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Difference between revisions of "Template:SUIT-015"

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[[Image:SUIT-MitoFit.png|right|190px|link=http://www.bioblast.at/index.php/MitoPedia:_SUIT |MitoPedia: SUIT]]
[[Image:SUIT-MitoFit.png|right|190px|link=http://www.bioblast.at/index.php/MitoPedia:_SUIT |MitoPedia: SUIT]]
== Steps and respiratory states ==
== Steps and respiratory states ==
[[File:1OctM;2D;3G;4P;5S;6U;7Rot-.png|300px]]
[[File:1OctM;2D;3G;3c;4P;5S;6U;7Rot;8Ama.png|450px]]


{| class="wikitable" border="1"
{| class="wikitable" border="1"
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|-
|-
| 1OctM
| 1OctM
| [[OctM]]<sub>''L''</sub>
| [[OctM]]<sub>''[[LEAK respiration|L]]''</sub>
| [[Fatty acid oxidation pathway control state|F(N)]]
| [[Fatty acid oxidation pathway control state|F(N)]]
| CETF
| CETF
| OctM<sub>''L''</sub> or PalM: Palmitoylcarnitine & malate, F-LEAK respiration, F<sub>''L''</sub>
| 1OctM


{{Template:SUIT F}} {{Template:SUIT L n}}
*{{Template:SUIT F}}
*{{Template:SUIT L(n)}}


|-
|-
| 2D
| 2D
| [[OctM]]<sub>''P''</sub>
| [[OctM]]<sub>''[[OXPHOS|P]]''</sub>
| [[Fatty acid oxidation pathway control state|F(N)]]
| [[Fatty acid oxidation pathway control state|F(N)]]
| CETF
| CETF
| 1OctM;2D
| 1OctM;2D


{{Template:SUIT F}} {{Template:SUIT OXPHOS}}
*{{Template:SUIT F}}
*{{Template:SUIT OXPHOS}}


|-
|-
| 2c
| 3G
| [[OctM]]c<sub>''P''</sub>
| [[OctGM]]<sub>''[[OXPHOS|P]]''</sub>
| [[Fatty acid oxidation pathway control state|F(N)]]
| [[FN]]
| CETF
| CETF&CI
| 1OctM;2D;2c
| 1OctM;2D;3G


{{Template:SUIT F}} {{Template:SUIT OXPHOS}} {{Template:SUIT c}}
*{{Template:SUIT F}} & {{Template:SUIT N}}
*{{Template:SUIT FN}}
*{{Template:SUIT OXPHOS}}


|-
|-
| 3G
| 3c
| [[OctGM]]<sub>''P''</sub>
| [[OctGM]]c<sub>''[[OXPHOS|P]]''</sub>
| [[FN]]
| [[FN]]
| CETF&I
| CETF&CI
| 1OctM;2D;3G
| 1OctM;2D;3G;3c


{{Template:SUIT F}} & {{Template:SUIT N}} {{Template:SUIT FN}} {{Template:SUIT OXPHOS}}
*{{Template:SUIT FN}}
*{{Template:SUIT c}}
*{{Template:SUIT OXPHOS}}


|-
|-
| 4P
| 4P
| [[OctPGM]]<sub>''P''</sub>
| [[OctPGM]]<sub>''[[OXPHOS|P]]''</sub>
| [[FN]]
| [[FN]]
| CETF&I
| CETF&CI
| 1OctM;2D;3G;4P
| 1OctM;2D;3G;3c;4P


{{Template:SUIT F}} & {{Template:SUIT N}} {{Template:SUIT FN}} {{Template:SUIT OXPHOS}}
*{{Template:SUIT F}} & {{Template:SUIT N}}
*{{Template:SUIT FN}}
*{{Template:SUIT OXPHOS}}


|-
|-
| 5S
| 5S
| [[OctPGMS]]<sub>''P''</sub>
| [[OctPGMS]]<sub>''[[OXPHOS|P]]''</sub>
| [[FNS]]
| [[FNS]]
| CETF&CI&II
| CETF&CI&II
| 1OctM;2D;3G;4P;5S
| 1OctM;2D;3G;3c;4P;5S


{{Template:SUIT F}} & {{Template:SUIT N}} {{Template:SUIT S}} {{Template:SUIT FN}} {{Template:SUIT OXPHOS}}
*{{Template:SUIT F}} & {{Template:SUIT N}} & {{Template:SUIT S}}
*{{Template:SUIT FNS}}
*{{Template:SUIT OXPHOS}}


|-
|-
| 6U
| 6U
| [[OctPGMS]]<sub>''E''</sub>
| [[OctPGMS]]<sub>''[[E]]''</sub>
| [[FNS]]
| [[FNS]]
| CETF&CI&II
| CETF&CI&II
| 1OctM;2D;3G;4P;5S;6U
| 1OctM;2D;3G;3c;4P;5S;6U


{{Template:SUIT F}} & {{Template:SUIT N}} {{Template:SUIT S}} {{Template:SUIT FN}} {{Template:SUIT U*}} {{Template:SUIT ET}}
*{{Template:SUIT F}} & {{Template:SUIT N}} & {{Template:SUIT S}} Β 
*{{Template:SUIT FNS}} Β 
*{{Template:SUIT U*}} Β 
*{{Template:SUIT ET}}


|-
|-
| 7Rot
| 7Rot
| [[S]]<sub>''E''</sub>
| [[S]]<sub>''[[E]]''</sub>
| [[S]]
| [[S]]
| CII
| CII
| 1OctM;2D;3G;4P;5S;6U;7Rot
| 1OctM;2D;3G;3c;4P;5S;6U;7Rot


{{Template:SUIT Rot}} {{Template:SUIT ET}}
*{{Template:SUIT Rot}}
*{{Template:SUIT ET}}


|-
|-
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| Β 
| Β 
|Β  Β 
|Β  Β 
| 1OctM;2D;3G;4P;5S;6U;7Rot
| 1OctM;2D;3G;3c;4P;5S;6U;7Rot;8Ama


{{Template:SUIT Ama}} Β 
*{{Template:SUIT Ama}} Β 


|}
|}

Latest revision as of 13:06, 25 November 2020

MitoPedia: SUIT

Steps and respiratory states

1OctM;2D;3G;3c;4P;5S;6U;7Rot;8Ama.png

Step State Pathway Q-junction Comment - Events (E) and Marks (M)
1OctM OctML F(N) CETF 1OctM
  • Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration.
  • Non-phosphorylating resting state (LEAK state); LEAK respiration L(n) in the absence of ADP, ATP, AMP (no adenylates).
2D OctMP F(N) CETF 1OctM;2D
  • Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration.
  • OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
3G OctGMP FN CETF&CI 1OctM;2D;3G
  • Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration. & NADH-linked substrates (type N-pathway to Q).
  • Respiratory stimulation by simultaneous action of the F-pathway and N-pathway with convergent electron flow in the FN-pathway for evaluation of an additive or inhibitory effect of F.
  • OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
3c OctGMcP FN CETF&CI 1OctM;2D;3G;3c
  • Respiratory stimulation by simultaneous action of the F-pathway and N-pathway with convergent electron flow in the FN-pathway for evaluation of an additive or inhibitory effect of F.
  • Addition of cytochrome c yields a test for integrity of the mtOM (cytochrome c control efficiency). Stimulation by added cytochrome c would indicate an injury of the mtOM and limitation of respiration in the preceding state without added c due to loss of cytochrome c. Typically, cytochrome c is added immediately after the earliest ADP-activation step (OXPHOS capacity P with saturating [ADP]).
  • OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
4P OctPGMP FN CETF&CI 1OctM;2D;3G;3c;4P
  • Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration. & NADH-linked substrates (type N-pathway to Q).
  • Respiratory stimulation by simultaneous action of the F-pathway and N-pathway with convergent electron flow in the FN-pathway for evaluation of an additive or inhibitory effect of F.
  • OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
5S OctPGMSP FNS CETF&CI&II 1OctM;2D;3G;3c;4P;5S
6U OctPGMSE FNS CETF&CI&II 1OctM;2D;3G;3c;4P;5S;6U
7Rot SE S CII 1OctM;2D;3G;3c;4P;5S;6U;7Rot
8Ama ROX 1OctM;2D;3G;3c;4P;5S;6U;7Rot;8Ama
  • Rox is the residual oxygen consumption in the ROX state, due to oxidative side reactions, estimated after addition of antimycin A (inhibitor of CIII). Rox is subtracted from oxygen flux as a baseline for all respiratory states, to obtain mitochondrial respiration (mt).
Step Respiratory state Pathway control ET-Complex Comment
## AsTm AsTmE CIV CIV
## Azd CHB


Questions.jpg


Click to expand or collaps
Bioblast links: SUIT protocols - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>
MitoPedia: SUIT
Coupling control
Β» Coupling control state
Β» ET capacity
Β» OXPHOS capacity
Β» LEAK respiration
Pathway control
Β» Electron transfer pathway
Β» Fatty acid oxidation pathway control state, F
Β» NADH electron transfer-pathway state, N
Β» Succinate pathway control state, S
Β» NS-pathway control state, NS
Β» Glycerophosphate pathway control state, Gp
Β» Complex IV single step, CIV
Β» Anaplerotic pathway control state
Main fuel substrates
Β» Glutamate, G
Β» Glycerophosphate, Gp
Β» Malate, M
Β» Octanoylcarnitine, Oct
Β» Pyruvate, P
Β» Succinate, S
Glossary
Β» List of SUIT states
Β» SUIT concept
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