High-resolution respirometry: Difference between revisions
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|abbr=HRR | |abbr=HRR | ||
|description=[[Image:O2k-Fluorometer.jpg|200px|left|O2k-FluoRespirometer]] '''High-resolution respirometry, HRR''', is the state-of-the-art approach in mitochondria and cell research to measure respiration in various types of [[mitochondrial preparations]] and [[living cells]] combined with MultiSensor modules. Mitochondrial function and dysfunction have gained increasing interest, reflecting growing awareness of the fact that mitochondria play a pivotal role in human health and disease. HRR combines instrumental accuracy and reliability with the versatility of applicable protocols, allowing practically unlimited addition and combination of substrates, inhibitors, and uncouplers in the [[Oroboros O2k]]. Substrate-uncoupler-inhibitor titration (SUIT) protocols allow the interrogation of numerous mitochondrial pathway and coupling states in a single respirometric assay. Mitochondrial respiratory pathways may be analyzed in detail to evaluate even minor alterations in respiratory coupling and pathway control patterns. | |description=[[Image:O2k-Fluorometer.jpg|200px|left|O2k-FluoRespirometer]] '''High-resolution respirometry, HRR''', is the state-of-the-art approach in mitochondria and cell research to measure respiration in various types of [[mitochondrial preparations]] and [[living cells]] combined with MultiSensor modules. | ||
Mitochondrial function and dysfunction have gained increasing interest, reflecting growing awareness of the fact that mitochondria play a pivotal role in human health and disease. HRR combines instrumental accuracy and reliability with the versatility of applicable protocols, allowing practically unlimited addition and combination of substrates, inhibitors, and uncouplers in the [[Oroboros O2k]]. Substrate-uncoupler-inhibitor titration (SUIT) protocols allow the interrogation of numerous mitochondrial pathway and coupling states in a single respirometric assay. Mitochondrial respiratory pathways may be analyzed in detail to evaluate even minor alterations in respiratory coupling and pathway control patterns. | |||
The O2k is a sole source technology, with no other available instrument meeting its specifications for high-resolution respirometry. Technologically, HRR is based on the Oroboros O2k, combining optimized chamber design, application of oxygen-tight materials, electrochemical sensors, Peltier-temperature control, and specially developed software features (DatLab) to obtain the unique sensitive and quantitative resolution of oxygen concentration and oxygen flux, with both, a closed-chamber or open-chamber mode of operation ([[TIP2k-Module|TIP2k]]). Standardized calibration of the polarographic oxygen sensor (static sensor calibration), calibration of the sensor response time (dynamic sensor calibration), and evaluation of instrumental background oxygen flux (systemic flux compensation) provide the experimental basis for high accuracy of quantitative results and quality control in HRR. HRR can be extended for MultiSensor analysis by using the [[O2k-Fluo Smart-Module]]. [[Smart Fluo-Sensor]]s are integrated into the O2k to measure simultaneously fluorometric signals using specific fluorophores. Potentiometric modules are available with ion-selective electrodes (pH, TPP<sup>+)</sup>. The [[PB-Module]] extends HRR to PhotoBiology with accurate control of the light intensity and measurement of photosynthesis. The O2k-J and the NextGen-O2k support all these O2k-Modules. The [[NextGen-O2k]] all-in-one, however, is unique in supporting Q-Redox and NADH-Redox Modules. | The O2k is a sole source technology, with no other available instrument meeting its specifications for high-resolution respirometry. Technologically, HRR is based on the Oroboros O2k, combining optimized chamber design, application of oxygen-tight materials, electrochemical sensors, Peltier-temperature control, and specially developed software features (DatLab) to obtain the unique sensitive and quantitative resolution of oxygen concentration and oxygen flux, with both, a closed-chamber or open-chamber mode of operation ([[TIP2k-Module|TIP2k]]). Standardized calibration of the polarographic oxygen sensor (static sensor calibration), calibration of the sensor response time (dynamic sensor calibration), and evaluation of instrumental background oxygen flux (systemic flux compensation) provide the experimental basis for high accuracy of quantitative results and quality control in HRR. HRR can be extended for MultiSensor analysis by using the [[O2k-Fluo Smart-Module]]. [[Smart Fluo-Sensor]]s are integrated into the O2k to measure simultaneously fluorometric signals using specific fluorophores. Potentiometric modules are available with ion-selective electrodes (pH, TPP<sup>+)</sup>. The [[PB-Module]] extends HRR to PhotoBiology with accurate control of the light intensity and measurement of photosynthesis. The O2k-J and the NextGen-O2k support all these O2k-Modules. The [[NextGen-O2k]] all-in-one, however, is unique in supporting Q-Redox and NADH-Redox Modules. | ||
|info=[[Oroboros O2k]] | |info=[[Oroboros O2k]] | ||
}} | }} | ||
::::* <big>'''Power O2k | ::::* <big>'''Power O2k''':</big> Several O2k units are operated simultaneously ('''P'''1, '''P'''2, ..) to combine high-resolution respirometry with [[Power O2k-Respirometer |high-output]]. | ||
Revision as of 20:12, 28 March 2024
Description
High-resolution respirometry, HRR, is the state-of-the-art approach in mitochondria and cell research to measure respiration in various types of mitochondrial preparations and living cells combined with MultiSensor modules.
Mitochondrial function and dysfunction have gained increasing interest, reflecting growing awareness of the fact that mitochondria play a pivotal role in human health and disease. HRR combines instrumental accuracy and reliability with the versatility of applicable protocols, allowing practically unlimited addition and combination of substrates, inhibitors, and uncouplers in the Oroboros O2k. Substrate-uncoupler-inhibitor titration (SUIT) protocols allow the interrogation of numerous mitochondrial pathway and coupling states in a single respirometric assay. Mitochondrial respiratory pathways may be analyzed in detail to evaluate even minor alterations in respiratory coupling and pathway control patterns.
The O2k is a sole source technology, with no other available instrument meeting its specifications for high-resolution respirometry. Technologically, HRR is based on the Oroboros O2k, combining optimized chamber design, application of oxygen-tight materials, electrochemical sensors, Peltier-temperature control, and specially developed software features (DatLab) to obtain the unique sensitive and quantitative resolution of oxygen concentration and oxygen flux, with both, a closed-chamber or open-chamber mode of operation (TIP2k). Standardized calibration of the polarographic oxygen sensor (static sensor calibration), calibration of the sensor response time (dynamic sensor calibration), and evaluation of instrumental background oxygen flux (systemic flux compensation) provide the experimental basis for high accuracy of quantitative results and quality control in HRR. HRR can be extended for MultiSensor analysis by using the O2k-Fluo Smart-Module. Smart Fluo-Sensors are integrated into the O2k to measure simultaneously fluorometric signals using specific fluorophores. Potentiometric modules are available with ion-selective electrodes (pH, TPP+). The PB-Module extends HRR to PhotoBiology with accurate control of the light intensity and measurement of photosynthesis. The O2k-J and the NextGen-O2k support all these O2k-Modules. The NextGen-O2k all-in-one, however, is unique in supporting Q-Redox and NADH-Redox Modules.
Abbreviation: HRR
Reference: Oroboros O2k
- Power O2k: Several O2k units are operated simultaneously (P1, P2, ..) to combine high-resolution respirometry with high-output.
MitoPedia: O2k and high-resolution respirometry
Links
- » Keywords
- Instrument
- » DatLab; » MitoPedia: DatLab
- » Instrumental background oxygen flux »» MiPNet14.06 Instrumental O2 background
- » Oroboros O2k-Core (O2k-Series D - G)
- » O2k-FluoRespirometer
- » O2k-MultiSensor
- » Oroboros O2k; » MitoPedia: O2k hardware
- » Power O2k-Respirometer
- » Static sensor calibration
- » TIP2k
- Instrument
- Concept
- » Concentration
- » Coupling-control state
- » High-resolution respirometry
- » Mitochondrial preparations
- » Oxidative phosphorylation
- » Oxygen, dioxygen, O2
- » Oxygen flux
- » Electron-transfer-pathway state
- » Respiration
- » Respirometry; » MitoPedia: Respirometry
- » Substrate-uncoupler-inhibitor titration (SUIT) protocols; » MitoPedia: SUIT
- Concept
- » References
- O2k-Publications
Keywords: Oxygen signal
- Bioblast links: Oxygen signal - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>
- Specific
- O2k-Procedures
- MiPNet O2k-Procedures
- General
- » Oxygen, dioxygen, O2
- » Oxygen calibration - DatLab
- » Oxygen solubility
- » Oxygen solubility factor
- » Oxygen pressure
- » Concentration
- » Activity
- » Pressure - Pascal
- » Barometric pressure
- » High-resolution respirometry
- » OroboPOS
- » Polarographic oxygen sensor
- » MitoFit Quality Control System
- » Sensitivity
- General
- Other keyword lists
MitoPedia methods:
Respirometry,
Fluorometry,
Spectrophotometry
MitoPedia O2k and high-resolution respirometry:
O2k hardware,
O2k-Respirometry,
O2k-FluoRespirometry