Imager Sensitivity Settings May Affect Detection of Chemiluminescent Western Blot Signals

Standard and High Sensitivity Settings on the C-DiGit
Standard and High Sensitivity Settings on the C-DiGit
Making sure that the sensitivity setting is optimal to capture the most signal from your chemiluminescent Western blot could be the difference between getting a good, strong signal or getting a signal that you can barely see. This is our possible cause 7 for weak chemiluminescent signals.

How can you avoid possible cause 7 for LI-COR chemiluminescent imagers? On the C-DiGit® Blot Scanner, use High Sensitivity setting (12-min scan) for more sensitive detection. On the Odyssey® Fc Dual-Mode Imaging System, use a longer integration time (up to 10 min). Why is this important? Well, digital imaging with the C-DiGit Blot Scanner or Odyssey Fc Imager will not generally reach a saturation point. Begin with a longer acquisition time to ensure best sensitivity, then optimize to shorter scan times.

In Table 1 below, we tested the performance differences of a Western blot detected with SuperSignal® West Dura on the C-DiGit Blot Scanner when the same blot is imaged on High Sensitivity (12 min scan) versus Standard Sensitivity (6 min scan). As you can see, the longer scan time and higher sensitivity make a big difference in the results.

Table 1 Optimal Blot Satisfactory Blot
Images Optimal Sensitivity Setting on C-DiGit Satisfactory Chemiluminescent Western Blot
Conditions: SuperSignal West Dura1 SuperSignal West Dura
Sensitivity High (12 min) Standard (6 min)
Performance Signal – 12,300 Signal – 5,030

1Comparable to WesternSure™ PREMIUM Chemiluminescent Substrate

So be sure to check your sensitivity settings before you scan!

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Find Your Perfect Match with IRDye® and VRDye™ Secondary Antibodies!

Your Perfect Match - LI-COR Secondary Antibodies

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IRDye® and VRDye™ Secondary Antibodies are the perfect match for your research! We offer highly cross-adsorbed secondary antibodies conjugated to:

  • IRDye 800CW
    • Including IgG1, IgG2a, and IgG2b Subclass Specific and Goat anti-Mouse IgM (μ chain specific) Secondaries
  • IRDye 680RD
    • Including Goat anti-Mouse IgM (μ chain specific) Secondary Antibody
  • IRDye 680LT
    • Including IgG1, IgG2a, and IgG2b Subclass Specific and Goat anti-Mouse IgM (μ chain specific) Secondaries
  • IRDye 650
  • VRDye 549
  • VRDye 490

To find which LI-COR secondary antibody is the perfect match for your experimental needs, be sure to review the specific applications for which each dye-conjugated secondary antibody is recommended. We also have Protein Labeling Kits in various dye ‘flavors’. Protein labeling kits are cost-effective alternatives to more expensive custom antibody labeling services:

IF, however, you find you do have a special labeling or synthesis need, LI-COR now offers a variety of custom labeling and synthesis services that go beyond our basic offerings. Based on our many years of experience in dye conjugation, our custom services provide a unique solution for most custom needs. We also offer protocol development for In-Cell Western™ Assays, Western blotting, and other applications. The newest offering from our Custom Services group is Reactive Oxygen Species probes.


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Annotate Visible Protein Ladders on Chemiluminescent Westerns with the WesternSure™ Pen

Demonstrating the WesternSure PenIf you doing chemiluminescent Western blots, and are imaging either with film or with a digital imager, the WesternSure™ Pen can be a very useful addition to your experimental process. This newest member of the LI-COR WesternSure chemiluminescent reagent line can be used to annotate visible protein ladders prior to chemiluminescent Western blot detection.

The pen is optimized for detection using the C-DiGit® Blot Scanner or the Odyssey® Fc Imaging System, and is suitable for use with film or other imaging systems. The WesternSure Pen is a unique marker that delivers an ink which emits light when incubated with commonly-used chemiluminescent substrates, including WesternSure PREMIUM Chemiluminescent Substrate. The ink is faintly visible for easy identification of marked membranes.

Here are a few tips to get the best performance from your WesternSure Pen:

  • Lightly touching the pen to the membrane should be enough to transfer ink to the membrane.
  • Do not push down on the nib so hard that it creates an uneven surface on the membrane.
  • Membranes may be annotated when damp after transfer, or when dry.
  • Annotated membranes may be stored dry at ambient temperature or 4 ºC for up to 1 week before starting the Western blot detection process.
  • If ink is not flowing smoothly onto a damp membrane, trace over the band until it is annotated to the desired effect.


Data using the WesternSure PenFigure 1. Chemiluminescent detection of visible protein standards. The WesternSure Pen (LI‑COR P/N 926‑91000) was used to mark the blue protein standards (panel A) for chemiluminescent Western blot detection. The blot was exposed to WesternSure PREMIUM chemiluminescent substrate and imaged on Odyssey Fc Imaging System (panel B).

If you would like some tips on how to troubleshoot chemiluminescent Western blots, read Good Westerns Gone Bad – Maximizing Sensitivity on Chemiluminescent Western Blots.

In the US, to order the WesternSure Pen online. For order inquiries outside the US, please contact your local sales office.

If Comparing Film and Digital Imagers, Expose Blot on Digital Imager First.

If you are trying to compare how the same chemiluminescent Western blot looks when imaged on a digital imager (like the C-DiGit® Blot Scanner) with how it will look when imaged on film, it’s important to know that you should expose the blot to film BEFORE imaging on a digital imager.

Why does this matter? Digital imaging requires capturing the most photons being generated, which is typically immediately after a 5-minute chemiluminescent substrate incubation. Time may be more of an issue with some substrates. For more information on how film and digial imaging compare, read Western Blot Analysis: Comparison of film and the C-DiGit Blot Scanner.

In Table 1 below, performance differences of a Western blot detected with SuperSignal® West Pico2 when the same blot is imaged over time. Blot was incubated 5 min in substrate before imaging on the C-DiGit Blot Scanner. Images are normalized to the LUT of the optimal blot.

Table 1 Optimal Blot Unsatisfactory Blot Unsatisfactory Blot
Images Optimal Blot with SuperSignal West Pico Unsatisfactory Blot with West Pico Unsatisfactory Blot with West Femto
Conditions: Immediately after incubation with SuperSignal West Pico 26 min after incubation 51 min after incubation
Imaging Time Immediately after incubation with SuperSignal® West Pico 26 min after incubation 51 min after incubation
Scan Setting High High High
Performance LOD – 625 ng, Signal – 338 LOD – 625 ng, Signal – 114 LOD – 625 ng, Signal – 32.2

In Table 2, Performance differences of a Western Blot detected with SuperSignal West Dura1 when the same blot is imaged over time. Blot was incubated 5 min in substrate before imaging on the C-DiGit Blot Scanner. Images are normalized to the LUT of the optimal blot.

Table 2 Optimal Blot Satisfactory Blot Satisfactory Blot
Images Optimal with West Dura Satisfactory with West Dura Satisfactory with West Dura
Conditions:
Imaging Time Immediately after incubation with SuperSignal West Dura 24 min after incubation 48 min after incubation
Scan Setting High High High
Performance LOD – 156 ng, Signal – 12,300 LOD – 156 ng, Signal – 10,400 LOD – 156 ng, Signal – 9,090

In Table 3, Performance differences of a Western Blot detected with SuperSignal West Femto when the same blot is imaged over time. Blot was incubated 5 min in substrate before imaging on the C-DiGit Blot Scanner. Images are linked to the LUT of the optimal blot.

Table 3 Optimal Blot Satisfactory Blot Satisfactory Blot
Images Optimal Blot with West Femto Satisfactory Blot with West Femto Satisfactory Blot with West Femto
Conditions:
Imaging Time Immediately after incubation with SuperSignal West Femto 24 min after incubation 48 min after incubation
Scan Setting High High High
Performance LOD – 156 ng, Signal – 11,500 LOD – 156 ng, Signal – 8,120 LOD – 156 ng, Signal – 6,860

1Comparable to WesternSure™ PREMIUM Chemiluminescent Substrate
2Comparable to WesternSure ULTRA Chemiluminescent Substrate

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