MitoPedia: DatLab

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Oroboros Open Support

MitoPedia: DatLab



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MitoPedia O2k and high-resolution respirometry: Oroboros Open Support 



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Welcome at MitoPedia: DatLab. Here you find Oroboros Open Support for DatLab and the Oroboros Bioenergetics Platform.

DatLab 8 Check for updates
  • 2024-12-05 the Oroboros DatLab team proudly announced the release of the new DatLab 8.2.1 version.
  • NextGen-O2k and O2k-Series J (optionally available without integrated PC) and higher are delivered with DatLab 8 installed on the integrated PC (Linux). DatLab 8 is required for the NextGen-O2k and is compatible with O2k-Series E and higher. If you are interested in upgrading your software to DatLab 8, contact our sales team and provide the serial number of your Oroboros.



Previous DatLab versions

These versions to not support the NextGen-O2k and O2k-Series J upwards.


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Getting started with DatLab 8

Under construction
» User / Manage users
» Home screen
» Start recording
» Main Screen
» Graph and plot
» Toolbar
» Status bar
» Control bar
» Protocol sidebar
» Events
» Marks
» Keyboard shortcuts - DatLab


DatLab 8 menus

Under construction

File

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» Open
» Save
» Save as
» Close file
» Close and delete file
» Export as CSV
» Quit



Oroboros

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» O2k control (active)
» O2k info (view)
» Connect
» Disconnect
» Connect and start measurement
» Stop measurement
» Illumination on/off
» Stirrer A on/off
» Stirrer B on/off
» Stirrer test
» Set Power-O2k number
» Data labels and units
» Reboot Oroboros

TIP2k

TIP2kmenu.png
» TIP2k control


Protocols

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» Protocol marks
» Overview
» Set lower O2 limit
» Set upper O2 limit
» Instrumental: Browse DL-Protocols
» SUIT: Browse DL-Protocols
» Open MitoPedia: SUIT - Overview SUIT protocols
» Protocol editor
» Protocol viewer

Experiment

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» Sample and medium
» Experimental log
» Add event; Abbreviation: F4
» Synchronous events


Calibration

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» Calibration


Flux/Slope

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» Flux/Slope
» O2 background correction


Graph

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» Options
» Hide/Show points
» Use fullscreen
» Show Power-O2k number


Layouts

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» Standard layouts
» User layouts
» Lab layouts
» Recent layouts
» Toggle overlay


Marks

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» Mark statistics
» Copy marks
» Set outlier index threshold
» Delete all marks of active plot


Help

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» Open MitoPedia: DatLab; Abbreviation: F1
» Open MitoPedia - Overview of all MitoPedia pages
» About DatLab
» Check for updates


DatLab glossary

TermAbbreviationDescription
About DatLabAbout DatLab contains general information about DatLab 8, including the current version number and used licenses.
Add Graph/Delete bottom graphAdd: A new graph is added at the bottom of the screen. Select plots for display in the new graph, Ctrl+F6. Delete: By clicking Delete bottom graph in the Graph-menu in DatLab, the bottom graph is deleted, which reappears with the same layout by Add.
Air calibrationR1Air calibration of an oxygen sensor (polarographic oxygen sensor) is performed routinely on any day before starting a respirometric experiment. The volume fraction of oxygen in dry air is constant. An aqueous solution in equilibrium with air has the same partial pressure as that in water vapour saturated air. The water vapour is a function of temperature only. The partial oxygen pressure in aqueous solution in equilibrium with air is, therefore, a function of total barometric pressure and temperature. Bubbling an aqueous solution with air generates deviations from barometric pressure within small gas bubbles and is, therefore, not recommended. To equilibrate an aqueous solution ata known partial pressure of oxygen [kPa], the aqueous solution is stirred rigorously in a chamber enclosing air at constant temperature. The concentration of oxygen, cO2 [µM], is obtained at any partial pressure by multiplying the partial pressure by the oxygen solubility, SO2 [µM/kPa]. SO2 is a function of temperature and composition of the salt solution, and is thus a function of the experimental medium. The solubility factor of the medium, FM, expresses the oxygen solubility relative to pure water at any experimental temperature. FM is 0.89 in serum (37 °C) and 0.92 in MiR06 or MiR05 (30 °C and 37 °C).
Amp calibration - DatLabF5Amp calibration indicates the calibration of the amperometric O2k-channel.
Amperometric,AmpF7After selection of the Amperometric, Amp channel in the O2k configuration, an Amperometric, Amp tab will appear in the O2k control [F7] window. Set the desired light intensity (0-1600) in the field ´Fluo intensity´ and the desired amplification of the signal (1-1000) in the field ´Gain for Fluo sensor´in the Amperometric, Amp window followed by a left-click Send to O2k. Switching off the illumination before each fluorometric measurement is routinely required.
Automatic pan - DatLabAutomatic pan (only for real-time data recording) toggles automatic panning on/off by clicking in the O2k status line. If it is on (green), the time range is maintained while the time axis always shows the currently recorded data, i.e. the value of the offset (minimum value) increases as experimental time proceeds. If it is off (yellow), the time axis is static. This allows for manually panning backwards to observe previous sections of the experiment at a given time range. In this mode, the actual experimental time may be off-scale. Toggle between "Pan auto" and "Pan off" by a left-click on the text. It does not influence continuous data recording. It is recommended to maintain automatic panning on during the experiment, except for specifically viewing earlier sections of the experiment.
AutoscaleAutoscale zooms in or out of the selected period with Autoscale time axis, Autoscale Y1 (Y2) axes and Automatic pan.
Autoscale Y1 (Y2) axesAutoscale Y1 (Y2) axes: Autoscaling the measured values (full data range) on the Y1 (Y2) axis in the selected plot.
Autoscale time axisAutoscale time axis gives an overview of the entire experimental period.
Barometric pressurepb [Pa]Barometric pressure, pb, is an important variable measured for calibration of oxygen sensors in solutions equilibrated with air. The atm-standard pressure (1 atm = 760 mmHg = 101.325 kPa) has been replaced by the SI standard pressure of 100 kPa. The partial pressure of oxygen, pO2, in air is a function of barometric pressure, which changes with altitude and locally with weather conditions. The partial oxygen pressure declines by 12 % to 14 % per 1,000 m up to 6,000 m altitude, and by 15 % to 17 % per 1,000 m between 6,000 and 9,000 m altitude. The Oroboros Barometric Pressure Transducer is built into the Oroboros O2k as a basis for accurate air calibrations in high-resolution respirometry. For highest-level accuracy of calculation of oxygen pressure, it is recommended to compare at regular intervals the barometric pressure recording provided by the O2k with a calibrated barometric pressure recording at an identical time point and identical altitude. The concept of gas pressure or barometric pressure can be related to the generalized concept of isomorphic pressure.
Block temperatureThe block temperature of the Oroboros O2k is the continuously measured temperature of the copper block, housing the two glass chambers of the O2k. The block temperature is recorded by DatLab as one of the O2k system channels.
Calibration - DatLabF5DatLab 8: Open the Calibration window to perform the calibration of different channels available for the current file. Specific channels are represented as tabs on the left side. Select the channels and chambers to be calibrated. The ‘Calibration’ window will open according to the selected plot and chamber. DatLab 7 : O2 calibration, Amp calibration, pX calibration
Cell count and normalization in HRRNceThe cell count Nce is the number of cells, expressed in the abstract unit [x] (1 Mx = 106 x). The elementary entity cell Uce [x] is the real unit, the 'single individual cell'. A cell count is the multitude or number N of cells, Nce = N·Uce (Gnaiger MitoFit Preprints 2020.4). Normalization of respiratory rate by cell count yields oxygen flow IO2 expressed in units [amol·s-1·x-1] (=10-18 mol·s-1·x-1).
Chamber volumeThe chamber volume of the O2k is 2.0 mL or 0.5 mL of aqueous medium with or without sample, excluding the volume of the stirrer and the volume of the capillary of the stopper (see: Cell count and normalization in HRR). A modular extension of the O2k, the O2k-sV-Module, was specifically developed to perform high-resolution respirometry with reduced amounts of biological sample, and all components necessary for the smaller operation volume of 0.5 mL.
ChannelF7» See O2k signals and output
Check for updates - DatLabCheck for updates: Frequently check for updated DatLab 8 versions and follow the simple installation instruction if your computer running DatLab (Linux or Windows) is connected to internet. Alternatively, use a different computer connected to internet, download the update for Linux, and transfer it to the computer operating DatLab by USB (e.g. the O2k integrated PC). More information: Oroboros Marketplace - DatLab
Close and delete file - DatLabClose and delete a file.
Close file - DatLabClose a DatLab file.
Connect - DatLabDatLab 8: Connect DatLab to the O2k. DatLab 7 : Connect to O2k
Connect to O2k - DatLab 7Connect to O2k connects DatLab with the O2k. Select the USB port (or Serial port) with the corresponding cable connecting your PC to the O2k. Select the subdirectory for saving the DLD file. Then data recording starts with experimental time set at zero.
Connection windowAfter starting DatLab either the Connection window opens automatically by default or open O2k control by pressing [F7] and select the communication port.
Control bar - DatLabDatLab 8: Displays and allows controlling the current measurement settings, including block temperature, illumination, stirrers and TIP2k. DatLab 7 : O2k control, Status line
Copy marks - DatLabCopy marks from a Plot to the other.
Copy to clipboardIn DatLab Copy to clipboard can be used to copy selected graphs or values and to paste them to your preferred program or file (e.g. Word, Excel).
Custom labelA Custom label can be entered in this box to rename the axis label. Two lines are available for the axis name and unit.
Cyclic voltammetry - DatLabCyclic voltammetry
DL8-ProtocolDatLab 8: A DL8-Protocol (dlp8) defines the sequence of Events and Marks and can be assigned to O2k-chamber A or B, or both. DatLab 7: DL-Protocol
DatLabDatLab is the O2k-Software for Data Acquisition & Analysis, specifically developed for high-resolution respirometry with the O2k. The newest DatLab version is DatLab 8, included in the O2k-Packages. NextGen-O2k and O2k-Series J* and higher come with DatLab 8 installed on the integrated PC (Linux). DatLab 8 is required for the NextGen-O2k. DatLab 8.2 is compatible with O2k-Series (E and higher).
DatLab 2DL2DatLab 2 (DL2) is a MS-DOS programe. DL2 is still used for analysis of oxygen kinetics, after exporting files recorded in recent DatLab versions. A user-friendly O2-kinetics module is in preparation (DL8).
DatLab data filedld8, DLDDatLab 8: The file type generated is *.dld8. DatLab 7: The file type generated is *.DLD.
DatLab error messagesCommon DatLab error messages and according actions and solutions are listed here.
DatLab installationWe recommend a 'clean install' for DatLab installation: rename your previous DatLab programme subdirectory (e.g. C:\DatLab_OLD). The standard Instrumental and SUIT DL-Protocols package is automatically implemented with the simple DatLab programme installation.
DatLab oxygen flux: performance and data analysisThe quality of the results are strongly affected by the performance and data analysis. Therefore, we provide guidelines for performing and evaluating respirometric assays.
DatLab templatesDatLab templates can be imported for O2k-setups, graph layouts, mark names, TIP2k setups and marks statistics configurations.
See also » Manage setups and templates
DatLab-Analysis templatesGo in DatLab to Mark statistics (F2), select which type of marks you want to export ("All marks in plot" or "DL-Protocol marks", with 3 possibilities each), then click on [Copy to clipboard] to copy selected values and paste them to a DatLab-Analysis template for numerical and graphical data analysis.
Data labels and unitsCtrl+DDatLab 8: Display and edit default data labels and units for different channels. DatLab 7 : O2k channel labels.
Data recording intervalF7The data recording interval is the time interval at which data is sampled with an instrument. In DatLab the data recording interval is set in the O2k control window. The system default value is 2 s. A lower data recording interval is selected for kinetic experiments, and when the volume-specific oxygen flux is high (>300 pmol O2·s-1·ml-1).
Technically, the O2k instrument (hardware) measures the sensor signal every 10ms (which is NOT the „data recording interval“). By the given data recording interval from DatLab (software) a discrete number of sensor signal points are taken to calculate an average value in the O2k (e.g. a data recording interval of 2 s can take 200 sensor signal points; a data recording interval of 0.5 s can take 50 sensor signal points). This average value is sent to DatLab and is recorded as a raw data point. However, there is a defined threshold: the O2k does not apply more than 200 sensor signal points to calculate the average for the raw data point. For example a data recording interval of 3 s could take 300 sensor signal points but only the 200 most recent sensor signal points are used for averaging.
Default labelThe Default label is the system default value for the axis label. These labels are changed automatically, according to the selected channel and unit. To change this label enter a Custom label.
Delete all marks of active plot - DatLabDelete all Marks from the active plot.
Delete pointsSelect Delete points in the Mark information window to remove all data points in the marked section of the active plot. See also Interpolate points and Restore points or Recalculate slope.
Deselect channelsF7Channels can be selected/deselected in DatLab in the O2k configuration. Deselect all MultiSensor channels in Oroboros Core applications. Select only the specifically used channels in Oroboros MultiSensor applications.
Disconnect - DatLabCtrl+Shift+DDisconnect DatLab 8 from the O2k. This option is not available while recording a measurement (Stop measurement first). DatLab 7 : Save and Disconnect
Display DatLab helpDisplay DatLab help In this section, we present some issues that could happen during your data analysis related to the graphs display and how to fix them quickly.
Display Power-O2k - DatLab 7The Power-O2k number, which is set in the pull-down menu Oroboros O2k \ O2k configuration, is shown in the active graph. To show it in graphs copied to clipboard, the option "Show Oroboros icon in clipboard files" must be enabled in the Graph-menu Graph options - DatLab.
Display numerical valueIf Display numerical value the current numerical values are displayed in the graph for the active plots on the Y1 axis and Y2 axis (during data acquisition only).
Enable DL-Protocol editingEnable DL-Protocol editing is a novel function of DatLab 7.4 offering a new feature in DL-Protocols: flexibility. Fixed sequences of events and marks can be changed (Skip/Added) in a SUIT protocol by the user. Moreover, the text, instructions, concentrations and titration volumes of injections in a specific DL-Protocol can be edited and saved as user-specific DL-Protocol [File]\Export\DL-Protocol User (*.DLPU). To enable it, under the 'Protocols' tab in the menu, select the option 'Enable DL-Protocol editing', and then select the plot in which the marks will be set (e.g., O2 flux per V). Select the 'Overview' window, where you will be able to edit events and marks names, definition/state, final concentration and titration volumes, as well as select a mark as 'multi' for multiple titration steps, skip a mark, or add a new event or mark. After saving, export a DL-Protocol User (DLPU) and load it before running the next experiments. If users of DatLab versions older than DatLab 7.4 wish to alter the nature of the chemicals used or the sequence of injections, we ask them to contact the O2k-Technical Support.

For more information:

PlayVideo.jpg Export DL-Protocol User (*.DLPU)
Events - DatLabDatLab 8: An event is added to represent any action at a defined point in time. DatLab 7: Events - DatLab 7
Exit - DatLab 7Ctrl+F4Close DatLab files and quit the program.
Experimental codeF3An experimental code can be entered in the Sample window, containing up to 10 digits.
Experimental log - DatLabCtrl+F3Experimental log provides detailed information about the experimental run.
Export DL-Protocol User (*.DLPU)it is a function of DatLab (available from version 7.4 onwards) that enables the export of user specific protocols (DL-Protocol User) to the SUIT protocol folder from which they can be uploaded for subsequent measurements.
Export as CSV - DatLabCtrl+EExport as CSV (*.csv) exports plots and events to a text file for further use in Excel and other programs compatible with .csv extension.
File search - DatLabCtrl+FFile search yields a list of all files labelled by the experimental code in a selected directory . Click on the file to preview the experimental log. With File Search you can search in all folders and subfolders on your computer for DatLab files with a selected experimental code. The experimental code is entered in the DatLab file in the window "Experiment" ([F3]). When you click on a folder and press the button search, the DatLab file names will appear on the right window. Click on a DatLab file and further information (e.g. Sample information, Background information) will appear in the window below.
Fluo calibration - DatLab
Flux / SlopeCTRL+F5DatLab 8: Flux / Slope is the time derivative of the signal. The Flux / Slope window includes (1) slope smoothing, (2) stoichiometric normalization using a stoichiometric coefficient , (3) application of titration volume correction, (4) flux baseline correction and (5) Flux control ratio (FCR). O2 background correction can be performed in a separate window. DatLab 7: Flux/Slope
Flux analysis - DatLabThe strategy of Flux analysis using DatLab depends on the research question and the corresponding settings applied in DatLab when recording the data with the O2k. Usng SUIT protocols, a sequence of respiratory steady-states is measured, marks are set, and numerical data are summarized in Mark statistics (F2). An AI approach is kept in mind when describing guidelines for evaluation of steady-states during data recording and analysis.
Flux baseline correctionbcFlux baseline correction provides the option to display the plot and all values of the flux (or flow, or flux control ratio) as the total flux, J, minus a baseline flux, J0.
JV(bc) = JV - JV0
JV = (dc/dt) · ν-1 · SF - V
For the oxygen channel, JV is O2 flux per volume [pmol/(s·ml)] (or volume-specific O2 flux), c is the oxygen concentration [nmol/ml = µmol/l = µM], dc/dt is the (positive) slope of oxygen concentration over time [nmol/(s · ml)], ν-1 = -1 is the stoichiometric coefficient for the reaction of oxygen consumption (oxygen is removed in the chemical reaction, thus the stoichiometric coefficient is negative, expressing oxygen flux as the negative slope), SF=1,000 is the scaling factor (converting units for the amount of oxygen from nmol to pmol), and V is the volume-specific background oxygen flux (Instrumental background oxygen flux). Further details: Flux / Slope.
Flux control ratioFCRFlux control ratios FCRs are ratios of oxygen flux in different respiratory control states, normalized for maximum flux in a common reference state, to obtain theoretical lower and upper limits of 0.0 and 1.0 (0 % and 100 %). For a given protocol or set of respiratory protocols, flux control ratios provide a fingerprint of coupling and substrate control independent of (1) mt-content in cells or tissues, (2) purification in preparations of isolated mitochondria, and (3) assay conditions for determination of tissue mass or mt-markers external to a respiratory protocol (CS, protein, stereology, etc.). FCR obtained from a single respirometric incubation with sequential titrations (sequential protocol; SUIT protocol) provide an internal normalization, expressing respiratory control independent of mitochondrial content and thus independent of a marker for mitochondrial amount. FCR obtained from separate (parallel) protocols depend on equal distribution of subsamples obtained from a homogenous mt-preparation or determination of a common mitochondrial marker.
Full screenBy clicking/enabling Full screen in the Graph-menu in DatLab the currently selected graph is shown alone on the full screen (On) or together with the other defined graphs (Off). Full screen is particularly useful for a single channel overview and for Copy to clipboard [ALT+G B].
GainThe gain is an amplification factor applied to an input signal to increase the output signal.
Getting started - DatLabUsers have to enter their user details the first time they use DatLab 8 on a specific computer. As well, entering some basic settings is required when connecting DatLab 8 with an O2k for the first time.
Graph - DatLabA graph displays traces from data recorded during the measurement.
Graph control - DatLabA combination of mouse and keyboard commands provides convenient control of graphs in DatLab 8.
Graph layout - DatLab» See Layout for DatLab graphs.
Graph options - DatLabDatLab 8: The ‘Graph options’ window allows modifying graphs, scaling, plots and advanced features. DatLab 7: Graph options, Add Graph/Delete bottom graph, Select plots, Scaling, Copy to clipboard
Graph options - DatLab 7Several display options can be applied to a DatLab graph under Graph options.
Hide/Show points - DatLabCtrl+HDatLab 8: The option hide/show points allows to create a type of mark to hide/show a section of data points in any of the plots. DatLab 7 : Delete/Interpolate/Restore points
Home screen - DatLabScreen displayed after selecting the DatLab user. Allows the user to start a new measurement, open a file or open the DatLab guide
IlluminationF10The chambers of the Oroboros O2k are illuminated by an internal LED. The illumination is switched on and off in DatLab during the experiment by pressing [F10]. This illumination must be distinguished from light introduced into the chambers by LEDs for the purpose of spectrophotometric and fluorometric measurements. For these, the internal illumination must be switched off.
Illumination on/offF10The illumination in both chambers is switched on/off.
Install Oroboros protocol packageThe standard Instrumental and SUIT DL-Protocols package is automatically implemented with the simple DatLab programme installation. We recommend a 'clean install': rename your previous DatLab programme subdirectory (e.g. C:\DatLab_OLD). Updates and newly developed DL protocols can be simply downloaded by clicking on [Protocols]\Install Oroboros protocol package.
Instrumental: Browse DL-ProtocolsDatLab 8: Open a folder with the library of the instrumental protocols, templates and traces provided with DatLab 8. DatLab 7 : Instrumental: Browse DL-Protocols and templates
Instrumental: Browse DL-Protocols and templates - DatLab 7Instrumental DL-Protocols (DLP) including DatLab example traces, instructions, brief explanatory texts, links to relevant pages and templates for data evaluation can be browsed from inside DatLab 7.4. Click on menu [Protocols]\Instrumental: Browse DL-Protocols and templates to open a folder with all the DL-Protocols and templates for cleaning, calibration, and background determination provided with the DatLab 7.4. Select a sub-directory and open an DL-Protocol and/or template as desired.
Interpolate pointsSelect Interpolate points in the Mark information window to interpolate all data points in the marked section of the active graph. See also Delete points and Restore points or Recalculate slope.
Keyboard shortcuts - DatLabDatLab provides several keyboard shortcuts to allow for quick access to many functions and settings without using a mouse.
Laboratory titration sheetLaboratory titration sheet contains the sequential titrations in a specific Substrate-uncoupler-inhibitor titration (SUIT) protocol. The laboratory titration sheets for different SUIT protocols are incorporated in DatLab (DL7.1): Protocols in DatLab
Layout - DatLabDatLab 8: Graph layouts are selected for standardized display of graphs, plots and scaling of axes. When using DL8-Protocols (.dlp8) the recommended initial layout is already loaded according to the specific DL8-Protocol. Layouts can be further selected, modified and managed through the top menu Layout. DatLab 7: Layout - DatLab 7
Layout - DatLab 7A Layout in DatLab selected in the Layout menu yields a standardized display of graphs and plots displayed with specific scalings. The graph layout defines initial settings, which can be modified for plots [Ctrl+F6] and scaling [F6]. A modified layout can be saved as user layout without changing the standard layouts.
Main screen - DatLabOnce a measurement is started or a recorded file is opened, the main screen will be displayed, showing graphs, protocols and measurement status.
Manage setups and templates - DatLabSetups and templates in DatLab can be renamed or deleted under Manage setups or Manage templates.
Mark informationMarks» See Marks - DatLab
Mark specifications - DatLabThe function Mark specifications is largely replaced by SUIT DL-Protocols and Instrumental DL-Protocols in DatLab 7.4. Mark specifications allow the user to rename Marks in the active plot and save/recall the settings. Rename marks individually by clicking into the horizontal bar, or use corresponding templates for renaming the entire sequence of marks.
Mark statistics - DatLabF2DatLab 8: displays the statistical values (e.g. medians) for the marks set on the plots and allows copying and exporting them for data analysis. As default, the window opens and shows the information according to the current active plot and chamber selected. DatLab 7: Mark statistics
Mark statistics - DatLab 7F2In Mark statistics one Plot is selected as a source for Marks over sections of time. Values (e.g. medians) are displayed for these time sections of the source plot and of all selected plots.
Marks - DatLabDatLab 8: Marks define sections of a plot set by the user for calibrations, analysis, or to delete marked data points. DatLab 7: Marks - DatLab 7
Mouse control: MarkCtrl+MThe mark mode is active by default, can be selected in the menu or by [Ctrl+M]. If Mouse control: Mark is enabled, specific sections of the experiment can be marked in each plot.

Usually, marks are set on the plot for oxygen concentration for calibration, whereas marks on the plot for oxygen flux are set for exporting the median or average of flux to a table.

»More details: Marks - DatLab.
Mouse control: ZoomCtrl+ZSelect Mouse Control: Zoom in the Graph-menu or press [Ctrl+Z].
NADH calibration - DatLabNADH calibration
Normalization of rateNormalization of rate (respiratory rate, rate of hydrogen peroxide production, growth rate) is required to report experimental data. Normalization of rates leads to a diversity of formats. Normalization is guided by physicochemical principles, methodological considerations, and conceptual strategies. The challenges of measuring respiratory rate are matched by those of normalization. Normalization of rates for: (1) the number of objects (cells, organisms); (2) the volume or mass of the experimental sample; and (3) the concentration of mitochondrial markers in the instrumental chamber are sample-specific normalizations, which are distinguished from system-specific normalization for the volume of the instrumental chamber (the measuring system). Metabolic flow, I, per countable object increases as the size of the object is increased. This confounding factor is eliminated by expressing rate as sample-mass specific or sample-volume specific flux, J. Flow is an extensive quantity, whereas flux is a specific quantity. If the aim is to find differences in mitochondrial function independent of mitochondrial density, then normalization to a mitochondrial marker is imperative. Flux control ratios and flux control efficiencies are based on internal normalization for rate in a reference state, are independent of externally measured markers and, therefore, are statistically robust.
O2 background correction - DatLabCTRL+BDatLab 8: Open the O2 background correction window to apply the instrumental O2 background values. DatLab 7 : Flux / Slope
O2k channel labels - DatLab 7Default channel labels can now be changed, and new labels set by the user. E.g., rename the Amperometric channel, Amp, to 'H2O2' for H2O2 measurements by fluorometry; rename the potentiometric channel, pX, to TPP+ for mitochondrial membrane measurements with the O2k-pH ISE-Module. For changing the label, go to menu [Oroboros O2k]\O2k channel labels and set the new channel label as desired.
O2k configurationConfigure or modify the settings for the O2k sensors In O2k configuration, channels (amperometric and potentiometric) can be switched on/off by selecting the according tick box. The Power-O2k number (P1, P2, ..) and numbers for O2 sensors, Amp sensors, pX electrodes and pX reference electrodes are entered or edited here. With the O2k-FluoRespirometer (O2k-Series H and higher), the serial numbers of the Smart Fluo-Sensors are shown automatically under [Amperometric, Amp]. The O2k configuration window pops up when DatLab starts and "Connect to O2k" is pressed for the first time. It is also accessible from the menu "Oroboros O2k" and from within the O2k control and Mark statistics windows.
O2k control (active)F7DatLab 8: Change settings of the connected O2k and current measurement. DatLab 7 : to modify instrumental settings: O2k control; to modify settings of specific channels: O2k configuration.
O2k control - DatLab 7F7After selection of an O2k setup in the O2k control [F7] window, followed by a left-click Send to O2k, only the following control functions are routinely required during experimental operations.
O2k info (view)Ctrl+F7O2k info (view) displays the experimental settings from the selected file, but does not allow modification. The only exception is the O2 sensor number, that can be modified by clicking on the edit button below the field. If the sensor number is modified after the recording, a warning appears next to the field, for quality control, informing that it has been changed. If more previously recorded files are open while running a measurement, O2k control (active) will always show the settings of the active recording, while O2k info (view) will show the settings of the selected file. The O2k info (view) option is disabled when the current recording file is selected.
O2k seriesThe O2k series is specified as the capital letter in the O2k serial number of the Oroboros O2k. A serial number G-#### or H-#### denotes an Oxygraph from the G or H series, while XA-### denotes a NextGen-O2k from the A series. With DatLab running real-time connected to the O2k, the serial number of the currently connected O2k is displayed: (1) in the right corner of the status line, besides the DatLab version number (bottom), and (2) in windows O2k control [F7] and O2k configuration.
O2k signal lineThe O2k signal line is underneath the O2k status line. It shows, depending on the O2k series, on the left side the O2k number, the time of the experiment, the oxygen raw signal of each chamber, the block temperature, the barometric pressure, the Peltier power, the recorded amperometric and potentiometric raw signal, the enviromental (room) temperature and the signal from internal sensors recording the humidity and temperature of the electronics. On the right side of the O2k signal line the current user, the DatLab version and the O2k serial number are displayed.
O2k signals and outputThree electronic channel types are available in the Oroboros MultiSensor system. All channels are available twofold (dual-data), for chambers A (left) and B (right), based on numerical signals sent at a fixed data sampling time interval (default: 2 s; range 0.2 s to >10 s).
O2k status lineO2k status line is found above the O2k signal line. It contains information about the chamber label, O2 calibration, amperometric calibration, potentiometric calibration, the block temperature, the illumination in chambers, the TIP2k status and the Automatic pan.
Open - DatLabCtrl+OOpen a previously recorded DatLab file.
Oroboros USB-flash driveThe Oroboros USB-flash drive is delivered with the Oroboros O2k. Copy the folder "Oroboros O2k-Course on HRR" from the Oroboros USB-flash drive to your computer. This folder contains the DatLab installation program as well as tools to find topics, O2k-manuals and O2k-protocols with corresponding DatLab demo files and templates for training with DatLab.
Oroboros chamber volume calibrationThe Oroboros chamber volume calibration has to be done before getting started with the Oroboros to guarantee a classic chamber volume of 2.0 mL or a small volume of 0.5 mL.
Outlier index threshold - DatLabSet a lab-specific or session-specific threshold (Lab-default or Session value) for the Outlier index different from the System default.
Outlier-skewness indexOSI, OIAn outlier-skewness index OSI is defined for evaluation of the distribution of data sets with outliers including separate clusters or skewness in relation to a normal distribution with equivalence of the average and median.
Oxygen calibration - DatLabDatLab 8: O2 calibration is the calibration in DatLab of the oxygen sensor (air calibration and zero calibration) in the Oroboros. It is a prerequisite for obtaining accurate measurements of respiration. DatLab 7: O2 calibration
Oxygen flowIO2 [mol·s-1] or [mol·s-1·x-1]Respiratory oxygen flow is the oxygen consumption per total system, which is an extensive quantity. Flow is advancement of a transformation in a system per time [mol·s-1], when 'system' is defined as the experimental system (e.g. an open or closed chamber). Flow is distinguished from the size-specific quantity flux obtained by normalization of flow per volume of the experimental system [mol·s-1·m-3]. An experimental object, e.g. a living cell, may be considered as the 'experimental system'. Then oxygen flow per cell has the unit [mol·s-1·x-1], where [x] is the elementary unit for a count. Oxygen flow or respiration per cell [amol·s-1·x-1] = [pmol·s-1·Mx-1] is normalized for the cell count, distinguished from oxygen flux (e.g. per mg protein or wet mass). These are different forms of normalization of rate.
Oxygen flux - instrumental backgroundJ°O2Instrumental background oxygen flux, J°O2, in a respirometer is due to oxygen consumption by the POS, and oxygen diffusion into or out of the aqueous medium in the Oroboros chamber. It is a property of the instrumental system, measured in the range of experimental oxygen levels by a standardized instrumental O2 background test. The oxygen regime from air saturation towards zero oxygen is applied generally in experiments with isolated mitochondria, and living or permeabilized cells. To overcome oxygen diffusion limitation in permeabilized fibers and homogenates, an elevated oxygen regime is applied, requiring instrumental background test in the same range of elevated oxygen.
Oxygen kineticsOxygen kinetics describes the dependence of respiration of isolated mitochondria or cells on oxygen partial pressure. Frequently, a strictly hyperbolic kinetics is observed, with two parameters, the oxygen pressure at half-maximum flux, p50, and maximum flux, Jmax. The p50 is in the range of 0.2 to 0.8 kPa for cytochrome c oxidase, isolated mitochondria and small cells, strongly dependent on Jmax and coupling state.
Oxygen pressurepO2 [kPa]Oxygen pressure or partial pressure of oxygen [kPa], related to oxygen concentration in solution by the oxygen solubility, SO2 [µM/kPa].
Oxygen sensor testPOS testThe O2 sensor test is an important component of Oroboros Quality Management. The OroboPOS test is described in detail in MiPNet06.03 POS-calibration-SOP, is performed after switching on the Oroboros, and is required as a basis of technical service of the instrument.
Oxygen signalThe oxygen signal of the Oroboros O2k is transmitted from the electrochemical polarographic oxygen sensor (OroboPOS) for each of the two O2k-chambers to DatLab. The primary signal is a current [µA] and calibrated in SI units for amount of substance concentration [µmol·L-1 or µM]. For technical reasons, the raw signal is converted into [V] in DatLab 7. The value of the raw signal is the same in DatLab 7 or 8, independent of the displayed unit ([V] or [µA]). In the following sections, only [µA] is used for information on the raw signal, but the same values in [V] apply for the raw signal when using DL7 or previous versions.
Oxygen solubilitySO2 [µM/kPa]The oxygen solubility, SO2 [µM/kPa] = [(µmol·L-1)/kPa], expresses the oxygen concentration in solution in equilibrium with the oxygen pressure in a gas phase, as a function of temperature and composition of the solution. The inverse of oxygen solubility is related to the activity of dissolved oxygen. The oxygen solubility in solution, SO2(aq), depends on temperature and the concentrations of solutes in solution, whereas the dissolved oxygen concentration at equilibrium with air, cO2*(aq), depends on SO2(aq), barometric pressure and temperature. SO2(aq) in pure water is 10.56 µM/kPa at 37 °C and 12.56 µM/kPa at 25 °C. At standard barometric pressure (100 kPa), cO2*(aq) is 207.3 µM at 37 °C (19.6 kPa partial oxygen pressure) or 254.7 µM at 25 °C (20.3 kPa partial oxygen pressure). In MiR05 and serum, the corresponding saturation concentrations are lower due to the oxygen solubility factor: 191 and 184 µM at 37 °C or 234 and 227 µM at 25 °C.
Oxygen solubility factorFMThe oxygen solubility factor of the incubation medium, FM, expresses the effect of the salt concentration on oxygen solubility relative to pure water. In mitochondrial respiration medium MiR05, MiR05-Kit and MiR06, FM is 0.92 (determined at 30 and 37 °C) and in culture media is 0.89 (at 37 °C). FM varies depending on the temperature and composition of the medium. To determine the FM based on the oxygen concentration, specific methods and equipment are needed (see references Rasmussen HN, Rasmussen UF 2003 in MiPNet06.03). For other media, FM may be estimated using Table 4 in MiPNet06.03. For this purpose KCl based media can be described as "seawater" of varying salinity. The original data on sucrose and KCl-media (Reynafarje et al 1985), however, have been critizesed as artefacts and the FM of 0.92 is suggested in the temperature range of 10 °C to 40 °C as for MiR05.
PC requirementsThe PC requirements for controlling an O2k and data recording with DatLab are found here.
POS calibration - dynamicCalibration of the sensor response time. See also POS calibration - static.
POS calibration - staticF5Two-point calibration of the polarographic oxygen sensor, comprising Air calibration and Zero calibration. See also POS calibration - dynamic.
PX calibration - DatLabpX calibration
Plot - DatLabA plot represents a specific trace of data points (signal, time derivative or system channels) in the graph. The plots of a specific graph are displayed on its right side with the same color of the corresponding trace.
Polarization voltageUA polarization voltage of 600 mV to 800 mV is applied between anode and cathode of the polarographic oxygen sensor, resulting in a current when oxygen is consumed. The current is converted by the electronics to a voltage (raw signal) which must not be confused with the polarization voltage.
Q calibration - DatLabQ calibration
Quit - DatLabDatLab 8: Close DatLab files and quit the program. DatLab 7 : Exit
Raw signal of the oxygen sensorRThe raw signal of the polarographic oxygen sensor is the current Iel [µA], 1 µA = 10-6 C·s-1, (DatLab 8) or the electric potential difference (voltage) [V], 1 V = 1 J·C-1, obtained after a current-to-voltage conversion in the O2k (DatLab 7 and previous versions).
Reboot O2k - DatLabThe O2k will automatically shut down and then restart itself without requiring further intervention from the user. This automatic process helps to restore the device to a functional state.
Recalculate slopeSelect Recalculate slope (Recalc. slope) in the Mark information window to restore data points in the marked section of the active Flux / Slope plot, if Delete points or Interpolate points was used before. The entire plot is recalculated, such that other marked sections which may have been deleted are also restored. Compare Restore points.
Restore pointsSelect Restore points in the Mark information window to restore data points in the marked section of the active signal plot, if Delete points or Interpolate points was used before. Compare Recalculate slope.
Run DL-Protocol/Set O2 limitDL-Protocols (DLP) can be selected in DatLab 7 in the pull-down menu 'Protocol': Set DL-Protocol / O2 limit. A DL-Protocol defines the sequence of Events and Marks and can be assigned to O2k-Chamber A or B, or both. Linked to DL-Protocols are templates for storing exported data in a database and for data analysis. Instrumental DL-Protocols are used for calibrations and instrumental quality control, without experimental sample in the incubation medium. DL-Protocols for substrate-uncoupler-inhibitor titration (SUIT) provide a guide through a sequence of coupling-control states and Electron-transfer-pathway states. A library of evaluated and tested standard DL-Protocols is provided by the Oroboros team. The Titration-Injection-microPump TIP2k can be programmed for automatic control of titration steps in a DL-Protocol. In DatLab 7.4, it is possible to edit a DL-Protocol and save it as a user-specific DL-Protocol (*.DLPU). For more information, see: Enable DL-Protocol editing. A Lower O2 limit [µM] can be defined for each chamber, to trigger an automatic warning when the experimental O2 concentration declines below this limit as a WARNING to remind the user that re-oxygenation of the medium may be required.
SUIT: Browse DL-ProtocolsDatLab 8: Open a folder with a library of SUIT protocols, schemes, templates and traces provided with DatLab 8. DatLab 7 : SUIT: Browse DL-Protocols and templates
SUIT: Browse DL-Protocols and templates - DatLab 7A comprehensive library of SUIT protocols including DatLab example traces, instructions, brief explanatory texts, links to relevant pages, representative diagrams and templates for data evaluation can be browsed from inside DatLab 7.4. Click on menu [Protocols]\SUIT: Browse DL-Protocols and templates to open a folder with all the SUIT protocols provided with the DatLab 7.4. DL-Protocols (DLP) for different sample preparations can be chosen to assess multiple sequences of respiratory coupling control and ET-pathway states. DL-Protocols posses unique D## codes and comprise a fixed sequence of events and marks which cannot be changed by the user. However, the users can edit titration volumes and concentrations in the Overview window of a DL-protocol, save the overview, and export the file as a user-specific DL-Protocol [File / Export / A or B: Export DL-Protocol User (*.DLPU)]. In DatLab 7.4, fixed sequence of events and marks can be changed (Skip/Added) in a SUIT protocol by the user. Moreover, editions of text, instructions, concentrations and titration volumes of injections in a specific DL-Protocol can be edited and saved as user-specific DL-Protocol [File]\Export\DL-Protocol User (*.DLPU). For more information, see: Enable DL-Protocol editing.
SUITbrowserUse the SUITbrowser to find the substrate-uncoupler-inhibitor-titration (SUIT) protocol most suitable for addressing your research questions.
Open the SUITbrowser: http://suitbrowser.oroboros.at/


PlayVideo.jpg How to find a DL-Protocol (DLP)
Sample - DatLab 7F3In the window Sample, information is entered and displayed for the sample (Sample type, Cohort, Sample code, Sample number, Subsample number and sample concentration). Entries can be edited any time during the experiment in real-time or during post-experiment analysis. All related results are recalculated instantaneously with the new parameters. Initially, the Edit experiment window displays information from the last file recorded and saved while connected to the O2k.
Sample and medium - DatLabF3DatLab 8: In the window Sample and medium, information is entered and displayed for the sample and medium. Entries can be edited any time during the experiment or during post-experiment analysis. All related results are recalculated instantaneously with the new parameters. The window can be opened whenever a file is loaded or currently recorded. DatLab 7: Sample
Save - DatLabCtrl+SSave a DatLab file.
Save and DisconnectCtrl+F4Save and Disconnect: Stops data acquisition and disconnects from the O2k (only for DatLab 7)
Save as - DatLabSave as a DatLab file.
Scaling - DatLabF6Scaling a graph in DatLab provides flexibility to vary the display of the plots and create Graph layouts. It allows viewing a data plot in differently scaled graphs, zooming the signal and time scales, and scrolling along the axes of the graph provide maximum information on the current experiment. This does not influence the format of stored data. Different ranges for the axes change the appearance of data dramatically. It is highly recommended to use reference layouts. »Compare: Select plots - DatLab.
Scaling factorScaling factor determines the multiplication factor that is applied to the time derivative of the signal.
Select O2k - DatLabSelect O2k - DatLab
Select plots - DatLabCtrl+F6In the pull-down menue [Graph], Select plots opens the Graph layout window 'Plots'. For each graph, the plots shown with the Y1 or Y2 axis can be selected, axis labels and line styles can be defined, the unit for the calibrated signal can be changed, Flux/Slope can be chosen to be displayed as Flux per volume or as normalized specific flux/flow, the background correction can be switched on or off, and the channel can be selectively displayed as the raw signal. Graph layouts can be selected and loaded or a Graph layout may be saved. »Compare: Scaling - DatLab.
SensitivitySensitivity refers to the response obtained for a given amount of analyte and is often denoted by two factors: the limit of detection and the limit of quantification.
Serial portSerial port describes the connection between O2k and Computer. With the USB-Cable 2.0\Type A-B connected, select Serial port in the Connection window. Depending on the O2k series, it is possible to connect with a Serial port or USB port.
Set Power O2k number - DatLabCtrl+PDatLab 8: Set a Power-O2k number to label the O2k in a Power O2k-Lab. DatLab 7 : Set the Power-O2k number in the O2k configuration window.
Set lower O2 limit - DatLabDatLab 8: Define a lower O2 limit [µM] for each O2k-chamber, to trigger an automatic warning when the experimental O2 concentration drops below this limit. DatLab 7: Run DL-Protocol/Set O2 limit
Set upper O2 limit - DatLabDefine an upper O2 limit [µM] for each O2k-chamber, to trigger an automatic warning when the experimental O2 concentration rises beyond this limit.
Show Power O2k numberDatLab 8: When the option Show Power O2k number is selected, the Power-O2k number is displayed in the background of the active graph. The Power-O2k number can be set in the software top menu 'O2k': Set Power O2k number. DatLab 7: Display Power-O2k
SmoothingVarious methods of smoothing can be applied to improve the signal-to-noise ratio. For instance, data points recorded over time [s] or over a range of wavelengths [nm] can be smoothed by averaging n data points per interval. Then the average of the n points per smoothing interval can be taken for each successively recorded data point across the time range or range of the spectrum to give a n-point moving average smoothing. This method decreases the noise of the signal, but clearly reduces the time or wavelength resolution. More advanced methods of smoothing are applied to retain a higher time resolution or wavelength resolution.
SolubilitySGThe solubility of a gas, SG, is defined as concentration divided by partial pressure, SG = cG·pG-1.
Start recording - DatLabDatLab 8: In the ‘Start recording’ window, the user selects the protocol that will be performed, adjusts the settings of the O2k, channels and sensors and starts the measurement. DatLab 7: O2k control, Run DL-Protocol/Set O2 limit, O2k configuration
Status bar - DatLabDatLab 8: Displays information about the current selected file, including Power O2k number and calibration status. Raw O2 values and ongoing measurement time are also displayed in a file being recorded. DatLab 7 : Status line
Status linesee O2k status line
Steady stateA system is in a steady state if the state variables of a dynamic system do not change over time due to exchange processes with the environment, which compensate for internal dissipative transformations — such as chemical reactions or diffusion — and thus prevent any changes of the system and externalize dissipative changes to the environment. The dynamic nature of the steady state differentiates it from the thermodynamic equilibrium state. {Quote} Steady states can be obtained only in open systems, in which changes by internal transformations, e.g., O2 consumption, are instantaneously compensated for by external fluxes across the system boundary, e.g., O2 supply, thus preventing a change of O2 concentration in the system (Gnaiger 1993). Mitochondrial respiratory states monitored in closed systems satisfy the criteria of pseudo-steady states for limited periods of time, when changes in the system (concentrations of O2, fuel substrates, ADP, Pi, H+) do not exert significant effects on metabolic fluxes (respiration, phosphorylation). Such pseudo-steady states require respiratory media with sufficient buffering capacity and substrates maintained at kinetically-saturating concentrations, and thus depend on the kinetics of the processes under investigation. {end of Quote: BEC 2020.1}. Whereas fluxes may change at a steady state over time, concentrations are maintained constant. The 'respiratory steady state' (Chance and Williams 1955) is characterized by constant fluxes (O2 flux, H2O2 flux) and measured variables of state (cytochrome redox states, Q redox state, NADH redox state, mitochondrial membrane potential). High-resolution respirometry allows for the measurement of several parameters (e.g. O2 flux, H2O2 flux, mitochondrial membrane potential) at pseudo-steady states, when changes of concentrations in the closed system do not exert any control on fluxes. Combination with the Titration-Injection microPump (TIP2k) allows operation with programmable titration regimes at steady-state ADP concentration (Gnaiger 2001), oxygen concentration (oxystat mode; Gnaiger et al 2000, Harrison et al 2015) or steady-state pH (pH-stat more), yielding an expanded flexibility in experimental design by combining the technical advantages of closed and open systems approaches.
Stirrer A on/offF11The stirrer in chamber A is switched on/off.
Stirrer B on/offF12The stirrer in chamber B is switched on/off.
Stirrer powerF11, F12Stirrer power is switched on and off during operation of the Oroboros O2k in DatLab by pressing [F11] (left chamber) and [F12] (right chamber), respectively. This is functional only with a stirrer bar added to each O2k chamber.
Stirrer testA stirrer test is performed in the Oroboros for quick evaluation of the performance of the OroboPOS and for dynamic calibration. Stirring is stopped in both chambers and restarted after a selected period. The default period is 30 s, for experiments at 37 °C. At lower experimental temperature, this period should be prolonged (60 s at 25 °C). In the Oroboros Quality Control for the O2 sensor test, the stirrer test is performed in the 'open' chamber in conjunction with Air calibration. In general, the stirrer test can be performed equally with an open or closed chamber. Upon automatic re-start of the stirrer (On), the increase of the oxygen signal should be rapid and monoexponential.
Stop measurementStop data acquisition. The DatLab data file will be saved automatically.
Synchronous events - DatLabDatLab 8: Set protocol events for both chambers as default when the same DL-Protocol is selected for both chamber A and B. DatLab 7 : Synchronous DL-Protocol events
Synchronous time axesSynchronous time axes sets, if ticked, the time axes of all graphs at an identical range and offset, which is particularly useful while panning.
TIP2k control - DatLabF8Control the Titration-Injection microPump (TIP2k) operation mode by programming titration regimes (direct mode) and feedback mode in DatLab. The TIP2k status is shown in the control bar. Detailed information: MiPNet12.10 TIP2k-manual
Temperature plot emptyProblem: Layout "01 Calibration Exp. Gr3-Temp" is selected, a third plot is displayed on the screen but it remains empty (no plot is shown). Newer versions of DatLab include pre-installed layouts which do not recognize some channel designations from older O2k series.
Time resolutionTime resolution in respirometric measurements is influenced by three parameters: the response time of the POS, the data sampling interval and the number of points used for flux calculation.
Toggle overlay - DatLabF9Toggle overlay toggles between a layout where the plots from chamber A and B are displayed in different graphs and a layout where identical plots for the two chambers are overlayed in the same graph (and vice versa). When the same plots of the two chambers are overlayed, chamber A is by default red and chamber B green, as are the marks set for each chamber. This function is very useful to compare the data obtained in the two chambers (e.g. control and treatment). This function is only available when chamber A and B display the same plots.
Toolbar - DatLabThe toolbar provides quick access to graphs and plots functions.
USB portThe USB port describes the connection between O2k and Computer. With the USB cable connected, select USB port in the Connection window. Depending on the O2k series, it is possible to connect with a USB port or Serial port.
Uncoupler titrationsIn uncoupler titrations various uncouplers, such as CCCP, FCCP or DNP are applied to uncouple mitochondrial electron transfer from phosphorylation (ATP synthase, ANT and phosphate carrier), particularly with the aim to measure ET capacity. ET capacity is maximum oxygen flux measured as noncoupled respiration with optimum uncoupler concentration.
Use fullscreen - DatLabCtrl+Shift+FWhen selected, the software window maximizes, hiding the DatLab 8 title bar and the Windows or Linux taskbar, thereby filling the whole screen.
User - DatLabDatLab 8: A user name has to be entered upon starting DatLab 8. DatLab 7: User - DatLab 7
User - DatLab 7A user code or name is entered upon starting DatLab. This window pops up automatically after opening DatLab.
Zero calibrationR0Zero calibration is, together with air calibration, one of the two steps of the POS calibration. It is performed in the closed chamber after all the oxygen has been depleted by the addition of dithionite or by respiration of imt or cells. Any incubation medium can be used for zero calibration with dithionite or sample. Unlike air calibration, it is not necessary to perform a zero calibration on each experimental day. After performing a zero calibration, it is recommended not running other experiments on the same day. Even after standard cleaning of the O2k-chambers, there might be residual amounts of reduced dithionite in the chamber, affecting the oxygen flux in subsequent experiments performed on the same day.


Further links

» Oroboros Manual: DatLab
» Oroboros Demo experiments
» Oroboros Catalogue: DatLab


Related topics
» Respirometry
» Fluorometry
» Spectrophotometry
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