FastGene Blue/Green LED GelPic Imaging System

Gel Documentation System for Every Dye

Image nucleic acids and proteins

The FastGene Blue/Green LED GelPic System is one of the most compact gel documentation system on the market. Ideally suited for tight spaces on any bench-top, the system both illuminates and captures an image of your gel or blot. The Blue/Green GelPic comes equipped with three different illumination modes.

 

The first mode utilizes an array of blue/green LEDs (515 nm) situated around the periphery of the glass platen, which provides excitation light for both red- and green–emitting fluorescence dyes. Now you can get great images with traditional EtBr, an impossible feat with “blue-only” LED illuminators! This optimal “transillumination” configuration minimizes ambient background for super sensitive imaging with non-carcinogenic dyes like Midori Green, or other green dyes such as Sybr Green. Safer than old-style UV transilluminators, the blue/green LEDs are just as sensitive as UV light but don't damage DNA in an agarose gel—and they won't harm your skin or your eyes.

 



LITERATURE
User Manual
Blue/Green Technology
Brochure - Gel Imaging  Systems
 
RELATED PRODUCTS

All Imaging Systems

FastGene LED Gel  Illuminators

Midori Green Safe Nucleic  Acid Staining Solution

Fastgene Agarose Gel Band  Cutter

Mini Run Gel Eletrophoresis  System

AcquaStain 1-Step Protein Gel  Stain

 

 

The second illumination mode utilizes an innovatively-designed white LED array, shining uniform backlight for transparent media such as Coomassie-stained protein polyacrylamide gels. This diffuser technology eliminates “hot spots” due to point illumination and provides maximum clarity for colorimetric-stained gels. The third mode uses white LED “epi-illumination” for lighting from above. This mode is suited for opaque surfaces such as Western blots and similar highly reflective materials.

 

No matter the illumination mode, the Blue/Green GelPic system captures images with a high-end, scientific grade, 9 megapixel CMOS camera for wonderful separation of color and resolution of bands. These images can be saved to a computer, or you can attach a printer directly for quick printouts.

 

Blue/Green LED Spectrum

 

The absorbance spectrum of Ethidium Bromide, Midori Green Advance, and Midori Green Direct

 

 

Discover the FastGene Blue/Green LED GelPic System

 

 

Get your DNA the easy way

With the Fastgene system and Midori Green Stain it becomes extremely simple to excise your DNA fragments from gels. You don't need to wear protective eyewear or worry about mutagenic dyes—just switch on the blue-green LEDs and excise your DNA fragment with our Fastgene Agarose Gel Band Cutter! Fast, precise, and totally safe, it’s the twenty-first-century way of working with DNA.

 

Safe Illumination vs Traditional Ilumination

Midori Green vs EtBr

 

White LED for protein gels, Western blots and petri dishes

 

FastGene GelPic LED BoxFastGene GelPic LED BoxFastGene GelPic LED Box

 

Coomassie Blue Gel using white backlit LEDs (left), colormetric Western Blot Image using epi-white LEDs (middle), and a petri dish image using backlit LEDs (right).

 

Safer for you and better for your subcloning

By using safe DNA dyes and safe LED illuminators you can improve your subcloning transformation efficiencies by up to threefold! In this example, a plasmid vector was double digested with suitable restriction enzymes to create two sticky-ended DNA fragments: the lacZ gene (3,536 bp) and the backbone of the vector (4,318 bp). Equal amounts of digested DNA were electrophoresed on 1% agarose gels. The gels were stained with either ethidium bromide or Midori Green Direct gel stain according to the corresponding manuals, and then viewed using either a UV transilluminator or the FastGene Blue/Green LED Illuminator, respectively. The two DNA fragments were excised from the gels and purified using a silica membrane based purification kit. The lacZ gene and the vector backbone were re-ligated using T4 DNA ligase transformed into DH5a cells and plated onto selection plates. The total number of blue and white colonies was counted to evaluate cloning efficiency. Each experiment was conducted in triplicate, and the average cloning efficiency was determined. Midori Green Direct resulted in dramatic increase of positive transformants.

CFUs are higher with Midori Green Gel Comparison

Midori Green Can Boost Your Cloning Results!

 

Ethidium bromide is typically used in conjunction with a strong UV light source to excise DNA bands for purification prior to the ligation reaction. Such short-wavelength light is well known to cause thymidine dimers and damage the DNA. The extent of this damage is not always appreciated. High-energy light wreaks havoc on a DNA fragment in mere seconds. As can be seen below, after only a 15 second exposure of DNA in a standard agarose gel, cloning efficiency starts to drop. After a 30 second exposure, your cloning experiment is all but dead! By contrast, the cloning efficiency of protocols that use LEDs seem completely immune to any deleterious effects. If your lab isn't able to break itself of its ethidium bromide habit, using a Blue/Green LED illuminator (and imaging systems) will have still have a significant impact on cloning efficiency and DNA integrity.

 

UV exposure is bad for cloning

UV Transilluminators Kill Cloning Experiments

 

Free Gel Analysis SoftwareQuantitate freely

What’s better than buying the most affordable gel documentation system on the market? Downloading the compatible software used to quantify bands for protein, DNA and RNA gel bands for absolutely FREE. The GelAnalyzer software covers all the main aspects of evaluation from automatic lane detection to precise molecular weight calculations.

 

 

 

 

Oh, the wonderful things Blue/Green LEDs can do!

These blue/green LED illuminators aren’t just for gels. Your lab can detect and image just about anything that fluoresces green or red. For example, below is an image of transformed colonies on petri dishes expressing either GFP- (left) or RFP-fusion proteins (right).

 

Bacteria expressing GFP and RFP.

Images courtesy of Unviersity of Chicago

 

SPECIFICATIONS
Part Numbers NGFG10
Applications

DNA/RNA

-Green fluorescent dyes such as Sybr Green, Midori Green & GelGreen, ext.

-Red fluorescent dyes such as EtBr & GelRed, ext.

 

PROTEIN GELS & BLOTS

- SYPRO Ruby, Coomassie

- Colormetric blots

 

PETRI DISH documenation

Wavelength

515nm Blue/Green LED

or

White LED (Epi and Backlit)

Emission Filters

520nm amber filter (Blue LEDs)

Clear filter (White LEDs)

LED Lifetime 50,000 hours
Sensor 9MP color CMOS sensor
Size 198 x 227 x 254 mm (LxWxH)
Viewing Area 160 x 115 mm, fixed lens
Image Type

JPEG , TIFF, BMP

BW, reverse BW, color and reverse color

Image Storage USB2 to flash drive
Interface

2.7" LCD Touch-screen (stand alone)

Connect to Computer No
Remote PC Control

No

Connect to Thermal Printer Yes. USB
Connect to External Monitor Yes.VGA
Weight 3.5 kg
Power AC adaptor, 12V/4.2A,
Warranty 1 year


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