# Edit Publication: Gnaiger 2020 MitoFit x

You do not have permission to edit this page, for the following reason:

The action you have requested is limited to users in the group: Users.

Publication

Do you need help? Press CTRL+left mouse click - this will open the detailed guidelines in a separate window ::: 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''. [[Gnaiger Erich]]

Please provide some more detailed information about you publication, by ticking the appropriate keywords

MiPareas: Respiration  Instruments;methods  mt-Biogenesis;mt-density  mt-Structure;fission;fusion  mt-Membrane  mtDNA;mt-genetics  nDNA;cell genetics  Genetic knockout;overexpression  Comparative MiP;environmental MiP  Gender  Developmental biology  Exercise physiology;nutrition;life style  mt-Medicine  Patients  Pharmacology;toxicology  mt-Awareness Aging;senescence  Alzheimer's  Autism  Cancer  Cardiovascular  COPD  Diabetes  Inherited  Infectious  Myopathy  Neurodegenerative  Obesity  Parkinson's  Sepsis  Other Cell death  Cryopreservation  Ischemia-reperfusion  Permeability transition  Oxidative stress;RONS  Temperature  Hypoxia  Mitochondrial disease Human  Pig  Mouse  Rat  Guinea pig  Bovines  Horse  Dog  Rabbit  Cat  Other mammals  Chicken  Zebrafish  Drosophila  Artemia  Caenorhabditis elegans  Saccharomyces cerevisiae  Birds  Reptiles  Amphibians  Fishes  Chelicerates  Crustaceans  Hexapods  Myriapods  Annelids  Molluscs  Nematodes  Other invertebrates  Fungi  Plants  Protists  Eubacteria  Archea  Algae Heart  Skeletal muscle  Nervous system  Liver  Kidney  Lung;gill  Islet cell;pancreas;thymus  Endothelial;epithelial;mesothelial cell  Blood cells  Fat  Genital  Other cell lines  CHO  HEK  HeLa  Neuroblastoma  Fibroblast  HUVEC  Macrophage-derived  Lymphocyte  Platelet  Stem cells Intact organism  Intact organ  Permeabilized cells  Permeabilized tissue  Homogenate  Isolated mitochondria  SMP  Chloroplasts  Enzyme  Oxidase;biochemical oxidation  Intact cells Adenine nucleotide translocase  Complex I  Complex II;succinate dehydrogenase  Complex III  Complex IV;cytochrome c oxidase  Complex V;ATP synthase  Inner mt-membrane transporter  Marker enzyme  Supercomplex  TCA cycle and matrix dehydrogenases  Uncoupling protein Aerobic glycolysis  ADP  ATP  ATP production  AMP  Calcium  Coupling efficiency;uncoupling  Cyt c  Flux control  Inhibitor  Ion;substrate transport  mt-Membrane potential  Oxygen kinetics  PCr;Cr  pH  Phosphate  Redox state  Substrate  Temperature  Threshold;excess capacity  Uncoupler  Fatty acid  Amino acid  Q-junction effect LEAK  ROUTINE  OXPHOS  ET F  N  S  Gp  DQ  CIV  NS  Other combinations  ROX Oxygraph-2k  TIP2k  O2k-Fluorometer  pH  NO  TPP  Ca  O2k-Spectrophotometer  O2k-Manual  O2k-Protocol  Theory  NextGen-O2k BMEAmount of substanceAvogadro constantConcentrationCountDensityDimensionElementary chargeElementary entityEntityInternational System of UnitsMassNumberNumeralUnitVolumeQuantityBEC 2020.2MitoFit 2021 BCA (separate values by comma)

Free text: If the abstract is longer than 500 words, please enter additional information here.