A single electronic license can only work on one computer but it is easy to move it around if you need to. Please contact us for pricing and more information.
Yes you can. It is called a manual installation and if there is no internet connection on registration then you just follow the instructions to get a license working. If you plan to use the machine offline then make sure it is unplugged on registration.
Our software is available directly. It is also available with a number of gel documentation systems. Please contact us at firstname.lastname@example.org to get more details.
Yes we can organise an online demonstration with a member of our team if required. If you have your own images already then they can be used in any analysis we do. We are always interested in our your feedback.
If you contact our sales team at email@example.com we may be able to extend your trial if you have not used it yet.
All of the latest TotalLab products will work under Windows 7 and Windows 8 and Windows 10, 32 and 64 bit versions.
There could be several reasons why this happens. It could be because
Using an AOI for lane detection can help (just draw a box when in automatic detection mode) or simply try to create the lanes manually.
Each lane has its own calibration curve calculated from where the iso-molecular weight lines(yellow) cross the centre of a lane. With only one standard lane these curves are usually the same as the lines just run horizontally across the gel. However with more than one standard lane it joins up the bands of the same value and so the lines can be slightly off horizontal depending on the gel.
The default curve fit is cubic spline. This curve type creates a smooth curve passing through all points. It has no defining equation. This option can be somewhat over sensitive to inaccurate mappings but will guarantee that the results are as expected from where the iso-molecular weight lines(yellow) cross the lanes. First order Lagrange is similar but uses straight lines.
The other main option used historically is the Linear Log equation which is a straight line calculated from the log of the Molecular Size. This is theoretically correct but can lead to misleading results due to any inaccuracy of the curve fit. Even curves with high R2 results can still have problems.
We use an iterative algorithm called Levenberg-Marquardt to get the results for the curve fitting equations. Cubic Spline and First order Lagrange are also well defined algorithms.
A histogram of all pixel values is created. Then the default auto contrast is created from the value of the histogram after 0.5% of all pixels and at 99.5% of all pixels. This stops outliers or scanner noise affecting the result but it can look a little different
If the image has a calibration (from Powerscan) or an encoding (from GE or Fuji scanners) then the converted values are used by default for the image. If you do not want this then use the “Raw” option to go back to the raw pixels values
Note: Contrast does not affect the values used in any calculations
Go to the File menu and select Invert Measurements to reverse the calculation used to generate the Profile. This option is remembered so you should not need to change it again.
CLIQS can open .tif, .tiff, .jpg,.jpeg, .png, .gif, .gel, .img (Fuji), .bmp files.
This occasionally happens as part of the loading function. Just press the invert button on the toolbar to see if reversed again.
One type of tiff image we cannot load is a multi-page tiff. There are many free tools which can split the tiff into single image files including ImageJ and ImageMagick.
This is defined as the total value of all the pixels in a band with background subtracted. The pixels are shown on the image as between the 2 red lines (the band edges). Another way to look at it is as the area under the profile for the band (with background subtracted) multiplied by the lane width.
This information can be found in the Analysis Report (previously called Gel Report). On the first page total band volume (and total lane volume) are displayed in a summary table of all the lanes in the gel.
The background level is the value calculated from the selected method as the background used for that spot. It can be the same for all spots. The value is subtracted from every pixel in the spot and then all pixels are summed to get the spot volume. If some pixels in the spot are lower than the background level then they are only set to zero and not a negative number. Therefore you can get differing background totals, though not by that much usually.
This option allows the user to model each band as a gaussian and use these to recalculate the band volume. This is sometimes used to split the volume of overlapping bands in what is believed to be a more accurate manner. Advanced fitting is best but there are problems. They are firstly, that is can be very slow and secondly, without good background subtraction they can be very wrong.
By default in CLIQS this option is off. You can turn the option on from the start or finish pages of the wizard by ticking the check box next to Profile Deconvolution.