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Gel documentation system

Our advanced Gel Documentation System features a high-resolution camera for sharp, precise image capture and analysis. They offer UV transillumination for nucleic acid detection and LED illumination for non-UV imaging, ensuring versatility. These have a wide dynamic range, allowing the detection of both faint bands and intense signals for accurate gel analysis. They allow easy integration with computers for quick data transfer and report generation. Our system allows users to adjust settings like brightness, contrast, and exposure for the best image quality.

QE

CCD camera

A/D

Lens

Trans-white illumination

Gel documentation system 36-GDS100

  • QE : 0.7
  • CCD camera : 5 megapixels, Pixel density 16-bit
  • A/D : 10-bit
  • Lens : F1.2 (motorized) transparent lens
$5,850.00
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Gel Documentation System 36-GDS101

  • QE : 0.82
  • CCD camera : 1.45 megapixels, Pixels density 16-bit
  • A/D : 16-bit
  • Lens : F1.2 (motorized) transparent lens
$6,760.00
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Gel Documentation System LE-GDS201

  • Camera Type : Monochrome Scientific Digital Camera
  • Digital Camera Resolution : 5 Megapixels, 2592 × 1944
  • Dynamic Range : 4.8OD
  • Pixel Density : 16bit(65536 Grey Scales)
$5,174.00
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Gel Documentation System LE-GDS202
  • Camera Type : Monochrome Scientific Digital Camera
  • Digital Camera Resolution : 20 Megapixels, 4800 × 4440
  • Dynamic Range : 4.8OD
  • Pixel Density : 16bit(65536 Grey Scales)
$6,084.00
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Gel documentation system FAQs

1.How does the camera improve the accuracy of gel analysis?

The high-resolution imaging captures fine band details, allowing software to detect, quantify, and compare bands with greater accuracy, reducing the risk of misinterpretation.

2.Why is a high-resolution camera important in a Gel Documentation System?

A high-resolution camera ensures sharp and detailed images of gels, enabling accurate analysis of DNA, RNA, or protein bands. This precision is crucial for reliable documentation.

3.How does UV transillumination help in nucleic acid detection?

UV light excites common nucleic acid stains such as ethidium bromide, enabling clear visualization of DNA and RNA bands in agarose or polyacrylamide gels.

4.What advantages does LED illumination provide over UV?

LED illumination is safer for users, reduces the risk of sample degradation, and is compatible with a variety of non-toxic fluorescent dyes, making it ideal for educational and research labs focusing on safer imaging techniques.

5.Can I adjust these settings manually during image capture?

Yes, the system allows real-time manual control of brightness, contrast, and exposure through the integrated software, enabling users to fine-tune image quality before saving or analyzing.