Stoklu siparişleriniz aynı gün kargoda!

Photo Activation Universal Light (PAUL) System – DNA/RNA Labeling Platform

Fiyat Sorunuz

Laboratory system for DNA/RNA labeling and detection in biological samples using photoactivation intercalation reagents, compatible with multiple container formats.

  • Multi-layered platform compatible with ELISA plates, culture plates and bottles, Petri dishes, and tubes
  • Maximum efficiency in photoactivation reaction process
  • Uniform light dose delivery at room temperature
  • Simple operation with high efficiency
  • Compact and robust laboratory instrument
  • Keyboard-programmable exposure time and power settings
  • Interchangeable base support with two adjustable heights for optimal exposure
  • Removable base support with optional heating and cooling capability for sample processing temperature modulation

Kargolama ve Teslimat

  • Kurye Teslimatı

Kuryemiz belirtilen adrese teslimat yapacaktır.

2-3 Gün

Ü.A. Kargo

  • Aras Kargo Teslimatı

Aras Kargo kuryesi belirtilen adrese teslimat yapacaktır.

1-3 Gün

Ücretsiz Kargo

  • Garanti 2 yıl
  • 14 Günlük ücretsiz iade

The Photo Activation Universal Light (PAUL) system is a sophisticated laboratory instrument designed for DNA/RNA labeling and detection using photoactivation intercalation reagents. This system enables detection of genetic material exclusively from living cells using PCR, Flow Cytometry, or Fluorescence Microscopy. The PAUL system delivers thermally stable, uniform light dosing at ambient temperature and maintains compatibility with ELISA plates, culture plates and bottles, Petri dishes, and filtration membranes. The instrument combines high-powered LED technology with precise optical alignment to achieve maximum reagent-to-DNA binding efficiency, ensuring reliable and reproducible results across diverse laboratory applications.

Technical Specifications

Width 275 mm (10.8 in)
Height 128 mm (5.1 in)
Depth 160 mm (6.3 in)
Weight 3.6 kg (7.9 lb)
Peak Wavelength (Typical) 460 nm
Maximum Container Length 128 mm (5.0 in)
Maximum Container Width 86 mm (3.4 in)
Maximum Container Height – Standard Platform 18 mm (0.7 in)
Maximum Container Height – Thin Platform 42 mm (1.7 in)
Power Input Range 100-240 V AC
Frequency Range 50-60 Hz
Maximum Power Consumption 77 W
Overvoltage Category II
Operating Environment Indoor use only
Pollution Level 2

Applications

  • DNA/RNA labeling and detection in biological organisms
  • Flow cytometry sample preparation and analysis
  • Fluorescence microscopy imaging applications
  • Living cell identification and differentiation
  • PCR sample preparation and analysis
  • High-throughput screening and multi-sample processing
  • Cell viability and DNA integrity assessment
  • Molecular biology research and diagnostics

Frequently Asked Questions

Which container types are compatible with the PAUL system?
The system is compatible with ELISA plates, culture plates and bottles, Petri dishes, tubes, and filtration membranes. Maximum container dimensions are 128 mm length × 86 mm width, with height ranging from 18 mm (standard platform) to 42 mm (thin platform).
What is the peak wavelength of the LED light source?
The system operates at a typical peak wavelength of 460 nm, optimized for photoactivation intercalation reagent activation.
Can the exposure time and power be customized?
Yes, the PAUL system features keyboard-programmable controls for both exposure time and LED power output, allowing fine-tuning for different sample types and requirements.
Is temperature control available?
The removable base support can be heated or cooled to modulate sample temperature during processing, and the system maintains uniform light dosing at room temperature for consistent results.
What are the power requirements?
The system operates on 100-240 V AC, 50-60 Hz, with maximum power consumption of 77 W, making it compatible with standard laboratory electrical infrastructure worldwide.
What detection methods are compatible with samples prepared using this system?
Labeled samples can be detected using PCR, Flow Cytometry, or Fluorescence Microscopy methodologies.