Difference between revisions of "Template:Keywords-MitoPedia BEC 2020.1"
From Bioblast
| Line 24: | Line 24: | ||
|- | |- | ||
| ATP yield per O<sub>2</sub> || [[ATP yield]] || ''Y''<sub>P»/O<sub>2</sub></sub> || 1 || P»/O<sub>2</sub> ratio measured in any respiratory state | | ATP yield per O<sub>2</sub> || [[ATP yield]] || ''Y''<sub>P»/O<sub>2</sub></sub> || 1 || P»/O<sub>2</sub> ratio measured in any respiratory state | ||
|- | |||
| catabolic rate of respiration || [[Respirometry]] || ''J''<sub>kO<sub>2</sub></sub>; ''I''<sub>kO<sub>2</sub></sub> || ''varies'' || Fig. 1, 3; ''see'' flux ''J'' and flow ''I'' | |||
|- | |- | ||
| catabolic reaction || [[Respirometry]] || k || - || Fig. 1, 3 | | catabolic reaction || [[Respirometry]] || k || - || Fig. 1, 3 | ||
|- | |- | ||
| | | cell count || [[Count]] || ''N''<sub>ce</sub> || [x] || Tab. 4; Fig. 5; ''see'' number of cells | ||
|- | |- | ||
| cell count || [[ | | cell-count concentration || [[Concentration]] || ''C''<sub>ce</sub> || [x∙L<sup>-1</sup>] || Tab. 4; ''C''<sub>ce</sub> = ''N''<sub>ce</sub>∙''V''<sup>-1</sup> | ||
|- | |- | ||
| cell mass || [[Body mass]] || ''m''<sub>ce</sub> || [kg] || Tab. 5; Fig. 5 | | cell mass || [[Body mass]] || ''m''<sub>ce</sub> || [kg] || Tab. 5; Fig. 5 | ||
| Line 36: | Line 38: | ||
|- | |- | ||
| cell-mass concentration || [[Concentration]] || ''C''<sub>''m''<sub>ce</sub></sub> || [kg∙L<sup>-1</sup>] || ''see'' ''C''<sub>''m''<sub>s</sub></sub>: Tab. 4; ''C''<sub>''m''<sub>ce</sub></sub> = ''m''<sub>ce</sub>∙''V''<sup>-1</sup> | | cell-mass concentration || [[Concentration]] || ''C''<sub>''m''<sub>ce</sub></sub> || [kg∙L<sup>-1</sup>] || ''see'' ''C''<sub>''m''<sub>s</sub></sub>: Tab. 4; ''C''<sub>''m''<sub>ce</sub></sub> = ''m''<sub>ce</sub>∙''V''<sup>-1</sup> | ||
|- | |- | ||
| cell viability index || [[Cell viability]] || ''VI'' || - || ''VI'' = ''N''<sub>vce</sub>∙''N''<sub>ce</sub><sup>-1</sup> = 1 - ''N''<sub>dce</sub>∙''N''<sub>ce</sub><sup>-1</sup> | | cell viability index || [[Cell viability]] || ''VI'' || - || ''VI'' = ''N''<sub>vce</sub>∙''N''<sub>ce</sub><sup>-1</sup> = 1 - ''N''<sub>dce</sub>∙''N''<sub>ce</sub><sup>-1</sup> | ||
| Line 44: | Line 44: | ||
|- | |- | ||
| Complexes I to IV || [[Complex I]] || CI to CIV || - || respiratory ET Complexes are redox proton pumps; Fig. 1B; F<sub>1</sub>F<sub>O</sub>-ATPase is not a redox proton pump of the ETS, hence the term CV is not recommended | | Complexes I to IV || [[Complex I]] || CI to CIV || - || respiratory ET Complexes are redox proton pumps; Fig. 1B; F<sub>1</sub>F<sub>O</sub>-ATPase is not a redox proton pump of the ETS, hence the term CV is not recommended | ||
|- | |- | ||
| concentration of B, amount || [[Concentration]] || ''c''<sub>B</sub> = ''N''<sub>B</sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || SI: amount of substance concentration [[[Cohen 2008 IUPAC Green Book |24]]] | | concentration of B, amount || [[Concentration]] || ''c''<sub>B</sub> = ''N''<sub>B</sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || SI: amount of substance concentration [[[Cohen 2008 IUPAC Green Book |24]]] | ||
|- | |- | ||
| concentration of O2, amount || [[Concentration]] || ''c''<sub>O<sub>2</sub></sub> = ''n''<sub>O<sub>2</sub></sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || Box 2; [O<sub>2</sub>] | | concentration of O2, amount || [[Concentration]] || ''c''<sub>O<sub>2</sub></sub> = ''n''<sub>O<sub>2</sub></sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || Box 2; [O<sub>2</sub>] | ||
|- | |||
| concentration of ''X'', count || [[Concentration]] || ''C<sub>X</sub>'' = ''N<sub>X</sub>''∙''V''<sup>-1</sup> || [x∙L<sup>-1</sup>] || Tab. 4 (number concentration [[[Cohen 2008 IUPAC Green Book |24]]]) | |||
|- | |- | ||
| count format || [[Format]] || <u>''N''</u> || [x] || Tab. 4, 5; Fig. 5 | | count format || [[Format]] || <u>''N''</u> || [x] || Tab. 4, 5; Fig. 5 | ||
| Line 90: | Line 90: | ||
|- | |- | ||
| isolated mitochondria || [[Isolated mitochondria]] || imt || - || [[Bureau International des Poids et Mesures 2019 The International System of Units (SI) |[11]]] | | isolated mitochondria || [[Isolated mitochondria]] || imt || - || [[Bureau International des Poids et Mesures 2019 The International System of Units (SI) |[11]]] | ||
|- | |||
| LEAK-state || [[LEAK-respiration]] || LEAK || - || Tab. 1; Fig. 2 (compare State 4) | |||
|- | |||
| LEAK-respiration || [[LEAK-respiration]] || ''L'' || ''varies'' || rate; Tab. 1; Fig. 2 | |||
|- | |- | ||
| living cells || [[Living cells]] || ce || - || Tab. 5 (intact cells) | | living cells || [[Living cells]] || ce || - || Tab. 5 (intact cells) | ||
|- | |- | ||
| | | mass, dry mass || [[Body mass]] || ''m''<sub>d</sub> ||[kg] || Fig. 5 (dry weight) | ||
|- | |- | ||
| | | mass, wet mass || [[Body mass]] || ''m''<sub>w</sub> || [kg] || Fig. 5 (wet weight) | ||
|- | |- | ||
| mass concentration of sample s || [[Concentration]] || ''C<sub>m''<sub>s</sub></sub> || [kg∙L<sup>-1</sup>] || Tab. 4 | | mass concentration of sample s || [[Concentration]] || ''C<sub>m''<sub>s</sub></sub> || [kg∙L<sup>-1</sup>] || Tab. 4 | ||
| Line 104: | Line 108: | ||
|- | |- | ||
| mass per single object || [[Body mass]] || ''M<sub>N<sub>X</sub></sub>'' || [kg∙x1] || Fig. 5; Tab. 4; SI: m(X); compare molar mass ''M''(''X'') | | mass per single object || [[Body mass]] || ''M<sub>N<sub>X</sub></sub>'' || [kg∙x1] || Fig. 5; Tab. 4; SI: m(X); compare molar mass ''M''(''X'') | ||
|- | |- | ||
| MITOCARTA || [https://www.broadinstitute.org/scientific-community/science/programs/metabolic-disease-program/publications/mitocarta/mitocarta-in-0 MITOCARTA] || || || | | MITOCARTA || [https://www.broadinstitute.org/scientific-community/science/programs/metabolic-disease-program/publications/mitocarta/mitocarta-in-0 MITOCARTA] || || || | ||
|- | |- | ||
| mitochondria or mitochondrial || [[Mitochondria]] || mt || - || Box 1 | | mitochondria or mitochondrial || [[Mitochondria]] || mt || - || Box 1 | ||
|- | |- | ||
| mitochondrial concentration || [[Mitochondrial marker]], [[Concentration]] || ''C<sub>mtE</sub>'' = ''mtE''∙''V''<sup>-1</sup> || [mtEU∙L<sup>-1</sup>] || Tab. 4 | | mitochondrial concentration || [[Mitochondrial marker]], [[Concentration]] || ''C<sub>mtE</sub>'' = ''mtE''∙''V''<sup>-1</sup> || [mtEU∙L<sup>-1</sup>] || Tab. 4 | ||
| Line 120: | Line 118: | ||
|- | |- | ||
| mitochondrial density || [[Mitochondrial marker]], [[Density]] || ''D<sub>mtE</sub>''=''mtE''∙''m''<sub>s</sub><sup>-1</sup> || [mtEU∙kg<sup>-1</sup>] || tissue-mass specific mt-density; Tab. 4 | | mitochondrial density || [[Mitochondrial marker]], [[Density]] || ''D<sub>mtE</sub>''=''mtE''∙''m''<sub>s</sub><sup>-1</sup> || [mtEU∙kg<sup>-1</sup>] || tissue-mass specific mt-density; Tab. 4 | ||
|- | |||
| mitochondrial DNA || [[Mitochondria]] || mtDNA || - || Box 1 | |||
|- | |- | ||
| mitochondrial elementary marker || [[Mitochondria]] || ''mtE'' || [mtEU] || quantity of mt-marker; Tab. 4 | | mitochondrial elementary marker || [[Mitochondria]] || ''mtE'' || [mtEU] || quantity of mt-marker; Tab. 4 | ||
| Line 158: | Line 158: | ||
|- | |- | ||
| oxidative phosphorylation || [[Oxidative phosphorylation]] || OXPHOS || - || Tab. 1 | | oxidative phosphorylation || [[Oxidative phosphorylation]] || OXPHOS || - || Tab. 1 | ||
|- | |||
| OXPHOS-capacity || [[OXPHOS-capacity]] || ''P'' || ''varies'' || rate; Tab. 1; Fig. 2 | |||
|- | |- | ||
| OXPHOS-state || [[OXPHOS-capacity]] || OXPHOS || - || Tab. 1; Fig. 2; OXPHOS-state distinguished from the process OXPHOS (State 3 at kinetically-saturating [ADP] and [P<sub>i</sub>]) | | OXPHOS-state || [[OXPHOS-capacity]] || OXPHOS || - || Tab. 1; Fig. 2; OXPHOS-state distinguished from the process OXPHOS (State 3 at kinetically-saturating [ADP] and [P<sub>i</sub>]) | ||
|- | |- | ||
| oxygen concentration || [[Oxygen concentration]] || ''c''<sub>O<sub>2</sub></sub> = ''n''<sub>O<sub>2</sub></sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || [O<sub>2</sub>]; Section 3.2 | | oxygen concentration || [[Oxygen concentration]] || ''c''<sub>O<sub>2</sub></sub> = ''n''<sub>O<sub>2</sub></sub>∙''V''<sup>-1</sup> || [mol∙L<sup>-1</sup>] || [O<sub>2</sub>]; Section 3.2 | ||
| Line 220: | Line 220: | ||
|- | |- | ||
| viable cells || [[Viable cells]] || vce || - || Tab. 5 | | viable cells || [[Viable cells]] || vce || - || Tab. 5 | ||
|- | |||
| volume format || [[Format]] || <u>''V''</u> || [L] || Tab. 6 | |||
|- | |- | ||
| volume of chamber || [[Volume]] || ''V'' || [L] || Tab. 4, 7; Fig. 5 | | volume of chamber || [[Volume]] || ''V'' || [L] || Tab. 4, 7; Fig. 5 | ||
|- | |- | ||
| volume of sample s || [[Volume]] || ''V''<sub>s</sub> || [L] || Tab. 5; Fig. 5 | | volume of sample s || [[Volume]] || ''V''<sub>s</sub> || [L] || Tab. 5; Fig. 5 | ||
Revision as of 11:30, 27 May 2020
Keywords—MitoPedia - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>
Table 8. Terms, symbols, and units including the Keywords—MitoPedia. SI base units are used, except for the liter [L = dm3]. SI refers to ref. [11].
| Term | Link to MitoPedia term | Symbol | Unit | Links and comments |
|---|---|---|---|---|
| adenosine diphosphate | ADP | ADP | - | Tab. 1; Fig. 1, 2, 5 |
| adenosine monophosphate | AMP | AMP | - | 2 ADP ↔ ATP+AMP |
| adenosine triphosphate | ATP | ATP | - | Fig. 2, 5 |
| adenylates | Adenine nucleotides | AMP, ADP, ATP | - | Section 2.5.1 |
| alternative quinol oxidase | Alternative oxidase | AOX | - | Fig. 1B |
| amount of substance X | Amount | nX or n(X) | [mol] | SI |
| ATP yield per O2 | ATP yield | YP»/O2 | 1 | P»/O2 ratio measured in any respiratory state |
| catabolic rate of respiration | Respirometry | JkO2; IkO2 | varies | Fig. 1, 3; see flux J and flow I |
| catabolic reaction | Respirometry | k | - | Fig. 1, 3 |
| cell count | Count | Nce | [x] | Tab. 4; Fig. 5; see number of cells |
| cell-count concentration | Concentration | Cce | [x∙L-1] | Tab. 4; Cce = Nce∙V-1 |
| cell mass | Body mass | mce | [kg] | Tab. 5; Fig. 5 |
| cell mass, mass per cell | Body mass | MNce | [kg∙x-1] | Tab. 5; Fig. 5 |
| cell-mass concentration | Concentration | Cmce | [kg∙L-1] | see Cms: Tab. 4; Cmce = mce∙V-1 |
| cell viability index | Cell viability | VI | - | VI = Nvce∙Nce-1 = 1 - Ndce∙Nce-1 |
| charge number of entity B | Charge number | zB | 1 | Tab. 6; zO2 = 4 [[[Cohen 2008 IUPAC Green Book |24]]] |
| Complexes I to IV | Complex I | CI to CIV | - | respiratory ET Complexes are redox proton pumps; Fig. 1B; F1FO-ATPase is not a redox proton pump of the ETS, hence the term CV is not recommended |
| concentration of B, amount | Concentration | cB = NB∙V-1 | [mol∙L-1] | SI: amount of substance concentration [[[Cohen 2008 IUPAC Green Book |24]]] |
| concentration of O2, amount | Concentration | cO2 = nO2∙V-1 | [mol∙L-1] | Box 2; [O2] |
| concentration of X, count | Concentration | CX = NX∙V-1 | [x∙L-1] | Tab. 4 (number concentration [[[Cohen 2008 IUPAC Green Book |24]]]) |
| count format | Format | N | [x] | Tab. 4, 5; Fig. 5 |
| count of X | Count | NX | [x] | SI; see number of entities X |
| coupling control | Coupling control ratio | CCR | - | Section 2.4.1 |
| coupling control state | Coupling control state | CCS | - | Section 2.4.1 |
| dead cells | Cell viability | dce | - | Tab. 5 |
| electrical format | Format | e | [C] | Tab. 6 |
| electron transfer pathway | Electron transfer-pathway | ET-pathway | - | Overview; Fig. 1 |
| electron transfer, state | Electron transfer-pathway | ET | - | Tab. 1; Fig. 2B, 4 (State 3u) |
| electron transfer system | Electron transfer-pathway | ETS | - | Fig. 2B, 4 (electron transport chain) |
| entity | Entity | X | [x] | single countable object; Tab. 4 |
| ET-capacity | ET-capacity | E | varies | rate; Tab. 1; Fig. 2 |
| ET-excess capacity | ET-capacity | E-P | varies | Fig. 2 |
| flow, for O2 | Flow | IO2 | [mol∙s-1] | system-related extensive quantity; Fig. 5 |
| flux, for O2 | Flux | JO2 | varies | size-specific quantity; Fig. 5 |
| flux control ratio | Flux control ratio | FCR | 1 | background/reference flux; Fig. 5 |
| inorganic phosphate | Phosphate | Pi | - | Fig. 1C |
| inorganic phosphate carrier | Phosphate carrier | PiC | - | Fig. 1C |
| International Union of Pure and Applied Chemistry, IUPAC | IUPAC | IUPAC | - | [[[Cohen 2008 IUPAC Green Book |24]]] |
| International System of Units | International System of Units | SI | - | [[[Cohen 2008 IUPAC Green Book |24]]] |
| isolated mitochondria | Isolated mitochondria | imt | - | [11] |
| LEAK-state | LEAK-respiration | LEAK | - | Tab. 1; Fig. 2 (compare State 4) |
| LEAK-respiration | LEAK-respiration | L | varies | rate; Tab. 1; Fig. 2 |
| living cells | Living cells | ce | - | Tab. 5 (intact cells) |
| mass, dry mass | Body mass | md | [kg] | Fig. 5 (dry weight) |
| mass, wet mass | Body mass | mw | [kg] | Fig. 5 (wet weight) |
| mass concentration of sample s | Concentration | Cms | [kg∙L-1] | Tab. 4 |
| mass format | Format | m | [kg] | Tab. 4 |
| mass of diluted sample | Body mass | ms | [kg] | SI: mass of pure sample mS |
| mass per single object | Body mass | MNX | [kg∙x1] | Fig. 5; Tab. 4; SI: m(X); compare molar mass M(X) |
| MITOCARTA | MITOCARTA | |||
| mitochondria or mitochondrial | Mitochondria | mt | - | Box 1 |
| mitochondrial concentration | Mitochondrial marker, Concentration | CmtE = mtE∙V-1 | [mtEU∙L-1] | Tab. 4 |
| mitochondrial content | Mitochondrial marker | mtENX | [mtEU∙x-1] | mtENX = mtE∙NX-1; Tab. 4 |
| mitochondrial density | Mitochondrial marker, Density | DmtE=mtE∙ms-1 | [mtEU∙kg-1] | tissue-mass specific mt-density; Tab. 4 |
| mitochondrial DNA | Mitochondria | mtDNA | - | Box 1 |
| mitochondrial elementary marker | Mitochondria | mtE | [mtEU] | quantity of mt-marker; Tab. 4 |
| mitochondrial elementary unit | Mitochondria | mtEU | varies | specific units for mt-marker; Tab. 4 |
| mitochondrial inner membrane | Mitochondrial inner membrane | mtIM | - | Fig. 1; Box 1 (MIM) |
| mitochondrial outer membrane | Mitochondrial outer membrane | mtOM | - | Fig. 1; Box 1 (MIM) |
| mitochondrial preparations | Mitochondrial preparations | mt-prep | - | Tab. 5 |
| mitochondrial recovery | Mitochondrial recovery | YmtE | 1 | fraction of mtE recovered from the tissue sample in imt-stock |
| mitochondrial yield | Mitochondrial yield | YmtE/ms | [mtEU∙kg-1] | mt-yield in imt-stock per mass of tissue sample; YmtE/ms=YmtE∙DmtE |
| MitoPedia | MitoPedia, MitoPedia: Respiratory states | |||
| molar format | Format | n | [mol] | Tab. 6 |
| molar mass | Molar mass | MB | [kg∙mol-1] | compare MNB [kg∙x-1]; SI M(X) |
| negative | Protonmotive force | neg | - | Fig. 4 |
| normalization of rate | Normalization of rate | - | - | Tab. 4; Fig. 5 |
| number of cells | Count | Nce | [x] | total cell count of living cells, Nce = Nvce + Ndce; Tab. 4, 5 |
| number of dead cells | Cell viability | Ndce | [x] | non-viable cell count, loss of plasma membrane barrier function; Tab. 5 |
| number of entities B | Count | NB | [x] | Tab. 4 [[[Cohen 2008 IUPAC Green Book |24]]] |
| number of entities X; count | Count | NX | [x] | ‘count’ is an SI quantity [11], but the counting unit [x] is not in the SI [95]; Tab. 4; Fig. 5 |
| number of viable cells | Cell viability | Nvce | [x] | viable cell count, intact plasma membrane barrier function; Tab. 5 |
| organisms | Organism | org | - | Tab. 5 |
| oxidative phosphorylation | Oxidative phosphorylation | OXPHOS | - | Tab. 1 |
| OXPHOS-capacity | OXPHOS-capacity | P | varies | rate; Tab. 1; Fig. 2 |
| OXPHOS-state | OXPHOS-capacity | OXPHOS | - | Tab. 1; Fig. 2; OXPHOS-state distinguished from the process OXPHOS (State 3 at kinetically-saturating [ADP] and [Pi]) |
| oxygen concentration | Oxygen concentration | cO2 = nO2∙V-1 | [mol∙L-1] | [O2]; Section 3.2 |
| oxygen solubility | Oxygen solubility | SO2 | [µmol·kPa-1] | Section 2.6.3 |
| oxygen flux, in reaction r | Oxygen flux | JrO2 | varies | Overview |
| pathway control state | Pathway control state | PCS | - | Section 2.2 |
| permeability transition | Permeability transition | mtPT | - | Fig. 3; Section 2.4.3 (MPT) |
| permeabilized cells | Permeabilized cells | pce | - | experimental permeabilization of plasma membrane; Tab. 5 |
| permeabilized muscle fibers | Permeabilized muscle fibers | pfi | - | Tab. 5 |
| permeabilized tissue | Permeabilized tissue | pti | - | Tab. 5 |
| phosphorylation of ADP to ATP | Oxidative phosphorylation | P» | - | Tab. 1, 2; Fig. 1, 4 |
| phosphorylation efficiency | Ergodynamic efficiency | ε | 1 | Section 2.4.1 |
| P»/O2 ratio | Oxidative phosphorylation | P»/O2 | 1 | mechanistic YP»/O2, calculated from pump stoichiometries; Fig. 1c |
| positive | positive | Protonmotive force | - | Fig. 4 |
| proton in the neg compartment | Protonmotive force | H+neg | [x] | Fig. 4 |
| proton in the pos compartment | proton in the positive compartment | H+pos | [x] | Fig. 4 |
| protonmotive force | protonmotive force | pmF | [V] | Overview; Tab. 1; Fig 1a, 2, 4 |
| rate in ET-state | ET | E | varies | ET-capacity; Tab. 1; Fig. 2, 4 |
| rate in LEAK-state | LEAK-respiration | L | varies | Tab. 1: L(n), L(T), L(Omy); Fig. 2, 4 |
| rate in OXPHOS-state | OXPHOS-capacity | P | varies | OXPHOS-capacity; Tab.1; Fig. 2, 4 |
| rate in ROX state | Residual oxygen consumption | Rox | varies | Overview; Tab. 1 |
| residual oxygen consumption | Residual oxygen consumption | ROX; Rox | - | state ROX; rate Rox; Tab. 1 |
| respiration | Respirometry | JrO2 | varies | rate of reaction r; Overview |
| respiratory state | MitoPedia: Respiratory states | - | - | Tab. 1, 3; Fig. 2, 4 |
| respiratory supercomplex | Supercomplex | SCInIIInIVn | - | supramolecular assemblies with variable copy numbers (n) of CI, CIII and CIV; Box 1 |
| sample | Sample | s | - | diluted sample; Tab. 4, 5 |
| substrate concentration at half-maximal rate | Concentration | c50 | [mol∙L-1] | Section 2.1.2 |
| substrate-uncoupler-inhibitor-titration | Substrate-uncoupler-inhibitor titration | SUIT | - | Section 2.2 |
| tissue homogenate | Tissue homogenate | thom | - | Tab. 5 |
| uncoupling | Uncoupler titrations | - | - | Tab 2; Fig. 3 |
| viable cells | Viable cells | vce | - | Tab. 5 |
| volume format | Format | V | [L] | Tab. 6 |
| volume of chamber | Volume | V | [L] | Tab. 4, 7; Fig. 5 |
| volume of sample s | Volume | Vs | [L] | Tab. 5; Fig. 5 |
