Article Category: C-DiGit System

The Way Medical Film’s Future is Headed Will Keep You Up at Night

What is the future of medical film?

Film Imaging Examples for Photography, Dentistry, Medicine, and ResearchNearly a year ago we told you why film’s future availability and affordability are in jeopardy. Today, we are still seeing a decreased demand and reduced production volume of film. But there are additional concerns. The environment is suffering because of the hazardous chemical and medical waste produced from using film.

Here are some realities facing Western blotters who use medical film:

  • The federal Resource Conservation and Recovery Act (RCRA) sets regulations for hazardous waste handling and storage.
  • The RCRA has strict laws with authority from the EPA enforcing toxic chemical cleanup.
  • Developer solutions must be neutralized and flushed with large quantities of water to the sewer system.
  • Film sheets should be collected for silver recycling because silver is too toxic to go in landfills.

What are the implications?

stas quoteAs environmental concerns rise and the supply of film is threatened, the sustainability and future of film production are at risk. As a responsible research scientist, you are aware there are environmental considerations and financial incentives for ceasing film use and switching to digital imaging. Read about one researcher who has come to that realization.

What can you do?

Consider an environmentally-friendly Western blot imaging alternative, and:

  • Eliminate your use of medical film
  • Decrease your environmental impact
  • Implement a more sustainable Western blotting technique

c-digit small

Go to bed at night without worrying if you can afford your next box of film or if you are complying with environmental hazardous waste disposal regulations. Go digital.

Register to win a C-DiGit® Chemiluminescent Western Blot Scanner today.

Studying Colon Cancer? Use the C-DiGit® Scanner for Western Blots.

Cortactin (CTTN) is a substrate of Src tyrosine kinase involved in actin dynamics, and is overexpressed in several cancers. Phosphorylated cortactin (pTyr421) is required for cancer cell motility and invasion. This study demonstrates elevated expression of pTyr421-CTTN in primary colorectal tumors, with no change in mRNA levels. Curcumin (a natural compound derived from the spice turmeric) reduced association of CTTN with plasma membrane fractions in surface biotinylation, mass spectrometry, and Western blot experiments. Curcumin also decreased pTyr421-CTTN levels in certain cell lines.

Western blot analysis of cortactin, actin and GAPDH proteins

Figure 1. Western blot analysis of cortactin, actin and GAPDH proteins from DMSO and curcumin treated cell fractions of HCT116 cells. Total cell lysates were used to represent total protein input. Cytosolic and cytoskeletal proteins were extracted using Cell Fractionation kit (Cell Signaling, MA) and quantification of the blots are summarized in graphs. The images were scanned using C-Digit and quantified using Image Studio Digits (LI-COR Biosciences, NE). The data are expressed as a ratio to total protein (mean ± SD). * p<0.05 DMSO vs. curcumin; Student’s T-test. All images are representative of three independent experiments.

Quantitative chemiluminescent Westerns (using the LI-COR® C-DiGit Blot Scanner and SuperSignal® West Pico substrate) showed that curcumin treatment reduced CTTN levels in cytoskeletal fractions, and increased cytoplasmic localization. In Western blotting and immunofluorescent microscopy studies, curcumin induced dephosphorylation of cortactin by activation of the PTPN1 protein tyrosine phosphatase. Western blotting demonstrated that biotinylated curcumin directly binds to PTPN1, and that curcumin blocks the interaction between CTTN and p120 catenin. Curcumin inhibits cell migration in colon cancer cells overexpressing CTTN, and it holds promise as a colon cancer therapeutic.

Reference:

pTyr421 cortactin is overexpressed in colon cancer and is dephosphorylated by curcumin: involvement of non-receptor type 1 protein tyrosine phosphatase (PTPN1)
VM Radhakrishnan, P Kojs, G Young, R Ramalingam, B Jagadish, EA Mash, JD Martinez, FK Ghishan, PR Kiela
University of Arizona Health Sciences Center, Tucson, Arizona; Arizona Cancer Center, Tucson, AZ, USA
PLoS ONE 9(1): e85796 (2014). 10.1371/journal.pone.0085796

URGENT MESSAGE: Global Sources Report Imminent Pixel Shortage!

Global pixel manufacturers report that a pixel shortage has reached crisis proportions.

Global Pixel Shortage
April 1, 2014, LINCOLN, NE, USA:

Sensel Raster, of the International Pixel Coalition (IPC), blames an increase in demand from biotech imaging applications. “These fancy scientists think pixels grow on trees!” laments Raster.

Just look at how this pixel shortage is affecting the LI-COR Biotechnology Website!!
April Fools Day Home Page

Learn more about this crisis.

Possible Cause 10 for Weak Chemiluminescent Western Blot Signals: Diluting Substrates

WesternSure Chemiluminescent Western Blot ReagentsOkay, I know, research budget money is tight and you want to make your reagents stretch as far as possible, but it really not a good idea to dilute your chemiluminescent Western blotting substrate.

Why? It’s because the rate of reaction is determined by the ratio of enzyme to substrate. Diluting substrates will dramatically impact the overall generation of light. Then, you will have to repeat the experiment, and you end up using more substrate anyway!

Optimal Blot Unsatisfactory Blot
Images Optimal Western Blot - Substrate Not Diluted Unsatisfactory Chemiluminescent Western Blot - Substrate Diluted
Conditions:
Substrate SuperSignal® West Dura1 SuperSignal® West Dura1
Substrate NOT diluted. Substrate diluted 1:1 (in water)
Performance LOD – 1.25 µg LOD – 2.5 µg

1Comparable to WesternSure™ PREMIUM Chemiluminescent Substrate

So don’t skimp – use the substrate full strength the first time to ensure that you are seeing all of your protein bands. Or you might just have to repeat the experiment (and that will just cost you more time and money. . .)!

Here are the other nine possible causes of weak chemiluminescent Western blot signals:

Don’t Rush Substrate Incubation Time for Chemiluminescent Western Blots

Substrate Incubation Time is Important!Five minutes can seem like a long time, especially when you are waiting to image your chemiluminescent Western blot. But it is really important that you follow the manufacturer’s recommendation for incubation time. Typically, this is five (5) minutes for optimal photon emission – for both film and digital imaging.

So, set the timer for 5 minutes, grab your iPhone® or iPod® – or the crossword, and relax until the buzzer goes off.

To test this, we imaged a chemiluminescent Western blot immediately after adding the chemiluminescent substrate and then imaged a blot where we waited 5 minutes – answered a few emails, looked at the news, and downloaded a new app – and THEN imaged the Western blot. As you can see, incubating allowed us to see more bands and gave much better Western blotting results.

Optimal Blot Unsatisfactory Blot
Images Optimal Blot - 5 Min Substrate Incubation Unsatisfactory Blot - No Incubation
Conditions:
Substrate SuperSignal® West Pico1 SuperSignal® West Pico1
Incubated for 5 minutes No incubation
Substrate at room temperature Substrate at room temperature
Performance LOD – 2.5 µg LOD – 5 µg

1Comparable to WesternSure™ ULTRA Chemiluminescent Substrate

So slow down, take a breath, and wait for your chemiluminescent Western blot substrate to incubate on your Western blot before imaging.

Here are some other blog posts on possible causes of weak chemiluminescent Western blot signals:

iPhone and iPod are all registered trademarks of Apple Inc.

Chemiluminescent Western Blot Substrate Temperature Affects Signal Strength on Western Blots

The temperature at which a chemiluminescent Western blot substrate is used can affect the strength of the signal that is captured from Western blot images. Really?? Absolutely! This is because enzyme activity is greatly reduced when it is cold. The substrate needs to be equilibrated to room temperature for digital imaging. This is true with film as well, but there may be a period of time after adding substrate and exposing to film during which the substrate has had a chance to equilibrate to room temperature.

In the table below, we show data from an experiment in which we tested the affect of temperature on Western blotting signal. For one blot, SuperSignal® West Pico chemiluminescent substrate was used right out of the refrigerator – cold, 4 °C. For the other blot, the chemiluminescent Western blot substrate was allowed to come to room temperature before digital imaging. As you can see the signal difference is quite large.

Optimal Blot Unsatisfactory Blot
Images Optimal Blot when Substrate is at Room Temperature Unsatisfactory Blot when Substrate is Cold
Conditions:
Substrate SuperSignal® West Pico1 SuperSignal® West Pico1
Substrate at room temperature Substrate cold
Sensitivity Standard Standard
Performance Signal – 1,740 Signal – 200

1Comparable to WesternSure™ ULTRA Chemiluminescent Substrate

So make sure your substrate is at room temperature before using, especially when you are imaging with a digital imager!

Here are some other blog posts on possible causes of weak chemiluminescent Western blot signals:

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!

Related posts:

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

Related posts:

Good Western Blot Image Signal Acquisition Relies on Uniformly Wet Western Blots

Have you discovered the cause of the weak signals from your chemiluminescent Western blot yet? Well, let’s keep going. Here is another possible cause – the uniform wetness of the blot. It’s important to keep your Western blot membrane uniformly wet during the entire Western blot image acquisition.

Why does this matter? Well, if you don’t add enough substrate, the membrane will not stay wet, and there will be no enzymatic activity. And, that means no signal to detect.

Precaution/Solution:

  • Use more substrate prior to imaging
  • Do not completely blot off all of the substrate before imaging

For C-DiGit® Blot Scanner:

  • Wrap the blot in plastic wrap or cover with a plastic sheet protector
  • Incubate blot with substrate directly on scanner bed

Below is a table showing results of an experiment in which blots of varying degrees of wetness were imaged. You can clearly see that the wet blot and the damp blot give the best results. For both, the blots were protected from drying out by using a 1-ply sheet protector that was placed on top of the blot.

Optimal Blot Optimal Blot Unsatisfactory Blot
Images Optimal Chemiluminescent Wet Blot Optimal Chemiluminescent Damp Blot Unsatisfactory Chemiluminescent Dry Blot
Conditions: Wet blot Damp blot Dry blot
Imaging Method Imaged in 3.0 mL of SuperSignal® West Dura1 substrate placed on the scan bed of the C-DiGit Blot Scanner with 1-ply sheet protector on top. Excess SuperSignal® West Dura1 substrate removed, then imaged on the scan bed of the C-DiGit Blot Scanner with 1-ply sheet protector on top. Blot dried before imaging.
Performance LOD – 640 ng LOD – 640 ng LOD – None detected

1SuperSignal West Dura results are comparable to those obtained with WesternSure™ PREMIUM Chemiluminescent Substrate.

We still have 5 more possible causes of weak signals in chemiluminescent Western blots to review, so stay tuned to future blog posts. And if you would like to try some FREE Western Blot Analysis Software, download Image Studio Lite today!

Watch this short video to see how to correctly place a Western blot on the C-DiGit Blot Scanner surface.

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