the SI released on 2019-May-20. An new approach was introduced by defining the SI base units ― and thus the abstract SI units in general ― by their relation to fixed numerical values of fundamental constants of nature. Previous definitions of abstract units relied on a reference to concrete individual things realized as material artefacts, such as the International Prototype of the Kilogram (IPK). The (general) abstract unit ‘kilogram’ had to be calibrated in balance against an (individual) ‘entetic’ unit defining “1 kg” as a reference for the unit of mass and the mole [mol] as the unit of amount. Now the SI defines the mole as the fixed number of entities given by the Avogadro constant ''N''A. The elementary charge ''e'' is a fixed number of charges per proton. Amount and charge are thus in a fixed relation to the count of elementary entities ''U''''X'' [x]. Count, amount, and charge are isomorphic elementary quantities. Amount and charge are linked to the count ''N''''X'' = ''N''∙''U''''X'' with elementary unit x by fixed conversion constants ''N''A-1 [mol∙x−1] and ''e'' [C∙x−1], respectively. The SI does not use the elementary unit x. This causes a number of formal inconsistencies as discussed in the present communication on Euclid’s unit, which is ''U''''X'', and Euclid’s number, which is a count ''N''''X''.sistencies as discussed in the present communication on Euclid’s unit, which is ''U''''X'', and Euclid’s number, which is a count ''N''''X''. )
Baglivo 2022 MitoFit-QC + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2022-05-09''' [https://wiki.oroboros.at/images/c/c8/Baglivo_2022_MitoFit-QC.pdf doi:10.26124/mitofit:2022-0018.v2]::: Version 1 (v1) 2022-05-05 [https://wiki.oroboros.at/images/archive/c/c8/20220506062726%21Baglivo_2022_MitoFit-QC.pdf doi:10.26124/mitofit:2022-0018.v1] - [https://wiki.oroboros.at/index.php/File:Baglivo_2022_MitoFit-QC.pdf »Link to all versions«][[File:Baglivo 2022 MitoFit QC graphical-abstract.png|right|300px|Graphical abstract]][[Baglivo 2022 Abstract Bioblast]]: Evaluation of instrumental reproducibility is a primary component of quality control to quantify the precision and limit of detection of analytical procedures. A pre-analytical instrumental standard operating procedure (SOP) is implemented in high-resolution respirometry consisting of: (''1'') a daily SOP-POS for air calibration of the polarographic oxygen sensor (POS) in terms of oxygen concentration ''c''O2 [µM]. This is part of the ''sensor test'' to evaluate POS performance; (''2'') a monthly SOP-BG starting with the SOP-POS followed by the ''chamber test'' quantifying the instrumental O2 background. The chamber test focuses on the slope d''c''O2/d''t'' [pmol∙s−1∙mL−1] to determine O2 consumption by the POS and O2 backdiffusion into the chamber as a function of ''c''O2 in the absence of sample. Finally, zero O2 calibration completes the sensor test. We applied this SOP in a 3-year study using 48 Oroboros O2k chambers. Stability of air and zero O2 calibration signals was monitored throughout intervals of up to 8 months without sensor service. Maximum drift over 1 to 3 days was 0.06 pmol∙s−1∙mL−1, without persistence over time since drift was <0.004 pmol∙s−1∙mL−1 for time intervals of one month, corresponding to a drift per day of 0.2 % of the signal at air saturation. Instrumental O2 background -d''c''O2/d''t'' was stable within ±1 pmol∙s−1∙mL−1 when measured at monthly intervals. These results confirm the instrumental limit of detection of volume-specific O2 flux at ±1 pmol∙s−1∙mL−1. The instrumental SOP applied in the present study contributes to the generally applicable internal quality control management ensuring the unique reproducibility in high-resolution respirometry. These results confirm the instrumental limit of detection of volume-specific O2 flux at ±1 pmol∙s−1∙mL−1. The instrumental SOP applied in the present study contributes to the generally applicable internal quality control management ensuring the unique reproducibility in high-resolution respirometry. )
Gainutdinov 2022 MitoFit + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2022-08-16''' [https://wiki.oroboros.at/images/5/5a/Gainutdinov_2022_MitoFit.pdf https://doi.org/10.26124/mitofit:2022-0015.v2]::: Version 1 (v1) 2022-04-21 [https://wiki.oroboros.at/images/archive/5/5a/20220816100352%21Gainutdinov_2022_MitoFit.pdf https://doi.org/10.26124/mitofit:2022-0015]- [https://wiki.oroboros.at/index.php/File:Gainutdinov_2022_MitoFit.pdf »Link to all versions«]Amyotrophic lateral sclerosis (ALS) is a progressive, devastating, neurodegenerative disorder affecting upper and lower motor neurons. Common mechanisms of ALS pathogenesis are believed to be the disturbance of calcium homeostasis in the cell and dysfunction of mitochondria. Both factors mutually influence each other. As a result, chronic mitochondrial energy stress impairs fine cellular signaling and transport processes, leading to degeneration of motor neurons. In the current study we comparatively evaluated the cytosolic Ca2+ in healthy and ALS fibroblasts. We found that the mitochondrial calcium capacity in fibroblasts obtained from patients with sporadic (sALS) and familial (fALS) ALS differs between two subtypes and from that in healthy individuals. The changes of [Ca2+]cyt dynamics in ALS fibroblasts could be almost completely rescued by treatment with antioxidants (Trolox and CoQ10). These data confirm an important role of oxidative stress as a causative factor of mitochondrial dysfunction in ALS.portant role of oxidative stress as a causative factor of mitochondrial dysfunction in ALS. )
Alencar 2022 MitoFit + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2022-07-07''' [https://wiki.oroboros.at/images/5/54/Alencar_2022_MitoFit.pdf doi:10.26124/mitofit:2022-0009.v2]::: Version 1 (v1) 2022-04-07 [https://wiki.oroboros.at/images/archive/5/54/20220707123437%21Alencar_2022_MitoFit.pdf doi:10.26124/mitofit:2022-0009.v1] - [https://wiki.oroboros.at/index.php/File:Alencar_2022_MitoFit.pdf »Link to all versions«][[Oliveira 2022 Abstract Bioblast]]: The parasite ''Trypanosoma brucei'' is the causative agent of sleeping sickness and involves an insect vector and a mammalian host through its complex life-cycle. ''T. brucei'' mammalian bloodstream forms (BSF) exhibit unique metabolic features including: ''i)'' reduced expression and activity of mitochondrial enzymes; ''ii)'' respiration mediated by the glycerol phosphate shuttle (GPSh) and the ''Trypanosome'' alternative oxidase (TAO) that is intrinsically uncoupled from generation of mitochondrial membrane potential; ''iii)'' maintenance of mitochondrial membrane potential by ATP hydrolysis through the reversal of F1Fo ATP synthase activity; ''iv)'' strong reliance on glycolysis to meet their energy demands; ''v)'' high susceptibility to oxidants. Here, we critically review the main metabolic features of BSF and provide a hypothesis to explain the unusual metabolic network and its biological significance for this parasite form. We postulate that intrinsically uncoupled respiration provided by GPSh-TAO system would act as a preventive antioxidant defense by limiting mitochondrial superoxide production and complementing the NADPH-dependent scavenging antioxidant defenses to maintain parasite redox balance. Given the uncoupled nature of the GPSh-TAO system, BSF would avoid programmed cell death processes by maintaining mitochondrial membrane potential through the reversal of ATP synthase activity using the ATP generated by glycolysis. This unique “metabolic design” in BSF has no biological parallel outside of Trypanosomatids and highlights the enormous diversity of the parasite mitochondrial processes to adapt to distinct environments.parasite mitochondrial processes to adapt to distinct environments. )
Ganguly 2022 MitoFit + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2022-11-10''' [https://wiki.oroboros.at/images/6/64/Ganguly_2022_MitoFit.pdf https://doi.org/10.26124/mitofit:2022-0013.v2]::: Version 1 (v1) 2022-04-19 [https://wiki.oroboros.at/images/archive/6/64/20221110103433%21Ganguly_2022_MitoFit.pdf https://doi.org/10.26124/mitofit:2022-0013]- [https://wiki.oroboros.at/index.php/File:Ganguly_2022_MitoFit.pdf »Link to all versions«]Ferroptosis has been identified as a type of regulated cell death triggered by a diverse set of agents with implications in various diseases like cancer and neurodegenerative diseases. Ferroptosis is iron-dependent and accompanied by an accumulation of reactive oxygen species (ROS) and lipid oxidation products, a depletion of reduced glutathione, mitochondrial morphological alterations and the rupture of cell membrane; the process is inhibited by specific antioxidants like ferrostatin-1 and liproxstatin-1 and by other general antioxidants like the iron-chelator deferoxamine, vitamin E and N-acetylcysteine. However, the mechanism of cell death in ferroptosis subsequent to the accumulation of ROS and lipid oxidation products is not clearly established. We show here that the classical mitochondrial Complex I inhibitor rotenone (0.5 µM) causes death of SH-SY5Y cells (a human neuroblastoma cell line) over a period of 48 h accompanied by mitochondrial membrane depolarization and intracellular ATP depletion. This is associated with an intracellular accumulation of ROS and the lipid oxidation product malondialdehyde or MDA and a decrease in reduced glutathione content. All these processes are inhibited very conspicuously by specific inhibitors of ferroptosis such as ferrostatin-1 and liproxstatin-1. However, the decrease in Complex I activity upon rotenone-treatment of SH-SY5Y cells is not significantly recovered by ferrostatin-1 and liproxstatin-1. When the rotenone-treated cells are analyzed morphologically by Hoechst 33258 and propidium iodide (PI) staining, a mixed picture is noticed with densely fluorescent and condensed nuclei indicating apoptotic death of cells (Hoechst 33258) and also significant numbers of necrotic cells with bright red nuclei (PI staining).ant numbers of necrotic cells with bright red nuclei (PI staining). )
Roach 2022 MitoFit + ( ::: Version 2 ('''v2''') ''' … ::: Version 2 ('''v2''') '''2022-07-19''' [https://wiki.oroboros.at/images/d/d6/Roach_2022_MitoFit.pdf doi:10.26124/mitofit:2022-0023.v2]::: Version 1 (v1) 2022-06-03 [https://wiki.oroboros.at/images/archive/d/d6/20220719153447%21Roach_2022_MitoFit.pdf doi:10.26124/mitofit:2022-0023.v1] - [https://wiki.oroboros.at/index.php/File:Roach_2022_MitoFit.pdf »Link to all versions«][[Roach 2022 Abstract Bioblast]]: Tolerance of rapid changes in light intensity by photosynthetic organisms is facilitated by non-photochemical quenching (NPQ), a term with reference to quenching of chlorophyll fluorescence, the technique used in its discovery. Mechanisms of NPQ include dissipating excess light energy to heat (qE), the reversible attachment of light-harvesting complexes (LHC) to photosystems (state transition / qT) and photoinhibition (qI). Chlorophyll is a ubiquitous pigment of photosynthetic organisms, found in LHC and the reaction centres of photosystem II and I (PSII; PSI). At room temperature, pulse-amplitude modulated (PAM) chlorophyll fluorescence protocols provide insights into PSII efficiency, thus a reasonable proxy for photosynthetic activity (carbon fixation), at least under optimal conditions. NPQ has a major impact on chlorophyll fluorescence intensity and is also quantified by PAM. Since NPQ mechanisms can occur simultaneously, they cause complexities in deciphering the signal. In algae, the ability for chlorophyll fluorescence in determining photosynthetic rates is not perfect, but it can still provide valuable information of processes affecting light harvesting. The aim of this report is to provide an overview of how various NPQ mechanisms in the model unicellular chlorophyte alga, ''Chlamydomonas reinhardtii'', as well as environmental conditions, affect chlorophyll fluorescence. I also propose a PAM protocol enabling the kinetics associated with each of the NPQ phases to be semi-quantified in under 20 min. h of the NPQ phases to be semi-quantified in under 20 min. )
Di Marcello 2019 MitoFit Preprint Arch EA + ( ::: Version 3 ('"v3"') '''20 … ::: Version 3 ('"v3"') '''2019-07-03''' [https://www.mitofit.org/images/1/15/Di_Marcello_2019_MitoFit_Preprint_Arch_doi_10.26214mitofitea19.MiPSchool.0005.v2.pdf doi:10.26124/mitofit:ea19.MiPSchool.0005.v2.pdf]::: Version 2 (v2) 2019-06-27 [https://www.mitofit.org/images/1/15/Di_Marcello_2019_MitoFit_Preprint_Arch_doi_10.26214mitofitea19.MiPSchool.0005.v2.pdf doi:10.26124/mitofit:ea19.MiPSchool.0005.v2.pdf]::: Version 1 (v1) 2019-06-15 [http://www.mitofit.org/images/0/09/Di_Marcello_2019_MitoFit_Preprint_Arch.pdf doi:10.26124/mitofit:ea19.MiPSchool.0005]Bioenergetics is the study of how living organisms acquire and transform energy to perform biological work. Energetic coupling between chloroplasts and mitochondria has been described in algae, demonstrating the good functionality and interaction between both organelles is necessary to maintain metabolic integrity. High-resolution respirometry (HRR) is widely used to assess mitochondrial respiration and other bioenergetics parameters in the biomedical field of mitochondrial research and its clinical applications. In our interdisciplinary study, we adapted the multimodal approach of the Oroboros O2k high-resolution respirometer to investigate algal bioenergetics for biotechnological purposes. - ''Extended abstract''gate algal bioenergetics for biotechnological purposes. - ''Extended abstract'' )
Pallag 2022 MitoFit Proline + ( ::: Version 3 ('''v3''') ''' … ::: Version 3 ('''v3''') '''2022-03-07''' [https://wiki.oroboros.at/images/4/42/Pallag_2022_MitoFit_Proline.pdf doi:10.26124/mitofit:2022-0001.v3]::: Version 2 (v2) 2022-03-03 [https://wiki.oroboros.at/images/archive/4/42/20220307085642%21Pallag_2022_MitoFit_Proline.pdf doi:10.26124/mitofit:2022-0001.v2]::: Version 1 (v1) 2022-03-02 [https://wiki.oroboros.at/images/archive/4/42/20220303104356%21Pallag_2022_MitoFit_Proline.pdf doi:10.26124/mitofit:2022-0001] - [https://wiki.oroboros.at/index.php/File:Pallag_2022_MitoFit_Proline.pdf »Link to all versions«]In mitochondria expressing proline dehydrogenase (ProDH), oxidation of proline to pyrroline-5-carboxylate (P5C) leads to transfer of electrons to ubiquinone supporting Complexes CIII and CIV, in turn generating the protonmotive force. Further catabolism of P5C forms glutamate that fuels the citric acid cycle yielding reducing equivalents sustaining oxidative phosphorylation. However, P5C and glutamate catabolism depend on CI activity due to NAD+ requirement. The extent of proline oxidation was established in isolated mitochondria of various mouse tissues by means of simultaneously measuring oxygen consumption, membrane potential, NADH and ubiquinone redox state using the NextGen-O2k (Oroboros Instruments) and correlated to ProDH activity and F1FO-ATPase directionality. In CI-inhibited mouse liver and kidney mitochondria exhibiting high levels of proline oxidation and ProDH activity, catabolism of proline generated a sufficiently high membrane potential maintaining F1FO-ATPase operation in forward mode. This was not observed when either CIII or CIV was inhibited, nor during anoxia. Fueling CIII and CIV with duroquinone partially reproduced the effects of proline. Excess glutamate could not reproduce the effects of proline, arguing that they are due to processes upstream of glutamate conversion from proline. The ProDH inhibitors L-tetrahydro-2-furoic acid and to lesser extent S-5-oxo-2-tetrahydrofurancarboxylic acid abolished all effects conferred by proline. It is concluded that proline catabolism through ProDH generates sufficient CIII and CIV proton pumping, supporting ATP production by F1FO-ATPase even when CI is inhibited. production by F1FO-ATPase even when CI is inhibited. )
Gnaiger 2021 MitoFit BCA + ( ::: Version 1 ('''v1''') '''2021-09-21''' … ::: Version 1 ('''v1''') '''2021-09-21''' [https://www.mitofit.org/images/1/16/Gnaiger_2021_MitoFit_BCA.pdf doi:10.26124/mitofit:2021-0008][[File:Gnaiger 2021 MitoFit BCA-graphical abstract.png|right|300px|Graphical abstract]]Cell respiration reflects mitochondrial fitness and plays a pivotal role in health and disease. Despite the rapidly increasing number of applications of cell respirometry to address current challenges in biomedical research, cross-references are rare between respirometric projects and platforms. Evaluation of accuracy and reproducibility between laboratories requires presentation of results in a common format independent of the applied method. When cell respiration is expressed as oxygen consumption rate in an experimental chamber, normalization is mandatory for comparability of results. Concept-driven normalization and regression analysis are key towards bioenergetic cluster analysis presented as a graphical tool to identify discrete data populations.In a meta-analysis of human skin fibroblasts, high-resolution respirometry and polarography covering cell senescence and the human age range are compared with multiwell respirometry. The common coupling control protocol measures ROUTINE respiration of living cells followed by sequential titrations of oligomycin, uncoupler, and inhibitors of electron transfer.Bioenergetic cluster analysis increases the resolution of outliers within and differences between groups. An outlier-skewness index is introduced as a guide towards logarithmic transformation for statistical analysis. Isolinear clusters are separated by variations in the extent of a quantity that correlates with the rate, whereas heterolinear clusters fall on different regression lines. Dispersed clusters are clouds of data separated by a critical threshold value. Bioenergetic cluster analysis provides new insights into mitochondrial respiratory control and a guideline for establishing a quality control paradigm for bioenergetics and databases in mitochondrial physiology. bases in mitochondrial physiology. )
Donnelly 2022 MitoFit Hypoxia + ( ::: Version 2 ('''v2''') '''2022-07-15''' … ::: Version 2 ('''v2''') '''2022-07-15''' [https://wiki.oroboros.at/images/4/44/Donnelly_2022_MitoFit_Hypoxia.pdf The ABC of hypoxia – what is the norm https://doi.org/10.26124/mitofit:2022-0025.v2]::: Version 1 (v1) 2022-06-28 - [https://wiki.oroboros.at/index.php/File:Donnelly_2022_MitoFit_Hypoxia.pdf »Link to all versions«][[File:Oxia terms.png|right|250px]][[Donnelly 2022 Abstract Bioblast]]: Hypoxia is a condition of oxygen levels below normoxia and opposite to hyperoxia. We here define the normoxic reference state by three complementary precepts: ('''A''') ambient normoxia at sea level in the contemporary atmosphere and corresponding dissolved O2 concentration at air saturation of aqueous environments; ('''B''') biological compartmental O2 levels at ambient normoxia under physiological activity of healthy organisms in the absence of environmental stress (e.g. in a diving human, a stranded whale, a thermally stressed animal); and ('''C''') O2 levels above the control region, i.e., where the capacity for O2 consumption is not compromised by partial O2 pressure as evaluated by its kinetics. Conversely, the '''abc''' of hypoxia is concerned with deviations from these reference points caused by different mechanisms: ('''a''') ambient alterations of oxygen levels; ('''b''') biological O2 demand exceeding O2 supply under pathological or experimental limitations of convective O2 transport or O2 diffusion; and ('''c''') critical oxygen pressure in oxygen kinetics shifted by pathological and toxicological effects or environmental stress. The ABC of hypoxia may be of help in the design and interpretation of ''in vitro'' and ''in vivo'' experimental studies. ical effects or environmental stress. The ABC of hypoxia may be of help in the design and interpretation of ''in vitro'' and ''in vivo'' experimental studies. )
Cardoso 2021 MitoFit MgG + (<big>'''Journal publication 2021-06- … <big>'''Journal publication 2021-06-30 in [https://www.bioenergetics-communications.org/index.php/bec/article/view/cardoso_2021_mgg »Bioenergetics Communications 2021.1«]'''</big>For the advanced study of mitochondrial function, high-resolution respirometry is extended by fluorometric measurement of ATP production using the fluorophore Magnesium Green™ (MgG). A common problem with several fluorescent dyes is the inhibition of mitochondrial respiration. In the present study, a coupling control protocol was applied in combination with MgG to measure ATP production simultaneously with respiration for calculation of P»/O2 ratios. MgG at 1.1 µM did not affect respiration through the NADH-linked and succinate-linked pathways. Respiration was not inhibited in any of the coupling control states, hence coupling control efficiencies were not affected by MgG.tes, hence coupling control efficiencies were not affected by MgG.)
Krako Jakovljevic 2021 MitoFit PD + (<big>'''Journal publication 2021-10- … <big>'''Journal publication 2021-10-06 in [https://www.bioenergetics-communications.org/index.php/bec/article/view/krako_jakovljevic_2021_pd »Bioenergetics Communications 2021.2«]'''</big>Mitochondrial function is known to be an important factor in maintaining cellular homeostasis and its dysregulation has become a hallmark for multiple disease conditions. This review aims to synthesise the extent of this knowledge by analysing changes of mitochondrial physiology parameters in Parkinson’s disease (PD) and to evaluate the contribution of cellular models of PD in the field. The analysis provided here constitutes a platform for further elucidation of mitochondrial function parameters relative to factors that may potentiate disease progression.ve to factors that may potentiate disease progression.)
Vernerova 2021 MitoFit PLT + (<big>'''Journal publication 2021-12- … <big>'''Journal publication 2021-12-08 in [[Vernerova 2021 Biomedicines |''Biomedicines'']]'''</big>[[File:Vernerova 2021 Mitofit PLT - graphical abstract.png|right|300px|Graphical abstract]] Multiple non-aggregatory functions of human platelets (PLT) are widely acknowledged, yet their functional examination is limited mainly due to a lack of standardized isolation and analytic methods. Platelet apheresis (PA) is an established clinical method for PLT isolation aiming at the treatment of bleeding diathesis in severe thrombocytopenia. On the other hand, density gradient centrifugation (DC) is an isolation method applied in research for the analysis of the mitochondrial metabolic profile of oxidative phosphorylation (OXPHOS) in PLT obtained from small samples of human blood. We studied PLT obtained from 29 healthy donors by high-resolution respirometry for comparison of PA and DC isolates. ROUTINE respiration and electron transfer capacity of living PLT isolated by PA were significantly higher than in the DC group, whereas plasma membrane permeabilization resulted in a 57 % decrease of succinate oxidation in PA compared to DC. These differences were eliminated after washing the PA cells with phosphate buffer containing 10 mmol·L-1 EGTA, suggesting that several components, particularly Ca2+ and fuel substrates, were carried over into the respiratory assay from the serum in PA. A simple washing step was sufficient to enable functional mitochondrial analysis in subsamples obtained from PA.The combination of the standard clinical PA isolation procedure with PLT quality control and routine mitochondrial OXPHOS diagnostics meets an acute clinical demand in biomedical research of patients suffering from thrombocytopenia and metabolic diseases. h of patients suffering from thrombocytopenia and metabolic diseases. )