Lidstrom: Molecular Devices Plate Reader
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- Machine = molecular devices: spectramax 190
- Software = Softmax Pro, version 5.3. (manual)
WARNING: THIS SOFTWARE CRASHES PRETTY EASILY . Worse, any file that is open while the program crashes will be corrupted.
- Things that cause it to crash:
- Pressing save while data is being recorded
- Making a new plate while data is being recorded, if the plate selected when you click to make a new plat is the plate being recorded.
- Having files that are "too big."
- Amanda had it freeze because the file was "too big" 12/2013. It was 1.3 MB, and froze upon saving. She gave it 5 min to save, but the program said "not responding" in the force quit box. The file produced after force quitting was broken: the data was gone when she tried to open it again. Amanda has done bigger files before, so this was a little surprising. Customer support said that it can crash if you have files that are too big. Break your runs down into different files if you are worried. Amanda also suggests giving it as long as possible; maybe it would have come back to life.
- Save often to avoid trauma:
- Save after each strip or chunk of strips you monitor.
- Pressing save can be slow, but "save as" is much faster. Make many iterations of a file: file-revA.pda ... file-revK.pda
- Consider taking screen shots often, saving often, and maybe the autosave option.
- Note: Amanda had tried the autosave option but it was saving files in unusual locations.
- Know that it is normal for the software to say "not responding" when saving or when making a new plate once the file gets larger.
- If it won't let you read a "plate" in the software, double click on the plate's title as if to change it and press ok. It should start after this.
- If you want to measure Vmax at the beginning of the time course, make sure the read button is available before you start the reaction!
Should I run a whole plate at once or rows/columns at a time?
- There are a few reasons you want to read the wells you load as quickly as possible. As soon as you mix all your reagents and cell extract, your reaction starts. If your assay has a non-linear reaction rate at short times (often the case) then you will lose some information at early timepoints. For example, often a reaction is fastest at small times, and slows down as the reaction proceeds and products build up.
- Unless you know your assay is highly linear for 30+ seconds, Janet recommends you run one cell extract with every substrate/no-substrate mix per scan of the machine, then move to the next one. OR, run all of your cell extracts with one substrate/no-substrate mix at a time.
- If kinetic data needs to be exported and you can't get the data exported as one column per well:
- Go to Settings --> Preferences
- Change the settings to Time
- Your files should look like this:
- Note: This assay ran for < 1 minute and Microsoft excel misinterpreted the times as minutes, not seconds. This may not be a problem if you run your assay longer, but it was a problem here.
- (from manual)
- You can also select columns of data from the overview picture of the data and copy paste them into excel directly without using any menus.
- The machine can report Vmax in units of milli-Units/min or Units/second. What are "Units" you ask? It is just the absorbance, A in the A = εCl Beer-Lambert law. Multiply by 1,000 to get d(Absorbance)/min.
Do I need to use the crystal plate or a plastic plate?
- NADH assays are run at 340 nm. This is right on the lower boundary for what wavelengths are suitable for our plastic so it shouldn't matter much.
What type to use when detecting NAD/NADH
- You can chose between the crystal plate and disposable plastic plates. The decision is a trade-off between getting (possibly) better optics and less interference at 340nm with a crystal plate, however the crystal plate builds up residue that may lead to inaccurate assay results.
- Disposable plate materials available: (source)
- Methacrylate cuvettes are designed for accuracy throughout the VIS-UV spectral range from 285 nm to 750 nm.
- Poly methacrylate cuvettes are ideal for concentration measurements in the 285 nm to 750 nm spectral range.
- The Lidstrom lab doesn't stock these, as of 11/2013.
- Polystyrene cuvettes are designed for assays throughout the 340 nm to 750 nm visible spectral range.
- UV cuvettes are ideally suited for measurements at 260 nm, 280 nm and in the visible range.
- BioTechniques shows % transmittance of polystyrine (green line) at different wavelengths:
Data showing NADH standards in the quartz plate and a polystyrene plate
- This experiment shows NADH standards run with 150uL well volume. All data can be found here.
- Time course:
- Average readings between 2.5 and 10 min:
- Zoom in to ~1mM. Note the polystyrene plate with only buffer has absorbance. This isn't important if only the slope of A340 is required, but it should be kept in mind.
- Why are the slopes different?
- It is actually surprising that the polystyrene plate has a similar slope to the quartz plate, given that the polystyrene plate is supposed to have some amount of transmittance loss.
- Why is the slope higher for the pink line, which was calculated based on the A340 you would expect from an ideal solution? Possible explanations include inaccuracy in the mass weighed out and partial oxidation of the NADH freezer stock.
Absorbance of polystyrene
How to clean the crystal plate
From Amanda Smith 11/2013:
- We recommend the following cleaning procedure for quartz cuvettes:
- Use diluted alkaline (0.1 M NaOH) or diluted acid (0.1 M HCl) solutions, followed by several washes with deionized water. You can also use a neutral pH detergent in warm water, followed by the 0.1 M HCl wash and deionized water rinses
- Do not use hydrofluoric acid, as it can attack the quartz material
- To avoid scratches, use only lens cleaning tissues or very fine cloth to wipe the surface of the cuvette window
- Using an ultrasonic cleaner is not recommended, as it may cause the cuvette to break
- We recommend the following cleaning procedure for quartz cuvettes:
- 100 µL has a path length of about 0.30 cm (source) (presumes full-area plates)
- spreadsheet to play with the path length calculations
- sharpie color the bottom of wells you have used on disposable plates. This does two things: (1) prevent you from re-using a well that has been used and (2) reduce pipetting errors (adding a reagent or mix to the wrong well)
Autosave in SoftMax Pro
- There is an option to auto-save data. It saves after each "plate" is read.
- To turn on the auto-save, open Edit --> Preferences, and you will get this menu:
- JM has only used the option to save as a .txt file each time. It only saves the most recent plate run.
- It takes the software time each time a plate is run, and you cannot use the software during this period. This is bad if you needed to change something about a plate and re-start it. As an example, consider a scenario where you had the reader set to read column 2, but you loaded a reaction in column 1. You may realize that you had it set to read the wrong column after you press start but in the time it takes to tell the software to stop reading column 1, autosave the file, and restart a new plate with column 2 being read, the interesting part of the time course will likely be over.
How much of my substance can I add?
- You don't want to be above the limit of detection!
Order of reagents
- add 20-40uL cell extract per well. Add ~180 uL of mix of substrate & cofactors dissolved in buffer. Adding the large volume to the small volume should yield decent mixing.
How do bubbles affect the reading?
- On 12/17/2013 JM was surprised that in a NADH consuming reaction, the A340 value only went down to ~1, not ~0.2 reflecting complete NADH consumption in a polystyrene plate. It turns out there was a bubble. After popping the bubble, the A340 value was ~0.2 as expected.