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Difference between revisions of "Layout for DatLab graphs"

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{{MitoPedia
{{MitoPedia
|description=A '''Layout''' in [[DatLab]] from the Layout menu or the Graph menu is a predefined selection for standardized display of graphs, [[Plot - DatLab |plots]] to be displayed at specific [[Scaling - DatLab|scalings]]. Any defined graph layout can be selected from the Layout menu for defining initial settings for the plots [Ctrl+F6] and scaling [F6]. A  layout can be modified and saved under a specific name.  
|description=A '''Layout''' in [[DatLab]] selected in the Layout menu yields a standardized display of graphs and [[Plot - DatLab |plots]] displayed with specific [[Scaling - DatLab|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.
|info=
|info=
}}
}}
{{MitoPedia O2k and high-resolution respirometry
|mitopedia O2k and high-resolution respirometry=DatLab
}}
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== Graph / Info ==
== Graph / Info ==
[[File:Graph-menu.png|right|200px]]  
[[File:Graph-menu.png|right|200px]]  
[[File:Graph info.png|500px|Graph info]]
[[File:Graph info2.png|500px|Graph info]]
:::: View and edit information, and load or save a graph layout. (See [[Layout_for_DatLab_graphs#Layout: Info/ Load/ Safe| below]]
:::: View and edit information, and load or save a graph layout (see [[Layout_for_DatLab_graphs#Layout: Info/ Load/ Safe| below]]).
:::: A quick selection of the tabs Plots Ctrl+F6 and Scaling (F6) is possible.
::::» Quick selection of plots and axes in a graph [Ctrl+F6] and scaling [F6].
 


== Layout: Info/ Load/ Save ==
== Layout: Info/ Load/ Save ==
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[[File:Layout-menu.png|right|200px]]
[[File:Layout-menu.png|right|200px]]


:::: Open this window (Section above) to view and edit information and load or save a graph layout.
::::'''1.''' Select one of the layout types available depending on the O2k-configuration:
::[[File:Info save.png|600px|Info load and save]]
::::: Types - Four types of layout can be selected depending on the O2k-configuration:
:::::* O2: Oxygen channel only.
:::::* O2: Oxygen channel only.
:::::* O2 & Amp: Oxygen and amperometric channel.
:::::* O2 & Amp: Oxygen and amperometric channel.
:::::* O2 & pX: Oxygen and potentiometric channel.
:::::* O2 & pX: Oxygen and potentiometric channel.
:::::* Other
:::::* Other
 
::::'''2.''' If a different layout type has been selected, open the Layout tab again to select a Standard layout, Lab layout, User layout, or one of the most recently used layouts.


== Standard layouts - O2k-FluoRespirometer ==
== Standard layouts - O2k-FluoRespirometer ==
  Version: DatLab 7
  Version: DatLab 7
:::: In typical standard DatLab graph layouts plots are shown for the left chamber in Graph 1 (top), and for the right chamber in Graph 2 (below). During data acquisition, a 30 min time range is frequently used and can be adjusted any time during the experiment [F6].
:::: In typical standard DatLab graph layouts plots are shown for the left chamber in Graph 1 (top), and for the right chamber in Graph 2 (below). During data acquisition, a 30 min time range is frequently used and can be adjusted any time during the experiment [F6].
::: '''General information'''
:::: Layouts 01 to 07 are considered for O2 applications.                   
:::: Layouts Amp* or pX* are selected for O2k-MultiSensor applications.
::: '''Summary'''
:::: 01 Calibration show Temp
:::: 02 Calibration - Background
:::: 03 Background high O2
:::: ----
:::: 04a Flux per volume
:::: 04b Flux per volume overlay
:::: ----
:::: 05a Specific flux
:::: 05b Specific flux overlay
:::: 06a Specific flux high O2
:::: 06b Specific flux high O2 overlay
:::: ----
:::: 07a Flux Control Ratios
:::: 07b Flux Control Ratios overlay


=== 01 Calibration show Temp ===
=== 01 Calibration show Temp ===
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=== 04a Flux per volume ===  
=== 04a Flux per volume ===  
:::: It displays background-corrected oxygen flux per volume, which is most relevant to evaluate experimental details, i.e. flux per volume is optimally in the range of 20 to 200-500 pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>. This plot is also chosen when measurements on sample density are available only at a later stage. Total O<sub>2</sub> flux is corrected for instrumental O<sub>2</sub> background, <sub>O2,V,</sub> to obtain sample oxygen flux per chamber volume, J<sub>O2,V</sub>(sample):  
:::: Displays background-corrected oxygen flux per volume, which is most relevant to evaluate experimental details, i.e. flux per volume is optimally in the range of 20 to 200-500 pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>. This plot is also chosen when measurements on sample density are available only at a later stage. Total O<sub>2</sub> flux is corrected for instrumental O<sub>2</sub> background, ''J''°<sub>O<sub>2</sub>,''V''</sub>, to obtain sample oxygen flux per chamber volume, ''J''<sub>O<sub>2</sub>,''V''</sub>:  
  J<sub>O2,V</sub>(sample) = J<sub>O2,V</sub>(total) - <sub>O2,V</sub>
  ''J''<sub>O<sub>2</sub>,''V''</sub> = ''J''<sub>O<sub>2</sub>,''V''</sub>(total) - ''J''°<sub>O<sub>2</sub>,''V''</sub>


=== 04b Flux per volume overlay ===
=== 04b Flux per volume overlay ===
:::: It is similar to the layout ''04a Flux per volume''. Graph 1 shows the background-corrected oxygen flux per volume [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] superimposed from both chambers. Graph 2 shows oxygen concentration [µM].
:::: Similar to the layout ''04a Flux per volume'', Graph 1 shows the background-corrected oxygen flux per volume [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] superimposed for both chambers. Graph 2 shows oxygen concentration [µM] superimposed for both chambers.


=== 05a Specific flux ===
=== 05a Specific flux ===
:::: Is used for plotting background-corrected oxygen flux per unit sample. The unit as a marker for the amount of sample is defined in the F3 window. Example: Select ''Unit mg'' for the amount (mass) of sample added to the chamber. The mass-concentration is automatically calculated (division by chamber volume, typically 2 mL). Then mass-specific flux [pmol∙s<sup>-1</sup>∙mg<sup>-1</sup>] is displayed as volume-specific flux [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] divided by mass-concentration [mg/mL]:
:::: Is used for plotting background-corrected oxygen flux per unit sample. The unit as a marker for the amount of sample is defined in the Sample (F3) window. Example: Select ''Unit mg'' for the amount (mass) of sample added to the chamber. The mass-concentration is automatically calculated (division by chamber volume, typically 2 mL). Then mass-specific flux ''J''<sub>O<sub>2</sub>,''m''</sub> [pmol∙s<sup>-1</sup>∙mg<sup>-1</sup>] is displayed as volume-specific flux ''J''<sub>O<sub>2</sub>,''V''</sub> [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] divided by mass-concentration ''C<sub>m</sub>'' [mg/mL]:
  J<sub>O2,mass</sub> = J<sub>O2,V</sub> / mass-concentration
  ''J''<sub>O<sub>2</sub>,''m''</sub> = ''J''<sub>O<sub>2</sub>,''V''</sub> / ''C<sub>m</sub>''


=== 05b Specific flux overlay ===
=== 05b Specific flux overlay ===
:::: It is similar to ‘05a Specific flux’. Graph 1 shows the background-corrected oxygen flux per unit sample superimposed from both chambers. Graph 2 shows oxygen concentration [µM].
:::: Is similar to ‘05a Specific flux’. Graph 1 shows the background-corrected oxygen flux per unit sample superimposed from both chambers. Graph 2 shows oxygen concentration [µM].


=== 06a Specific flux high O2 ===
=== 06a Specific flux high O2 ===
:::: This is the same as ‘05a Specific flux’ with the scaling adapted to the high oxygen concentration used for permeabilized muscle fibers (150 to 450 µM; range 300 µM).
:::: Is the same as ‘05a Specific flux’ with the scaling adapted to the high oxygen concentration used for permeabilized muscle fibers (150 to 450 µM; range 300 µM).


=== 06b Specific flux high 02 overlay ===
=== 06b Specific flux high 02 overlay ===
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=== 07a Flux control ratios ===
=== 07a Flux control ratios ===
:::: It shows the flux control ratio (''FCR'') and the oxygen concentration for the left chamber in Graph 1 and for the right chamber in Graph 2. First, the reference and baseline metabolic states are marked and the marks are named (Marks \ Names). Then the marks are selected in the menu [[Flux/Slope]] \ O2 slope.
:::: Shows the flux control ratio (''FCR'') and the oxygen concentration for the left chamber in Graph 1 and for the right chamber in Graph 2. First, the reference and baseline metabolic states are marked and the marks are named (Marks \ Names). Then the marks are selected in the menu [[Flux / Slope]] \ A: O2 slope (or B: O2 slope).


=== 07b Flux control ratios overlay ===
=== 07b Flux control ratios overlay ===
:::: As ‘07a Flux control ratios’, but ''FCR'' (graph 1) and oxygen concentration (graph 2) superimposed from both chambers.
:::: As ‘07a Flux control ratios’ ''FCR'' (graph 1) and oxygen concentrations (graph 2) are superimposed from both chambers.




==  Lab layouts ==
==  Lab layouts ==
::[[File:Info save.png|600px|Info load and save]]
:::: A Standard layout or any other layout can be modified and saved under Lab layouts, which is recommended for a team using project-specific layouts.
:::: A Standard layout or any other layout can be modified and saved under Lab layouts, which is recommended for a team using project-specific layouts.


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  Version: DatLab 7
  Version: DatLab 7


:::: 01 Amp Amperometric_Raw signal
:::: '''01 Amp Amperometric_Raw signal:''' A standard layout used for fluorometric or amperometric applications. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) and O<sub>2</sub> flux per volume (red line; right axis) for chamber A (left) and B (right), respectively. Graphs 2 and 4 show the amperometric or fluorometric raw signal (black line; left axis) expressed as [V] and the amperometric or fluorometric raw slope (green line; right axis) expressed as [mV/s].
:::: 02 Amp Amperometric_Calibrated
:::: '''02 Amp Amperometric_Calibrated:''' A standard layout used for fluorometric or amperometric applications. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) and O<sub>2</sub> flux per volume (red line; right axis) for chamber A (left) and B (right), respectively. Graph 2 and 4 show the calibrated amperometric or fluorometric signal (black line; left axis) and the calibrated amperometric or fluorometric slope (green line; right axis). ''e.g.'' In the case of Amplex UltraRed assay which is used to detect H<sub>2</sub>O<sub>2</sub> flux, 0.1 µM H<sub>2</sub>O<sub>2</sub> is used to calibrate the signal. In this case the signal is expressed as [µM] and the slope as [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] after calibration.




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  Version: DatLab 7
  Version: DatLab 7


:::: 01 Potentiometric
:::: '''01 Potentiometric:''' A layout used for potentiometric applications. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) expressed as µM and O<sub>2</sub> flux per volume (red line; right axis) expressed as pmol/(s*mL) for chamber A (left) and B (right), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis)  expressed as [V] between +10 and -10 V and the slope (red line, right axis) calculated from the signal expressed as [mV/s] between +2 and -2.
:::: ----
:::: '''02a TPP_calibration:''' A layout used for TPP calibration. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) expressed as µM and O<sub>2</sub> slope negative (red line; right axis) expressed as [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>] for chamber A (left) and chamber B (right), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis) expressed as [V] during TPP calibration between -3 and -3.5, and the slope calculated from the signal expressed as [mV/s] (red line, right axis) between +0.2 and -0.2.
:::: 02a TPP_calibration
:::: '''02b TPP_with_O2flux:''' A layout used for TPP experiments. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) expressed as µM and O<sub>2</sub> flux per volume (red line; right axis) for chamber A (left) and B (right) expressed as pmol/(s*mL), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis) expressed as [V] during TPP calibration between -3 and -3.5, and the slope calculated from the signal expressed as [mV/s] (red line, right axis) between +0.2 and -0.2.
:::: 02b TPP_with_O2flux
:::: '''02c TPP_calibrated_with_O2flux:''' A layout used for TPP experiments. Graphs 1 and 3 show the O<sub>2</sub> concentration (blue line; left axis) expressed as µM and O<sub>2</sub> flux per volume (red line; right axis) for chamber A (left) and B (right) expressed as [pmol∙s<sup>-1</sup>∙mL<sup>-1</sup>], respectively. Graphs 2 and 4 show the TPP signal (dark blue line; left axis) between -5.8 and -6, and the slope calculated from the signal (red line, right axis) between +0.2 and -0.2.
:::: 02c TPP_calibrated_with_O2flux




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  Version: DatLab 7
  Version: DatLab 7


:::: O2 raw signal
:::: '''O2 raw signal:''' Graphs 1 and 2 show the O<sub>2</sub> raw signal expressed in units volt [V] (blue line; left axis) and the O<sub>2</sub> slope negative (red line; right axis) expressed as mV/s for chamber A (left) and chamber B (right). Graph 3  shows the block temperature on the left ''Y'' axis (red) and the Peltier power on the right ''Y'' axis (green).  Only when both temperature and Peltier power are constant, the chambers have reached thermal equilibrium.
 
{{MitoPedia O2k and high-resolution respirometry
|mitopedia O2k and high-resolution respirometry=DatLab
}}

Revision as of 08:30, 31 March 2021


high-resolution terminology - matching measurements at high-resolution


Layout for DatLab graphs

Description

A 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.

Graph / Info

Graph-menu.png

Graph info

View and edit information, and load or save a graph layout (see below).
» Quick selection of plots and axes in a graph [Ctrl+F6] and scaling [F6].


Layout: Info/ Load/ Save

Layout-menu.png
1. Select one of the layout types available depending on the O2k-configuration:
  • O2: Oxygen channel only.
  • O2 & Amp: Oxygen and amperometric channel.
  • O2 & pX: Oxygen and potentiometric channel.
  • Other
2. If a different layout type has been selected, open the Layout tab again to select a Standard layout, Lab layout, User layout, or one of the most recently used layouts.

Standard layouts - O2k-FluoRespirometer

Version: DatLab 7
In typical standard DatLab graph layouts plots are shown for the left chamber in Graph 1 (top), and for the right chamber in Graph 2 (below). During data acquisition, a 30 min time range is frequently used and can be adjusted any time during the experiment [F6].

01 Calibration show Temp

Calibration show temp shows O2 concentration and the negative slope in Graph 1 and 2, and temperature and Peltier power in Graph 3: This is the default layout used after switching on the O2k for performing oxygen calibration.
Graph 1 & 2: O2 concentration (blue lines, left Y-axis) and O2 slope negative (uncorrected; red lines, right Y-axis) are displayed in the top graph for the left chamber (A), and below for the right chamber (B).
Graph 3: The third graph (bottom) shows the block temperature on the left Y axis (red) and the Peltier power on the right Y axis (green). Only when both temperature and Peltier power are constant, the chambers have reached thermal equilibrium.
  1. During this phase a stirrer test can be performed [F9].
  2. The next step is to observe equilibration of the oxygen signal with a defined gas phase above the stirred aqueous phase ('open') chamber; usually with air as the first step to perform an oxygen sensor calibration.
» Further information: O2 calibration - DatLab

02 Calibration - Background

Is used for recording O2 sensor calibration and instrumental O2 background test. 'O2 slope neg.' is the negative slope of oxygen concentration, multiplied by 1000 to convert to units [pmol/mL], over time [s]. No correction is applied for instrumental O2 background flux, J°02. 'O2 slope neg.' is plotted on the right Y-axis with a scaling to display ±10 pmol∙s-1∙mL-1 and zero in the middle of the Y2 axis. Zero slope in the 'open' chamber at air calibration indicates the stability of the oxygen signal. After closing the chamber, the slope deviates from zero as a function of the oxygen consumption of the polarographic oxygen sensor and of oxygen diffusion into or out of the chamber, which is the first point in the instrumental O2 background test.
» Further information: MiPNet14.06 Instrumental O2 background

03 Background high O2

Is used for recording an instrumental O2 background test at high oxygen from 150 to 450 µM.

04a Flux per volume

Displays background-corrected oxygen flux per volume, which is most relevant to evaluate experimental details, i.e. flux per volume is optimally in the range of 20 to 200-500 pmol∙s-1∙mL-1. This plot is also chosen when measurements on sample density are available only at a later stage. Total O2 flux is corrected for instrumental O2 background, J°O2,V, to obtain sample oxygen flux per chamber volume, JO2,V:
JO2,V = JO2,V(total) - J°O2,V

04b Flux per volume overlay

Similar to the layout 04a Flux per volume, Graph 1 shows the background-corrected oxygen flux per volume [pmol∙s-1∙mL-1] superimposed for both chambers. Graph 2 shows oxygen concentration [µM] superimposed for both chambers.

05a Specific flux

Is used for plotting background-corrected oxygen flux per unit sample. The unit as a marker for the amount of sample is defined in the Sample (F3) window. Example: Select Unit mg for the amount (mass) of sample added to the chamber. The mass-concentration is automatically calculated (division by chamber volume, typically 2 mL). Then mass-specific flux JO2,m [pmol∙s-1∙mg-1] is displayed as volume-specific flux JO2,V [pmol∙s-1∙mL-1] divided by mass-concentration Cm [mg/mL]:
JO2,m = JO2,V / Cm

05b Specific flux overlay

Is similar to ‘05a Specific flux’. Graph 1 shows the background-corrected oxygen flux per unit sample superimposed from both chambers. Graph 2 shows oxygen concentration [µM].

06a Specific flux high O2

Is the same as ‘05a Specific flux’ with the scaling adapted to the high oxygen concentration used for permeabilized muscle fibers (150 to 450 µM; range 300 µM).

06b Specific flux high 02 overlay

As ‘06a Specific flux high O2’, but oxygen flux (Graph 1) and oxygen concentration (Graph 2) superimposed from both chambers.

07a Flux control ratios

Shows the flux control ratio (FCR) and the oxygen concentration for the left chamber in Graph 1 and for the right chamber in Graph 2. First, the reference and baseline metabolic states are marked and the marks are named (Marks \ Names). Then the marks are selected in the menu Flux / Slope \ A: O2 slope (or B: O2 slope).

07b Flux control ratios overlay

As ‘07a Flux control ratios’ FCR (graph 1) and oxygen concentrations (graph 2) are superimposed from both chambers.


Lab layouts

Info load and save
A Standard layout or any other layout can be modified and saved under Lab layouts, which is recommended for a team using project-specific layouts.

User: Name

A Standard layout or any other layout can be modified and saved under a specific user name, which is recommended to distinguish individual layouts from standard layouts used by a team.


Reference Layouts

Reference Layouts: O2 & Amp

Version: DatLab 7
01 Amp Amperometric_Raw signal: A standard layout used for fluorometric or amperometric applications. Graphs 1 and 3 show the O2 concentration (blue line; left axis) and O2 flux per volume (red line; right axis) for chamber A (left) and B (right), respectively. Graphs 2 and 4 show the amperometric or fluorometric raw signal (black line; left axis) expressed as [V] and the amperometric or fluorometric raw slope (green line; right axis) expressed as [mV/s].
02 Amp Amperometric_Calibrated: A standard layout used for fluorometric or amperometric applications. Graphs 1 and 3 show the O2 concentration (blue line; left axis) and O2 flux per volume (red line; right axis) for chamber A (left) and B (right), respectively. Graph 2 and 4 show the calibrated amperometric or fluorometric signal (black line; left axis) and the calibrated amperometric or fluorometric slope (green line; right axis). e.g. In the case of Amplex UltraRed assay which is used to detect H2O2 flux, 0.1 µM H2O2 is used to calibrate the signal. In this case the signal is expressed as [µM] and the slope as [pmol∙s-1∙mL-1] after calibration.


Reference Layouts: O2 & pX

Version: DatLab 7
01 Potentiometric: A layout used for potentiometric applications. Graphs 1 and 3 show the O2 concentration (blue line; left axis) expressed as µM and O2 flux per volume (red line; right axis) expressed as pmol/(s*mL) for chamber A (left) and B (right), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis) expressed as [V] between +10 and -10 V and the slope (red line, right axis) calculated from the signal expressed as [mV/s] between +2 and -2.
02a TPP_calibration: A layout used for TPP calibration. Graphs 1 and 3 show the O2 concentration (blue line; left axis) expressed as µM and O2 slope negative (red line; right axis) expressed as [pmol∙s-1∙mL-1] for chamber A (left) and chamber B (right), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis) expressed as [V] during TPP calibration between -3 and -3.5, and the slope calculated from the signal expressed as [mV/s] (red line, right axis) between +0.2 and -0.2.
02b TPP_with_O2flux: A layout used for TPP experiments. Graphs 1 and 3 show the O2 concentration (blue line; left axis) expressed as µM and O2 flux per volume (red line; right axis) for chamber A (left) and B (right) expressed as pmol/(s*mL), respectively. Graphs 2 and 4 show the potentiometric raw signal (dark blue line; left axis) expressed as [V] during TPP calibration between -3 and -3.5, and the slope calculated from the signal expressed as [mV/s] (red line, right axis) between +0.2 and -0.2.
02c TPP_calibrated_with_O2flux: A layout used for TPP experiments. Graphs 1 and 3 show the O2 concentration (blue line; left axis) expressed as µM and O2 flux per volume (red line; right axis) for chamber A (left) and B (right) expressed as [pmol∙s-1∙mL-1], respectively. Graphs 2 and 4 show the TPP signal (dark blue line; left axis) between -5.8 and -6, and the slope calculated from the signal (red line, right axis) between +0.2 and -0.2.


Reference Layouts: Other

Version: DatLab 7
O2 raw signal: Graphs 1 and 2 show the O2 raw signal expressed in units volt [V] (blue line; left axis) and the O2 slope negative (red line; right axis) expressed as mV/s for chamber A (left) and chamber B (right). Graph 3 shows the block temperature on the left Y axis (red) and the Peltier power on the right Y axis (green). Only when both temperature and Peltier power are constant, the chambers have reached thermal equilibrium.


MitoPedia O2k and high-resolution respirometry: DatLab